High-Performance Process Manager Parameter Reference Dictionary
Contents
1. HPM Parameter Reference Dictionary 8 97 HPM Parameter Reference Dictionary 8 97 Table of Contents 1 INTRODUCTION 1 1 Purpose 1 2 Use of This Publication 1 3 Parameter Definition Format 1 4 Parameters Per Point Type and Algorithm Type 1 5 Full Points and Component Points 1 6 Abbreviations 1 7 CL Access 1 7 1 Parameters Not Accessible to CL 1 7 2 CL Restricted Parameters 2 PARAMETERS PER POINT TYPE 2 1 Analog Input Analgin 2 2 Analog Output AnalgOut 2 3 Array 2 4 Box HPM Box 2 5 Box Flag 2 6 Box Numeric 2 7 Box Timer 2 8 Device Control DevCont 2 9 Digital Composite DigComp 2 10 Digital Input Dig n 2 11 Digital Output DigOut 2 12 Reserved 2 13 IOP 2 14 Logic 2 15 Process Module ProcMod 2 16 UCN Network 2 17 UCN Node 3 PARAMETERS PER ALGORITHM TYPE G9 G9 G9 GO G9 WO WO Ww OONOORWN Auto Manual AutoMan Calculator Calcultr Data Acquisition DataAcq Flow Compensation FlowComp General Linearization GenLin High Low Average HiLoAvg Incremental Summer IncrSum Middle of 3 MidOf3 Override Selector ORSel HPM Parameter Reference Dictionary i 8 97 Table of Contents Pid Pid with External Reset Feedback PidErfb Pid with Feed Forward PidFf Pid with Position Proportional PidPosPr Position Proportional PosProp Ramp Soak RampSoak Ratio Control RatioCtl Summer RegCtl Summer RegPV Switch Totalizer Totalizr Variable Dead Time with Lead Lag VdtLdLag G92. Type Hardware Reference Address AO Processor Output 4011S03 OP Parameter OP of Slot 3 of AO processor 11 DI Processor PV DIO5S07 PVFL Parameter PVFL of Slot 7 of DI processor 5 DO Processor 1D015S12 SO Parameter SO of Slot 12 of DO processor 15 Status Output DO Processor 1D015S12 ONPULSE Parameter ONPULSE of Slot 12 of DO ON Pulse Command processor 15 DO Processor 1D015S12 OFFPULSE Parameter OFFPULSE of Slot 12 of OFF Pulse Command DO processor 15 Lock The access lock defines who or what can change the parameter s value or option and the access level defines who or what is requesting a parameter value or option change For example if a requestor with an access level of Supr tries to change a parameter that has an access lock of Engr the request will be denied The two charts below describe how access levels and access locks work Access Level Used By Who Or What When A Parameter Change Request Is Made Oper Operator Supr or Sup Supervisor Engr Eng or Eg Engineer Cont Continuous_Control from a Module on the LCN OnProc On Process HPMMCc HPMM_Continuous_Control from HPMM Prog CL HPM Sequence_Programs PtBld or PB Point_Builder Data Entity Builder Access Lock Access Level of Requestors That Can Change The Parameter Oper Oper Supr Engr Cont HPMMCc Prog PtBld Supr Supr Engr Cont HPMMCc Prog PtBld Engr Engr Cont HPMMCc Prog PtBld OnProc Oper Supr Engr Sup Eg Supr Engr EgOnly Engr Pr
3. 1 Ems External source can change point s mode 2 Emp Not implemented HPM Parameter Reference Dictionary E 6 8 97 a F FlowComp Type Real Flow Input Indicates the value of the uncompensated flow input This input is Lock View a square rooted differential pressure input Default NaN PtRes HPM Range N A FAILCODE Type E IOMHF TO Processor Hard Fail Status Lock View Default N A PtRes IOP Range 0 Unknown Unknown status 1 PowerDwn This IOP Powered Down 2 InvPrgEx Invalid Program Execution 3 EpromErr EPROM Checksum Error 4 RamCntEr RAM Contents Error 5 RamAdrEr RAM Addressing Error 6 DpaError Device Physical Address Error 7 DsaError Device Soft Address Error 8 RxBufOfl I O Link Receive Buffer Overflow 9 IOLJaber I O Link Jaber Circuit Failure 10 11 BadPgJmp Ilegal Value of Case Control 12 AdCIncmp A to D Conversion Incomplete 13 AdOutOvf A to D Output Value Overflow 14 AdOutUdf A to D Output is less than Zero 15 AdCCalEr A to D Calibration is incorrect 16 BadDcLtc Bad DC LTC 17 Dmt_Tmot Dead Man Timer Timeout 18 MLtOutFl Multiple Output Failure 20 BadDaRng Bad D to A Range 21 MstrTmot Master 68K Timeout FAILOPT 1 168 IOP Type E FAILOPT Failure Option for Outputs Defines the state which an AO or DO IOP goes Lock Eng PB into if the IOP itself or the HPMM fails If the IOP failure is due to power Default Unpower loss outputs go to unpowered regardless of th
4. Type Lock Default PtRes Range E MODE Normal Mode Allows user to define the normal mode for this data point Engr None HPM 0 None No configured normal operating mode 1 Man Manual is the normal operating mode 2 Cas Cascade is the normal operating mode 3 Auto Automatic is the normal operating mode 4 Bcas Backup Cascade is the normal operating mode HPM Parameter Reference Dictionary N 8 8 97 NMODETRK NMODETRK HPM Box Type Lock Default PtRes Range E SNMODETR Normal Mode Tracking Supression Enable disable Normal Mode and PtBld Normal Mode attribute from tracking mode and mode attribute changes Enable HPM Enable Disable NMSGTXT NIM Type Lock Default PtRes Range Integer Number of Message Text Items Defines the number of message text items that PtBld you can enter See MSGTXT 0 NIM 0 to 15 NN i Array Type Lock Default PtRes Range Real Array Point Numeric Variables Numerics are mapped from either the HPM box Determined by defined by NNUMERIC and NNSTIX parameters or from a serial interface IOP SPLOCK connected device when EXTDATA IO_NN mapping is defined by the parameter IOPNUM FTANUM DEVADDR NNSTIX and NNUMERIC parameters N A HPM 1 lt i lt Array parameter NNUMERIC NN 1 8 DevCtl Logic Type Lock Default PtRes Range Real Numerics 1 8 Eight numerics are provided with each device control and lo
5. DEADBAND 1 24 Logic Type Lock Default PtRes Range Real Deadband Value Defines the value of the deadband for the specified logic block Supr within the logic slot 1 0 HPM gt 0 0 DEADBAND PosProp PIDPosPr Type Lock Default PtRes Range Real Deadband in Percent of Full Scale Defines the error deadband Supr 5 0 HPM 0 0 to 100 0 DEADTIME PosProp PIDPosPr Type Lock Default PtRes Range Real Deadtime in seconds Additional pulse time required to overcome the friction Supr in the motor when it begins to move or change direction It is added to the 0 0 calculated pulse time except when the pulse that was issued in the last cycle time HPM was in the same direction as the pulse this time and the pulse width was equal to CYCLETIM 0 0 to 60 0 seconds DEBOUNCE Digin Type Lock Default PtRes Range Integer Contact Debounce Time in Milliseconds The length of time an input must Engr PB remain in a new State for it to be declared as a valid event by the DISOE IOP 10 milliseconds Refer to the Absolute Delay Across parameter located in the Digital Input HPM Processor table of the HPM Specification and Technical Data 0 to 50 milliseconds HPM Parameter Reference Dictionary D 5 8 97 DECONF DECONF STI Type Lock Default PtRes Range E DECONF Digitally Enhanced Configuration Mode Defines the contents of the data that Eng View will be
6. SCOMCUTS O 99 HPM Box Type Comm Processor CPU Utilization Task CPU Utilization in per cent for Lock ie each Comm Processor Task Default 0 0 PtRes HPM Helpful Hint This parameter cannot be reset Range 0 100 CTLCFLM HPM Box Type Real Control Processor CPU Free Low Limit Lock Engineer Default 10 PtRes HPM Helpful Hint This parameter cannot be reset Range CTLCUOS HPM Box Type Real Control Processor CPU Utilization system specifies the CPU Utilization Lock View in per cent for the Control Processor operating system device drivers and Default 0 0 interrupt handlers PtRes HPM Helpful Hint This parameter cannot be reset Range 0 100 HPM Parameter Reference Dictionary 2 8 97 CTLCUTS CTLCUTS 0 99 HPM Box Type Real Control Processor CPU Utilization Task specifies the CPU Utilization in Lock View per cent for each Control Processor Task Default 0 0 PtRes HPM Helpful Hint This parameter cannot be reset Range 0 100 DBVALID HPM Box Type E ACCSRC HPM Database Valid Lock Eng Default DB Invalid PtRes HPM Range 0 DB_Valid An IOP database is valid and the IOP can be started 1 DBInvalid An IOP database is not valid and the IOP will not start IOMPADD 1 168 Type Integer IOP Address Returns the physical address of the IOP with soft address Lock View File 1 16 card 127 Default PtRes HPM Range
7. Cutout alarms behave the same as inhibited alarms that is when a point s contact cutout state is true e alarms are not distributed to the US or HM e return to normal events are not distributed to the US or HM e EJP events triggered by the alarm condetion are not distributed For HPM Box Flag points CUTOUT applies to only slots 1 128 C 17 8 97 COUNTDWN COUNTDWN DigIn Type Lock Default PtRes Range Logical Accumulator Count Down Flag Determines whether the accumulator is to Eng PB count down or count up Off HPM Off Accumulator is to count up On Accumulator is to count down CPMSGSEC NIM PSDP Type Lock Default PtRes Range Real Number of Checkpoint Messages Specifies the Number of Checkpoint View Messages per second 0 NIM N A CPTIMAVG NIM PSDP Type Lock Default PtRes Range Real Average Time to Complete a Checkpoint Request Specifies the Average Time View in msec to Complete a Checkpoint Request 0 NIM N A CPTIMMAX NIM PSDP Type Lock Default PtRes Range Real Maximum Time to Complete a Checkpoint Request Specifies the Maximum View Time in msec to Complete a Checkpoint Request 0 NIM N A HPM Parameter Reference Dictionary C 18 8 97 CRIOLORN CRIOLORN 1 4 HPM Box Type Integer Current Hour IOL Fetch Store Overrun Counter A counter that accumulates Lock View and shows the number of I O Link fetch store time
8. Defines the color of the upper middle and Eng PB lower boxes that are used to display the current state of the point on the Group and Detail Displays The lower box and its default Red do not apply if NOSTATES 2 for this point Green Upper box default State 1 Yellow Middle box default State 0 Red Lower box default State 2 NIM Red Green White Black Cyan Yellow Blue Magenta Helpful Hint BOXCLR has an access lock of View if PNTFORM Component BOXCLR 0 1 Digin Flag Type Lock Default PtRes Range E BOXCOLOR Box Color for Digital Displays Defines the color of the upper and lower Eng PB boxes that are used to display the current state of the point on the Group and Detail Displays Boxes are applicable when DITYPE is Latched or Status Green Upper box default color State 1 Yellow Lower box default color State 0 NIM Red Green White Black Cyan Yellow Blue Magenta HPM Parameter Reference Dictionary B 8 8 97 BSHILM BSHILM Type Real Bias High Limit Defines the upper limit of the bias Lock Supr Default 50 0 PtRes HPM Range gt BSLOLM NaN Helpful Hint Entering NaN disables the BSHILM function with NaN being stored in the database BSLOLM Type Real Bias Low Limit Defines the lower limit of the bias Lock Supr Default 50 0 PtRes HPM Range lt BSHILM NaN Helpful Hint Entering NaN disables the BSLOLM function with NaN being stored in
9. Low NIM JniPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated Helpful Hint PVHIPR configuration requires PVHITP NaN PVHITP Type Lock Default PtRes Range Real PV High Alarm Trip Point Defines the trip point for the PV high alarm for Supr this point NaN HPM PVLOTP to PVHHTP NaN PVINIT Type Lock Default PtRes Range Logical PV Initialization Request Flag Indicates that an initialization request has been Prog made for this point Off HPM Off No 1 shot initialization On Initializes the PV filter and the algorithm for a 1 shot single sample time HPM Parameter Reference Dictionary P 36 8 97 PVLLFL PVLLFL RegCtl RegPV Type Logical PV Low Low Alarm Flag Indicates that the PV has exceeded the alarm trip Lock View point established by the PVLLTP parameter Default Off PtRes HPM Range Off PV gt Low Low alarm trip point On PV lt Low Low alarm
10. Man SHUTDOWN Off and REDTAG Off If the OP is manually set above or below the OP limits and the mode is then changed to automatic or cascade a process bump HPM Parameter Reference Dictionary 0 3 8 97 OPALDB OPALDB RegCtl Type Lock Default PtRes Range Real Output Alarm Dead Band The deadband for the Regulatory Control OP EngPB alarm It is used to prevent excessive recurrence of alarms by adjusting 5 Output Units the range of the output at which the alarm returns to normal HPM Available on Release 510 and later software 0 to 25 Output Units Helpful Hint The value of OPALDB must be less than or equal to OPHITP OPLOTP 2 OPCHAR Type Lock Default PtRes Range Logical Output Characterization Option Defines whether the output PtBld characterization option is to be used for this data point If this option Off is to be implemented the user must supply the values for the input HPM coordinates OPIN 1 4 and output coordinates OPOUT 1 4 Refer to the HPM Control Functions and Algorithms manual for a detailed description of output characterization On Output characterization is to be used Off Output characterization is not to be used OPCMD DevCtl DigComp Type Lock Default PtRes Range Logical Output Command Prog Off HPM Off Commands the output state to StateO On Commands the output state to State1 Helpful Hint If state change did not occur OPCMD h
11. PV PVAUTO PVALDB F 3 6 High Low Average HiLoAvg PVALDBEU F PVALGID PVAUTOST PVCALC PVCLAMP PVEUHI PVEULO PVEXEUHI PVEXEULO PVEXHIFL PVEXLOFL PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVINIT PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F SCHSTS SEGTOT SLOTNUM STSMSG TF UNIT USERID lt S YS LY The parameters of the High Low Average PV algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP BADPVFL F BADPVPR F CNFMU CNFPU CONTCUT F EUDESC FORCE FRCPERM FSELIN HIGHAL F HIGHALPR F KEYWORD LASTPV MODNUM N NAME NMIN NODENUM HPM Parameter Reference Dictionary NODETYP NOPINPTS NORMCYCL NTWKNUM OVERVAL F P1 P1STS PFDLYFL PIDSTN PISRC PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PV PVALDB F PVALDBEU F PVALGID PVAUTO PVAUTOST PVCALC PVCLAMP PVEQN 3 4 PVEUHI PVEULO PVEXEUHI PVEXEULO PVEXHIFL PVEXLOFL PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVINIT PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROC
12. Range gt 90 0 HPM Parameter Reference Dictionary R 6 8 97 RG RG FlowComp Type Lock Default PtRes Range Real Reference Specific Gravity Defines the reference specific gravity or reference Supr molecular weight in the same engineering units as G measured or calculated 1 0 molecular specific gravity or molecular weight weight HPM N A RINITREQ RegCtl Type Lock Default PtRes Range Logical Remote Initialization Request Indicates whether an initialization request has View been made On for Off No request On Request has been made Helpful Hint RINITREQ does not apply if RCASOPT None RINITVAL RegCtl Type Lock Default PtRes Range Real Remote Initialization Value View NaN HPM N A NaN Helpful Hint RINITVAL does not apply if RCASOPT None RJRAW 1 168 Type Lock Default PtRes Range Real Reference Junction s Raw Count in Volts View NaN HPM N A RJTEMP LLAI Type Lock Default PtRes Range Real Reference Junction Temperature Displays the current temperatures C of the View reference junction sensor This value is updated only if the thermocouple input NaN is configured HPM N A HPM Parameter Reference Dictionary R 7 8 97 RNGCODE3 RNGCODES ProcMod Type Blind Record RNGCODE3 Lock Oper Default N A PtRes HPM Range RP FlowComp Type Real Reference Pressure RP is the reference press
13. SCHSTS SLOTNUM STSMSG TD TF TLD TLG1 TLG2 UNIT USERID 8 97 ADD ADD Array Type Logical Add Point Last Parameter Indicator The last parameter sent to the HPM during Lock PtBld point build of an array point Default On PtRes HPM Range Off On Helpful Hint Do not remove ADD from an exception build file or the point will not load properly AUXUNIT Type E UNIT Auxiliary Unit The Auxiliary Unit of an alarmable process point If an Lock Oper Auxiliary Unit ID is specified alarms from this point go to the Auxiliary Unit Default Null instead of the Primary Unit If the AUXUNIT parameter is set to null PtRes NIM alarms go to the Primary Unit Available in Release 520 and later software Range A Z 0 9 and Null Any valid unit ID as configured in the NCF Helpful Hint A Network configuration option sets the keylevel required to change AUXUNIT COMCFLM HPM Box Type Real Comm Processor CPU Free Low Limit in per cent Lock Engineer Default 10 PtRes HPM Helpful Hint This parameter cannot be reset Range 0 100 HPM Parameter Reference Dictionary 1 8 97 COMCUOS COMCUOS HPM Box Type Real Lock View Default 0 0 PtRes HPM Comm Processor CPU Utilization System Specifies the CPU Utilization in per cent for the Comm Processor operating system device drivers and interrupt handlers Helpful Hint This parameter cannot be reset Range 0 100
14. SDI STI Switch Summer Timer Totalizr UCN VdtLdLag HPM Parameter Reference Dictionary 1 6 1 6 High Low Average algorithm High Level Analog Input Incremental Summer algorithm TO Link T O Processor Logic Data Point Slot Local Control Network Low Level Analog Input or LLAI 8 Low Level Analog Input Multiplexer or LLAI 16 32 Middle of 3 Selector algorithm Multiply Divide algorithm Network Interface Module Override Selector algorithm Pulse Input Proportional Integral Derivative Proportional Integral Derivative with External Reset Feedback algorithm PID with Feedforward algorithm PID With Position Proportional algorithm Position Proportional algorithm Process Module Data Point Processor Status Data Point Ramp Soak algorithm Ratio Control algorithm Regulatory Control Data Point or algorithm Regulatory PV Data Point or algorithm Remote Hardened Analog Input Multiplexer or RHMUX 16 32 Serial Interface Serial Device Interface Smart Transmitter Interface Switch algorithm Summer algorithm Timer Data Point Totalizer algorithm Universal Control Network Variable Deadtime Lead Lag algorithm 8 97 1 7 1 7 CL ACCESS 1 7 1 Parameter Not Accessible to CL Parameter EVNTREC is not accessible to Control Language CL sequences 1 7 2 CL Restricted Parameters The following parameters are not accessible to PM CL sequences They are not directly available to AM CL sequences Access to AM CL
15. TRANTIMO TRANTIMO 2 DevCtl DigComp Type Lock Default PtRes Range Time Transition Time The date and time of the most recent transition to each state View based on the PV 0 HPM Time Stamp TRATAVG NIM HPM Box Type Lock Default PtRes Range Real Average UCN Transaction Trip Time The average UCN transaction trip time View in milliseconds for both fetch and store responses from this node to other NaN UCN nodes HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays TRATMAX NIM HPM Box Type Lock Default PtRes Range Real Maximum UCN Transaction Trip Time The maximum UCN transaction trip View time in milliseconds for both fetch and store responses from this node to other NaN UCN nodes HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays TRFB PidErtb Type Lock Default PtRes Range Real Tracking Feedback Input in Engineering Units Indicates the value of the PV or View SP of another data point that is receiving its setpoint from this data point NaN HPM N A TSCOMP Type Lock Default PtRes Range Time Time Stamp CL Source Compatibility Specifies the CL Source View compatibility time stamp CL object header 0 HPM N A TSSRC Type Lock Default PtRes Range Time Time Stamp CL Source Specifies the CL Source time stamp CL object View header 0 HPM N A HPM Parameter Refer
16. The PV state descriptors contain the text that describes Lock View the five 0 4 possible states of a DigComp or DevCtl PV The descriptors are Default N A set equal to whatever is configured in BADPVTXT and MOVPVTXT during PtRes NIM HPM Box configuration and in STATETXT O STATETXT 1 and Range N A STATETXT 2 during point configuration if PYTXTOPT ON PVSTATES if accessed by Control Language programs obey the following rules PVSTATES 0 STATETXT 0 PVSTATES 1 STATETXT 1 PVSTATES 2 BADPVTXT PVSTATES 3 MOVPVTXT PVSTATES 4 STATETXT 2 does not apply unless NOSTATES 3 HPM Parameter Reference Dictionary P 43 8 97 PVSTS PVSTS RegCtl RegPV Type Lock Default PtRes Range E PVVALST Status Of PV Input Value Defines the current status of the PV value View Bad HPM 0 Bad Value is bad and replaced with NaN For an STI point value can be set to Bad based on transmitter gross status 1 Uncertn Status of the value is uncertain 2 Normal Value is good PVTEMP Type Lock Default PtRes Range E TEMPTURE PV Temperature Scale Defines the temperature scale to be used in PtBld characterizing the PV input Degrees C HPM 0 Degrees C Celsius 1 Degrees F Fahrenheit 2 Degrees R Rankin 3 Degrees K Kelvin PVTRACK Pid Type Lock Default PtRes Range E TRACKING PY Tracking Option Defines whether SP is to be set equal to PV
17. Type Real Setpoint Engineering Unit Low Range Lock View Default N A PtRes HPM Range lt SPEUHI SPFORMAT RegCtl Type E VALFORMT Setpoint Decimal Point Format Indicates the format of the SP value Lock View SPFORMAT tracks with the selected PYFORMAT Default N A PtRes HPM Range 0 D0 XXXX 1 D1 XXX X 2 D2 XX XX 3 D3 X XXX SPHIFL RegCtl Type Logical Setpoint High Limit Violation Flag Indicates the SP has exceeded the upper Lock View limit established by SPHILM Default Off PtRes HPM Range Off High limit not exceeded On High limit exceeded HPM Parameter Reference Dictionary S 18 8 97 SPHILM SPHILM RegCtl Type Real Setpoint High Limit Defines the upper limit for the SP Lock Supr Default NaN PtRes HPM Range SPLOLM to SPEUHI NaN Helpful Hint 1 Entering NaN disables limit checking by forcing SPHILM to its extreme value SPEUHI 2 SPHILM does not apply for the RampSoak algorithm SPLOCK ProcMod Type E ACCLVL Setpoint Lock Stores to the process module point s own flags numeric Lock Engr strings and time parameters and are checked against the access lock specified Default Operator by SPLOCK PtRes HPM Range 0 Operator Operator and higher keylock positions allow store access 1 Supervis Supervisor and higher keylock positions allow store access 2 Engineer Engineer and higher keylock positions allow store access 3 Program Only the program
18. 0 HPM 0 to Helpful Hint MAXPULSE Type Lock Default PtRes Range Real Maximum Pulse Time Limit Defines the maximum pulse time limit If the Supr calculated pulse time is greater than this value then a pulse of length 60 MAXPULSE is issued HPM MINPULSE to 60 0 seconds NaN HPM Parameter Reference Dictionary M 2 8 97 MAXSLOTS MAXSLOTS Type Lock Default PtRes Range Real Maximum Available Slots Returns the maximum number of slots that can be View configured in an IOP 0 IOP 0 127 slots MAXTIMOH DevCtl DigComp Type Lock Default PtRes Range Real Maximum Time Allowed in State 1 The maximum amount of time based on Supr the PV in hours allowed for state 1 0 HPM N A MAXTIM1H DevCtl DigComp Type Lock Default PtRes Range Real Maximum Time Allowed in State 1 The maximum amount of time based on Supr the PV in hours allowed for state 2 0 HPM N A MAXTIM2H DevCtl DigComp Type Lock Default PtRes Range Real Maximum Time Allowed in State 2 The maximum amount of time based on Supr the PV in hours allowed for state 3 0 HPM N A MAXTRANO 2 DevCtl DigComp Type Lock Default PtRes Range Time Maximum Number of Transitions into State This is the maximum number of Supr transitions allowed in each state and is the target value for maintenance 0 0 statistics HPM 0 There is no limit MDMHWREV HPM Box
19. 1 Man Operator or discontinuous program controls slot s output OP regardless of any automatic control strategy 2 Cas Upstream slot s OP is this slot s SP 3 Auto OP value is computed by the configured RegCtl algorithm and the setpoint SP comes from the local setpoint LSP location in the RegCtl point An operator or a discontinuous program can change the setpoint value 4 Beas Local cascade mode where the RegCtl point receives its setpoint from the OP of a primary data point even though the entry for the RCASOPT parameter is Spc DdcRsp or Rsp where the AM provides the setpoint In this way should the AM or the NIM fail the control strategy will shed to the local cascade mode 5 Normal Parameter NMODE determines the normal mode of this slot Helpful Hint 1 MODE change by a program requires MODATTR Program and REDTAG Off 2 MODE change by an operator requires MODATTR Operator MODEPERM Permit and REDTAG Off HPM Parameter Reference Dictionary M 8 8 97 MODEAPPL MODEAPPL 1 4 DevCtl DigComp RegCtl Type Lock Default PtRes Range Logical Mode Applicability Defines changes for Regulatory Control View points Man On MODEAPPL 1 ON if MAN mode if valid else it is OFF MODEAPPL Auto Off MODEAPPL 2 ON if AUTO mode is valid else it is OFF MODEAPPL Bcas Off MODEAPPL 3 ON if CAS mode is valid else it is OFF MODEAPPL Cas Off MODEAPPL 4 ON if BCAS mode is valid else it is O
20. 57 G_CUM Grams per cubic Meter 58 LBS_CUFT Pounds per cubic foot 59 LBS_CUIN Pounds per cubic inch STISWVER STI Type Lock Default PtRes Range String_8 Software Revision Level of the Smart Transmitter View Blank HPM N A STITAG STI Type Lock Default PtRes Range String_8 Transmitter Tag Name lIdentifies the name of the Smart Transmitter to the Eng PB system and on displays reports and logs All Spaces HPM Helpful Hint For multivariable transmitters an identical STITAG must be entered for each active slot related to that transmitter The IOP uses the number of identical STITAG names to calculate the number of PVs associated with with a given transmitter Tag name can be up to 8 characters and the permissible character set is as follows Alphabetics A Z uppercase or lowercase Numerics 0 9 Embedded space characters are allowed HPM Parameter Reference Dictionary S 27 8 97 STOPFL STOPFL Type Lock Default PtRes Range Logical Stop Command Flag Stops the DigIn accumulator RegPV totalizer or Box Prog Timer when flag transitions from Off to On Off HPM Off No effect on the accumulator totalizer On Stops the accumulator totalizer from counting up down STR8 1 16 384 HPM Box Type Lock Default PtRes Range String_8 Box String Variables tThe upper bound limit of this array is determined by the Oper NSTRING Box parameter The LCN index
21. Default PtRes Range E BOXCOLOR State Box Color Used only for US displays corresponds to the box colors View configured using SOBOXCLR BOXCLR 0 SIBOXCLR BOXCLR 1 N A S2BOXCLR BOXCLR 2 NIM Red Green White Black Cyan Yellow Blue Magenta S1 PidErtb Type Lock Default PtRes Range Logical Tracking Switch Determines whether the CV value of this data point is Prog replaced by the tracking value Off HPM Off CV value is not replaced On CV value is replaced by the tracking value S1 STI Type Lock Default PtRes Range String_127 Transmitter Status lIndicates the current status of the smart transmitter View associated with this STI point Transmitter status consists of Blank Transmitter scratch pads 1 2 3 amp 4 HPM Detailed transmitter status N A Blank List of parameters whose values are not the same in both the STI IOP database and the transmitter s database Parameters are mismatched 1 S2 RampSoak Type Lock Default PtRes Range Logical Mark 1 and Mark 2 Flags tThese flags are used to indicate to other data points View that a specified time has elapsed from the beginning of a specified ramp or soak Off segment Refer to the HPM Control Functions and Algorithms manual for HPM detailed information Off On HPM Parameter Reference Dictionary S 1 8 97 1 S4 1 1 24 through S4 1 24 Logic Type E PMMLGPM Status Inputs 1 4
22. Default PtRes Range Real Period Defines the processing period in seconds View 1 second HPM 0 25 0 5 or 1 0 seconds PERIOD Type Lock Default PtRes Range Real Period specifies the scan period in seconds PtBld 25 sec for Logic DigComp amp DevCtl 50 sec for RegPv and RegCtl 1 00 sec for ProcMod HPM 0 0625 0 125 0 25 0 5 1 0 2 0 and 4 0 seconds PERIOD DigOut Type Lock Default PtRes Range Real Period Defines length of period for an SO output from DigOut point that has Eng PB been configured for a PWM output 10 0 seconds HPM 1 0 to 120 0 seconds HPM Parameter Reference Dictionary P 2 8 97 PFDLYFL PFDLYFL RegCtl RegPV DevCtl DigComp Logic ProcMod Type Lock Default PtRes Range Logical PreFetch Delayed Flag Set when prefetch data is not available for slot View execution Off HPM Off prefetch data is available for slot execution On prefetch data is not available for slot execution PGALGID 1 4 DevCtl Type Lock Default PtRes Range E GTALGID Primary Gate Algorithm ID Defines the algorithm IDs for primary gates The in an Array Boolean logic gates beginning with P have a user defined pulse size 1 4 PtBld Null HPM NULL No algorithm AND And Gate algorithm OR Or Gate algorithm NAND Nand Gate algorithm NOR Nor Gate algorithm XOR Exclusive Or Gate algorithm PAND Pulse Nand Gate
23. Default 1 On STATEO STATETXT 0 0 Off STATE STATETXT 1 2 State 2 STATE2 STATETXT 2 Digital Composite and DevCtl points PtRes NIM Refer to the HPM Control Functions and Algorithms manual for a detailed description of the Digital Composite point states Range N A STATETXT 0 3 DevCtl Digin DigComp Flag Type String 8 State Descriptor Text Define the states of the point using descriptors which Lock PtBld can have up to eight characters Default 1 On 0 Off STATETXT 1 corresponds to the first ACTIVE state or the state 2 State 2 corresponding to PVFL On direct acting or PVFL Off reverse acting 3 None State 3 On the Group or Detail Display it is in the upper box PtRes NIM STATETXT 0 corresponds to the INACTIVE state or the state corresponding to PVFL Off direct acting or On reverse acting On the Group or Detail Display it is the middle box for a Digital Composite or DevCtl point For a Digital Input point it is the lower box STATETXT 2 corresponds to the second ACTIVE state On the Group or Detail Display for a Digital Composite or DevCtl point it is in the lower box STATETXT 2 does not apply to Digital Input and Flag points When a two state device is configured STATETXT 2 is internally set to NULL STATETXT 3 NONE not configurable STATETXT 3 does not apply to Digital Input and Flag points Range N A Helpful Hint STATETXT has an access lock of View i
24. Eng PB NoTrack HPM 0 NoTrack SP is never set equal to PV 1 Track Man mode or initialization causes SP to track PV Helpful Hint SP is set equal to PV if PVTRACK Track and the point is in manual mode being initialized from a secondary undergoing 1 shot initialization during the first sample time after becoming active HPM Parameter Reference Dictionary P 44 8 97 PVTV PVTV Type Lock Default PtRes Range Real PV Target Value in Engineering Units Defines the target value of the PV in Configurable engineering units NaN HPM PVEXEULO to PVEXEUHI PVTVP Type Lock Default PtRes Range Real PV Target Value in Percent Indicates the target value of the PV in percent View NaN HPM gt 0 0 NaN PVTXTOPT DevCtl DigComp Type Lock Default PtRes Range Logical PV Text Option Indicates whether the BADPVTXT and MOVPVTXT PtBld parameters are configured for this point or if the default from the box data point Off should be used NIM Off The parameters are not configured for this point On The parameters are configured for this point HPM Parameter Reference Dictionary P 45 8 97 HPM Parameter Reference Dictionary P 46 8 97 Q Q Type Real Steam Quality Factor Input lIndicates the measured actual steam quality factor Lock View Default 1 0 PtRes HPM Range gt 0 0 NaN QSTS FlowComp Type E PVVALST Q Input Value Status Indicates the sta
25. Lock View listening Default ChanneLA PtRes HPM Range 0 ChanneLA NIM is listening to LCN channel A 1 ChanneLB NIM is listening to LCN channel B LDNGNODE HPM Box Type Integer UCN Node Performing Personality Image Load to This Node Lock View Default PtRes HPM Range LIBADOPT DevCtl Logic Type E LIBADOP Logic Bad Input Handling Option If a Boolean input is not successfully Lock PtBld fetched for an input connection to the logic slot its value is defaulted to one Default Hold of the values Off On Hold selected through this parameter Refer to the PtRes HPM HPM Control Functions and Algorithms manual for a detailed description Range 0 On On state is substituted for bad input 1 Off Off state is substituted for bad input 2 Hold Last good value is substituted for bad input LIBRYNUM Type Integer NIM Library Number Specifies the number of the NIM Library being Lock PtBld configured For Parameter Entry Display use only Default 1 PtRes NIM Range 1 3 HPM Parameter Reference Dictionary L 1 8 97 LIBRYTXT 1 1000 Type Lock Default PtRes Range String _8 NIM Library Text PtBld N A NIM N A LIDESC 1 12 DevCtl Type Lock Default PtRes Range String _8 Input Descriptor External input descriptors in an Array 1 12 Engr Blank HPM 8 Character String LINEPERD 1 168 Type Lock Default PtRes Range Real Line Period in
26. NIM Type Lock Default PtRes Range String_2 Modem Hardware Revision View HPM NIM Hexadecimal Characters 00 to FF HPM Parameter Reference Dictionary M 3 8 97 MEMFWREV MEMFWREV Type Lock Default PtRes Range String_2 Memory Firmware Revision View HPM Hexadecimal Characters 00 to FF MEMHWREV Type Lock Default PtRes Range String_2 Memory Hardware Revision View HPM Hexadecimal Characters 00 to FF MINPULSE Type Lock Default PtRes Range Real Minimum Pulse Time Limit Defines the minimum pulse time limit for the Supr Raise pulse If the calculated pulse time value is smaller than this value no 0 0 pulse is issued HPM 0 0 seconds to MAXPULSE NaN MINUTE HPM Box Type Lock Default PtRes Range Integer Current Minute Value of the LCN time in the HPM View N A HPM 0 to 59 MNFASIC HPM Box Type Lock Default PtRes Range Integer HPMM Communications Control Card ASIC Revision View 0 HPM 1 31 MNFCCDAY HPM Box Type Lock Default PtRes Range Integer HPMM Communications Control Card Manufacturing Date Day View 0 HPM 1 31 HPM Parameter Reference Dictionary M 4 8 97 MNFCCINF MNFCCINF HPM Box Type String 8 HPMM Communications Control Card Manufacturing Information Lock View Default 0 PtRes HPM Range MNFCCMTH HPM Box Type Integer HPMM Communications Control Card Manufacturing Dat
27. No effect 1 SelChnA Select I O Link Channel A 2 SelChnB Select I O Link Channel B 3 EnbPerSw Enable periodic swapping of IOL cables 4 DisPerSw Disable periodic swapping of IOL cables 5 RsIoLCom Reset IOL communication error count to 0 IOLHWREV HPM Box Type Lock Default PtRes Range String_2 HPMM I O Link Interface Processor Card Hardware Revision View Blank HPM IOLPERSW HPM Box Type E ENBLSTAT T O Link Periodic Cable Swap Lock View Default N A PtRes HPM Range 0 Disable Swapping of I O Link cables A amp B is disabled 1 Enable Swapping of I O Link cables A amp B is enabled IOLPSERR ProcMod Type E Pastatus TO Link Poststore Failure Option Contains the IOL Poststore PA status Lock View failure code or null Default NoError PtRes HPM Range Helpful Hint This parameter sould be used with IOLPSOPT NoError HPM Parameter Reference Dictionary 1 6 8 97 IOLPSOPT IOLPSOPT ProcMod Type Lock Default PtRes Range E IOLPSOPT T O Link Poststore Failure Option Engr Fail HPM Helpful Hint The program should check the value of IOLPSERR if this parameter is continue Fail program fails on a bad IOL store Continue program continues on a bad IOL store IOLREV HPM Box Type Lock Default PtRes Range Integer HPMM I O Link Software Revision View Blank HPM IOLVERS HPM Box Type Lock Default PtRes Range
28. PGSO1 PGS0O4 Primary Gate Output Values logical SGSO1 SGSO2 Secondary Gate Output Values logical L1 L12 Logic input value to device control slot logical HPM Parameter Reference Dictionary L 8 8 97 LOENBL 1 12 LOENBL 1 12 Logic Type E PMMLGPM Lock PtBld Default FL2 PtRes HPM Logic Output Enable Allows the respective output connection defined by LODSTN to write the value of the specified logic slot parameter to the destination The logic output is allowed when the enable function selected from the list below is On If the FL1 parameter is specified and the output data type is logical output occurs only during change normally it is continuous Range FU1 FL12 Local flag either a 1 On or a 0 Off SO1 8024 Logic block output either a 1 On or a 0 Off L1 L12 Logic input value to logic slot logical LOGALGID 1 24 Logic Type E PMMLGAL Lock PtBld Default NULL PtRes HPM Range Algorithm ID 0 NULL 1 AND 2 OR 3 NOT 4 NAND 5 NOR 6 XOR 7 QOR2 8 QOR3 9 SWITCH 10 EQ 11 NE 12 GT 13 GE 14 LT 15 LE 16 CheckBad 17 Pulse 18 MinPulse 19 MaxPulse 20 Delay 21 OnDly 22 OffDly 23 WatchDog 24 FlipFlop 25 ChDetect 26 DISCREP3 Description No logic algorithm is executed AND Gate OR Gate NOT Gate NAND Gate NOR Gate XOR Gate Qualified OR Gate with 2 Inputs On Qualified OR Gate with 3 inputs On Switch Compare equal with deadband Compare not e
29. PSDLYFL PTDESC PTEXECST PTINAL PULSEWTH PV PVAUTO PVEL PVNORMAL F PVNORMFL PVSOURCE F PVSRCOPT F PVSTATES 0 4 PVTXTOPT REDTAG F RESETFL SOBOXCLR S1BOXCLR S2BOXCLR SCHSTS SEALOPT SECVAR SGALGID 1 2 SGDSTN 1 2 SGPLSWTH 1 2 SGSO 1 2 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Inputs gt 0 Inputs gt 0 lnputs gt 0 eee lnputs gt 0 lnputs gt 0 lnputs gt 0 Outputs gt 0 8 97 2 8 Device Control DevCtl con t 2 8 Continuation of the Device Control parameters are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full SIO STATEO SIOALOPT STATE1 SIOALPR F STATE2 SIOCONF STATTIMO SIALGID 1 12 STATTIM1 SIDLYTIM 1 12 STATTIM2 SIDSTN 1 12 STATETXT0 4 SISO 1 12 STCHGOPT SLOTNUM STSMSG SO 0 2 SVALDB SOCMD SVALDBEU STO_OP1 Outputs gt 0 SVDESC STO_OP2 Outputs gt 2 SVEUDESC STO_OP3 Outputs gt 3 SVEUHI ST1_OP1 Outputs gt 0 SVEULO ST1_OP2 Outputs gt 2 SVHHFL ST1_OP3 Outputs gt 3 ST2_OP1 Outputs gt 0 ST2_OP2 Outputs gt 2 ST2_OP3 Outputs gt 3 HPM Parameter Reference Dictionary SVHHPR F SVHHTP SVHHTPP SVHIFL SVHIPR F SVHITP SVHITPP SVP SVPEAK SVSRC SVTV SVTVP TRANTIMO TRANTIM1 TRANTIM2 UNCMDFL UNIT USERID 2 5 8 97 2 9 Digital Composite DigComp 2 9 The parameters of the Digital Composite Data Point are listed below in alphabetical order F
30. PVHIFL PVHIPR F PVHITP F PVINIT PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F 3 21 Variable Dead Time with Lead Lag VdtLdLag PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F RESETFL RESETVAL SCHSTS SLOTNUM STARTFL STATE STOPFL STSMSG TF TIMEBASE UNIT USERID The parameters of the Variable Dead Time with Lead Lag PV algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP BADPVFL F BADPVPR F C Ci C2 CNFMU CNFPU CONTCUT F CUTOFFLM D D1 D2 EUDESC HIGHAL F HIGHALPR F KEYWORD LASTPV HPM Parameter Reference Dictionary MODNUM NAME NLOC NODENUM NODETYP NOPINPTS NORMCYCL NTWKNUM OVERVAL F P1 PISTS P2 P2STS PERIOD PFDLYFL PIDSTN PISRC PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PV PVALDB F PVALDBEU F PVALGID PVAUTO PVAUTOST PVCALC PVCLAMP PVEQN PVEUHI PVEULO PVEXEUHI PVEXEULO 3 16 PVEXHIFL PVEXLOFL PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVINIT PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F
31. PtRes Range Real SECVAR High High Alarm Trip Point No alarms are generated when this Supr parameter is set to NaN NaN HPM 2 SVHITP or NaN SVHHTPP DevCtl Type Lock Default PtRes Range Real SECVAR High High Trip Point Percent The SECVAR High High Trip Point Supr in terms of engineering units in percent NaN HPM 0 to 100 SVHIFL DevCtl Type Lock Default PtRes Range Logical SECVAR High Alarm Flag This flag is set when the SECVAR exceeds View SVHITP and is reset when SECVAR is below SVHIFL minus deadband Off HPM Off SECVAR parameter is below SVHIFL minus the deadband On SECVAR parameter has exceeded SVHIFL SVHIPR DevCtl Type Lock Default PtRes Range E ALPRIOR SECVAR High Alarm Priority Engr Low NIM JniPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated SVHITP DevCtl Type Lock Default PtRes Range Real SECVAR High Alarm T
32. S F EIPPCODE S L F PNTFORM PVSRCOPT S L F ALMOPT S F EUDESC PNTNODTY RESETFL A ALPRIOR EVTOPT L F PNTMODTY RESETVAL A ASSOCDSP HIGHAL S PNTSTATE SOBOXCLR S L AV A INPTDIR F PNTTYPE S1BOXCLR S L AVTV A KEYWORD PRIMMOD F SLOTNUM AVTVFL A MODNUM PTDESC STARTFL A BADPVFL F NAME PTEXECST STATE A BADPVPR NODENUM PV S L STATEO S L BOXCLR L NODETYP PVAUTO S L STATE1 S L COMMAND A NTWKNUM PVCHGDLY S L F STATETXT 0 2 S L CONTCUT S F OFFNRMFL S PVFL S L STOPFL A COUNTDWN A OFFNRMPR S F PVNORMAL S F UNIT DEBOUNCE S L OLDAV A PVNORMEL S DITYPE F OVERFLOW A PVRAW 2 11 Digital Output DigOut The parameters of the Digital Output Data point are listed below in alphabetical order S or P parameter applies only when DOTYPE Status or Pulse Width Modulated PWM This point type is available only in the component form ASSOCDSP NAME OP P PNTSTATE SLOTNUM DOTYPE NODENUM OPTDIR P PNTTYPE SO S EUDESC NODETYP PERIOD P PTDESC STATEO S INITREQ NTWKNUM PNTFORM PTEXECST STATE1 S KEYWORD OFFPULSE S PNTMODTY SOBOXCLR S STDBYMAN MODNUM ONPULSE S PNTNODTY S1BOXCLR S UNIT HPM Parameter Reference Dictionary 2 7 8 97 2 12 2 12 Reserved HPM Parameter Reference Dictionary 2 8 8 97 2 13 IOP 2 13 The parameters of the Input Output Processor Point are listed below in alphabetical order CALIBALL CALIBRJ FAILOPT FTA
33. SPTV SPTVP STDBYMAN STSMSG TVPROC UNIT USERID X2 X2FILT X2TF 3 16 8 97 3 17 Summer RegCtl 3 17 The parameters of the Reguatory Control Summer algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ARWNET ARWOP ASSOCDSP AUTMODFL B BADCTLFL BADCTLOP BADCTLPR F BCAMODFL CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLALGID CTLEQN CTRLINIT CV CVEUHI CVEULO ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT HIGHAL F HIGHALPR F INITMAN K K1 K2 K3 K4 KEYWORD LOCALMAN M MANMODFL MODATTR MODE 3 18 Summer RegPV MODEAPPL MODEPERM MODNUM NAME NMODATTR NMODE NOCINPTS NODENUM NODETYP NORMCYCL NRMATREL NRMMODFL NTWKNUM OP OPALDB F OPEU OPHAFL F OPHIFL OPHILM OPHIPR F OPHITP F OPLAFL F OPLOFL OPLOLM OPLOPR F OPLOTP F OPMCHLM OPRATRFL OPROCLM OPTOL OVERVAL F PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATRFL PSDLYFL PRIMMOD F PTDESC PTEXECST PTINAL PTORST RARWSTS RATE1 RCASOPT REDTAG F RINITREQ RINITVAL SAFEOP SCHSTS SHEDMODE SHEDTIME SHUTDOWN SLOTNUM STDBYMAN STSMSG UNIT USERID X1 X2 X3 X4 XEUHI XEULO The parameters of the Summer Reguatory PV algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST
34. Type Lock Default PtRes Range Logical Primary Input Gate Output Value Indicates the output value of the primary in an Array input gate 1 12 View Off HPM Off On PISRC 1 12 DevCtl Type Lock Default PtRes Range E GATESRC_ Primary Input Source The source for the second input of primary input gates in an Array for arithmetic comparison algorithms that use a second external input i e XX2 1 12 algorithms PtBld Null HPM NULL No source for input L1 L12 These values correspond with the LISRC 1 12 parameter PISRC 1 PISRC 6 Type Lock Default PtRes Range Ent Prm PV Input Connection Source Define the parameters whose current values are to PtBld be fetched and then written to the up to six RegPV algorithm inputs The null null source parameter name can be specified using the Tagname Parameter format HPM Refer to the HPM Control Functions and Algorithms manual for a detailed description Use Tagname Parameter for tagged points where Tag name can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight ch
35. Type Lock Default PtRes Range E ALPRIOR Custom Alarm Priorities Defines the alarm priorities for each of the four Engr custom alarms NoAction NIM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated C1 C4SRC Logic Type Lock Default PtRes Range E LGALSRC Custom Alarm Source Indicates the alarm source for each of the four custom PtBld alarms None HPM NONE No source configured for alarms L1 L12 Alarm source is the configured input connection they can be either On or Off SO1 S024 Alarm source is the status output SOn from another logic block FL1 FL12 Alarm source is a local flag they can be either On or Off HPM Parameter Reference Dictionary C 2 8 97 CABLESTS CABLESTS NIM Type Lock Default PtRes Range Integer Overall Cable Status for a UCN Node View N A NIM 0 Both cables are OK 1 Cable A has failed 2 Cable B has failed
36. indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ALPRIOR ASSOCDSP BADCTLPR BADPVEL F BADPVPR F BADPVTXT BOXCLR BYPASS CMDDISFL CMDDISPR CMDFALFL CMDFALTM CNFERRFL CNFMU CNFPU CONTCUT F D1 D10 D11 D2 D2D1_00 D2D1_01 D2D1_10 D2D1_11 DISRC 1 2 DODSTN 1 3 EIPPCODE F EUDESC EVTOPT F FBTIME F HIGHAL F HIGHALPR lo IOCONF lODESC 11 11CONF I1DESC 12 I2CONF I2DESC INITMAN INITREQ KEYWORD LOCALMAN LOGICSRC MAINDAT MAINTOPT MAXTIMOH MAXTIM1H MAXTIM2H MAXTRANO MAXTRAN1 MAXTRAN2 lnputs gt 0 lnputs gt 0 lnputs gt 0 lnputs 1 lnputs 1 lnputs 2 lnputs 2 lnputs 2 lnputs 2 lnputs 2 lnputs gt 0 Outputs gt 0 lnputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 MODATTR MODE MODEAPPL MODEPERM MODNUM MOMSTATE MOVPVFL MOVPVTXT NAME NIO Nit NI2 NMODATTR NMODE NODENUM NODETYP NODINPTS NODOPTS NONECONF NONE_OP1 3 NORMCYCL NOSIOVRD NOSTATES NOTRANS1 NOTRANSO NOTRANS2 NRMATRFL NSIO NTWKNUM OFFNRMFL OFFNRMPR F OP OPCMD OPFINAL OPRATRFL OVRDALOP OPSTTEXT OVRDALPR F OROPT OVRDCONF OVRDDESC OVRDIOFL OVRDI1FL OVRDI2FL OVRDSIFL PO P1 P2 PAUSETIM PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE HPM Parameter Reference Dictionary Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0
37. 0 129 255 OPTOL RegCtl AO Type Real in Output Tolerance Parameter Definition Tolerance limit for a manually entered Percent OP The difference between a new OP and a current OP is compared against Lock Engineer OPTOL If the tolerance is violated in either a positive or negative direction Default 0 0 from the current value of the OP operator confirmation is required before the PtRes HPM value is stored A value of 0 0 disables this check An NaN or a negative value is not allowed Range 0 0 to 106 9 SPTOL RegCtl Type Real in Setpoint Tolerance Parameter Definition Tolerance limit for a manually entered Engineering SP The difference between a new SP and a current SP is compared against Units SPTOL If the tolerance is violated in either a positive or negative direction Lock Engineer from the current value of the SP operator confirmation is required before the Default 0 0 value is stored A value of 0 0 disables this check An NaN or a negative value PtRes HPM is not allowed Range gt 0 0 HPM Parameter Reference Dictionary 3 8 97 UCNLSB 1 50 Type Real Local UCN Communications Statistics Lock View Default PtRes HPM Range UCNLSB 45 NIM Type Real Local Statistics Block The number of auto reconnects Lock View Default 0 PtRes HPM NIM Range lt 0 HPM Parameter Reference Dictionary 4 UCNLSB 8 97 AB_DATA1 A AB_DATA1 SI Array Type Real Auxi
38. 0 0 Ramp Time in Minutes RAMPTIME change by an operator requires SPOPT Tv The minimum value is clamped to TS the point sample time in minutes while the maximum value is clamped to 32767 TS To change the RAMPTIME from a logic point requires Node Auto and Mode Attribute Prog R 1 8 97 RARWSTS RARWSTS RegCtl Type E WINDUP Remote Anti Reset Windup Status Lock View Default Normal PtRes HPM Range 0 Normal Free to move in either direction 1 Hi Free to move lower 2 Lo Free to move higher 3 HiLo Not free to move in any direction RATE1 AutoMan MulDiv RegCtl Summer Type Real Rate at Which Bias Ramps Down Rate at which the bias B ramps down from Lock Supr the initialization value to the last value entered by the operator If a positive Default 0 0 value is entered Rate determines the ramp down rate of the internal bias value PtRes HPM BI If 0 is entered the ramp down of B is disabled If NaN is entered the internal bias does not decay but instantaneously changes to 0 and will cause a bump in the output Range gt 0 0 EU s per minute NaN RATE1 RatioCtl Type Real Internal Bias Ramps Down Rate Rate in EUs per minute at which the internal Lock Supr bias BI ramps down from the initialization value to the last value entered by Default NaN the operator If BIAS NaN initialization for the primary is determined PtRes HPM through back calculation If 0 is entered the ramp
39. 100 to 1820 X 600 to 1650 100 to 1820 5 Stherm 0 to 1700 N A X 550 to 1500 0 to 1700 X 550 to 1500 0 to 1700 6 Rtherm 0 to 1700 N A X 550 to 1500 0 to 1700 X 550 to 1500 0 to 1700 7 RPtherm 0 to 1700 N A X 550 to 1500 0 to 1700 X 550 to 1500 0 to 1700 8 DinRid 180 to 800 N A X 200 to 850 N A X 200 to 850 N A 9 JisRtd 180 to 650 N A X 200 to 650 N A X 200 to 650 N A 10 NickIRtd 45 to 315 N A X 45 to 315 N A X 45 to 315 N A 11 CopprRtd 20 to 250 N A X 20 to 250 N A X 20 to 250 N A 12 Linear N A N A N A N A N A N A 13 Sqrroot N A N A N A N A N A Not Applicable NOTE 1 PNTMODTY LLMUxX includes RHMUxX for all thermocouple types except RTD RTD type is not supported by RHMUX IOP HPM Parameter Reference Dictionary P 29 8 97 PVCHAR STI PV Characterization Pressure and Magnetic Flow Transmitters X X X X Linear Sqrroot X Allowable Sensor Type STI PV Characterization Temperature Transmitters Normal Range Maximum Range PVEULO to PVEUHI PVEXEULO to PVEXEUHI in Degrees C except in Degrees C except where noted where noted 50 to 220 mV 1000 to 1000 mV Thermocouples Btherm Etherm Jtherm Ktherm NiNiMoTC Ntherm Rtherm Stherm Ttherm W3W25TC W5W26TC RTDs Cu10RTD Cu25RTD Pt100 DinRtd Pt100 JisRtd Pt200 RTD Pt500 RTD RH Rad RTD Ohms 0 to 4KQ 0 to 4KQ HPM Parameter Reference Dictionary P 30 400 to 1820 100 to 1000 180 to 1200 1
40. 7 8 97 OPIN1 4 OPIN1 4 Type Lock Default PtRes Range Real Input Coordinate Number 1 2 3 or 4 in Percent Define the OPINI OPIN4 Supr coordinates when output characterization has been selected OPCHAR is On N A HPM 2 previous coordinate lt next coordinate OPIN5 Type Lock Default PtRes Range Real Input Coordinate Number 5 in Percent Defines the OPIN5 coordinate when View output characterization has been selected OPCHAR is On This coordinate is 106 9 fixed at 106 9 HPM N A OPLAFL RegCtl Type Lock Default PtRes Range Logical Output Low Alarm Flag lIndicates if a Regulatory Control Output Low alarm View has been detected at this data point This flag is set when the output value OP Off is less than OPLOTP and is reset when OP is above OPLOTP plus the HPM deadband Available on Release 510 and later software Off OP Low alarm is off On OP Low alarm is on The drawing below illustrates the relationship of the output high low alarm flags the low alarm trip point OPLOTP and the deadband OPALDB OPLOTP OPALDB OP OPHITP_ OPHAFL is turned off si wg below this point OPLAFL is turned off if OP is above this point A OPHITP OPALDB OPLOTP_ HPM Parameter Reference Dictionary 0 8 8 97 OPLOFL OPLOFL Type Lock Default PtRes Range Logical Output Low Limit Flag Indicates whether the output value OP has reached the Prog low
41. 90 0 Old Accumulated Value The value of parameter PVCALC calculated PV just before it is reset This parameter makes the previous total available to those functions that need it ONPULSE DigOut Type Real Lock Oper Default N A PtRes HPM On Pulse Command Command that sets output SO to On for the specified number of seconds At the end of the pulse time SO is set to Off If 0 0 is entered for ONPULSE SO is immediately set to Off Range 0 0 to 60 0 seconds Helpful Hint ONPULSE can be written to by only those entities that possess the HPMM Cont_Ctl continuous control access level These are Digital Composite points Logic points and Regulatory Control Position Proportional points OP AnalgOut Type Real Lock Output in Percent Defines the output value from this point in percent Oper Default 6 9 of full scale PtRes HPM Range 6 9 to 106 9 Helpful Hint To manually change the output value requires MODE Man and REDTAG Off HPM Parameter Reference Dictionary O 2 8 97 OP OP DevCtl DigComp Type E SD ENM STATETXT Digital State Output Indicates the last commanded output Lock Oper state See also OPFINAL For Status Outputs use SO Default STATETXT 0 PtRes HPM Range STATETXT 0 Descriptor STATETXT 1 Descriptor STATETXT 2 Descriptor internally set to NULL for two state devices STATETXT 3 None Not configurable Helpful Hint OP indicates text for the last c
42. A INO 12 GenLin Type Real Input Coordinates 0 12 Define the input value at the respective coordinate Lock Supr INO lt IN1 lt IN2 lt IN12 Default NaN PtRes HPM Range gt prev coord lt next coord INITMAN Type Logical Initialization Manual Flag When On indicates that this point is in Lock View Initialization Manual The mode of the point does not change however INIT Default Off appears on the point s detail or group display to indicate that the point is in PtRes HPM Initialization Manual While the point is in Initialization Manual an operator supervisor or engineer cannot change the point s output The output is indisposable because initialization is being requested from downstream Upon leaving Initialization Manual the point s output is initialized from the point s secondary as determined by the point s output connection Range Off Mode Initialization Manual On Mode Initialization Manual Helpful Hint OP changes with Operator Supervisor or Engineer access level requires MODE Man and INITMAN Off SP changes with Operator Supervisor or Engineer access level for non PID algorithms requires MODE Auto and INITMAN Off while for PID algorithms requires that MODE Auto and also that INITMAN Off and PTEXECST Active if PVTRACK Track INITMAN DigComp DevCtl RegCtl Type Logical Initialization Manual Flag On indicates that an output is storing
43. Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated OFFPULSE DigOut Type Lock Default PtRes Range Real Off Pulse Command Command that sets output SO to Off for the specified Oper number of seconds At the end of the pulse time SO is set to On If 0 0 is N A entered for OFFPULSE SO is immediately set to On HPM 0 0 to 60 0 seconds Helpful Hint OFFPULSE can be written to by only those entities that possess the HPMM Cont_Ctl continuous control access level These are Digital Composite points Logic points and Regulatory Control Position Proportional points HPM Parameter Reference Dictionary O 1 8 97 OLDAV OLDAV DigIn Type Integer Lock View Default N A PtRes HPM Range gt 0 Old Accumulated Value The value of parameter AV accumulated value just before the accumulator was reset This parameter makes the previous accumulated value available for those functions that need it OLDAV Totalizr Type Real Lock View Default N A PtRes HPM Range gt
44. Cascade Mode When On means that this point s Lock Prog operating mode has been switched from some mode other than cascade to cascade Default Off mode by an external source PtRes HPM Range Off On ESWENBST RegCtl Type E ENBLSTAT External Mode Switching Enable State Defines whether external mode Lock Oper switching is permitted for this point Default Disable PtRes HPM Range 0 Disable Does not allow external switching of point s mode 1 Enable Allows external switching of point s mode Helpful Hint ESWENBST cannot be changed if parameter SHUTDOWN is On or if parameter REDTAG is On ESWMAN RegCtl Type Logical External Switching Flag for Manual Mode When On means that this point s Lock Prog operating mode has been switched from some mode other than the manual mode Default Off to the manual mode by an external source PtRes HPM Range Off On HPM Parameter Reference Dictionary E 3 8 97 EUDESC EUDESC Type Lock Default PtRes Range String_8 Engineering Units Descriptor An eight character descriptor that defines the PtBld name of the engineering units EU that are displayed on the Group and Detail Blank Displays for this point as shown in Figure N 1 see NAME In this figure NIM LBS SEC is the engineering unit descriptor Permissible character set consists of all characters on the Engineer s Keyboard Basically this set consists of alphabetics A Z numerics 0 9 and the following sp
45. Defines the algorithm IDs for secondary gates in an Array 1 2 PtBld None HPM NULL No algorithm AND And Gate algorithm OR Or Gate algorithm NAND Nand Gate algorithm NOR Nor Gate algorithm XOR Exclusive Or Gate algorithm PAND Pulse Nand Gate algorithm POR Pulse or Gate algorithm PNAND Pulse Nand Gate algorithm PNOR Pulse Nor Gate algorithm PXOR Pulse Exclusive or Gate algorithm HPM Parameter Reference Dictionary S 10 8 97 SGDSTN SGDSTN 1 2 DevCtl Type Lock Default PtRes Range E GATDSTN Secondary Gate Destination Defines the output destination for the secondary in an Array gates 1 2 PtBld None HPM None No destination SIO Output goes to Safety Interlock 10 11 I2 Output goes to Interlocks P0 P1 P2 Output goes to Permissives SOCMD0 SOCMD1 SOCMD2 Output is commanded to go to SOCMD0 1 or 2 OPCMD Output is commanded to go to OPCMD parameter SGPLSWTH 1 2 DevCtl Type Lock Default PtRes Range Integer Pulse Width for Secondary Gate Indicates the pulse width for gates whose in an Array algorithms begin with P 1 2 Supr 0 HPM 0 to 8000 SGSO 1 2 DevCtl Type Lock Default PtRes Range Logical Status Output for Secondary Gates in an Array 1 2 View Off HPM Off On HPM Parameter Reference Dictionary S 11 8 97 SHEDMODE SHEDMODE RegCtl Type E MODE Shedmode Defines
46. ENGINEER Engineer and higher keylock positions allow store access 3 PROGRAM Only the program has store access HPM Parameter Reference Dictionary C 10 8 97 CODSTN CODSTN 1 CODSTN 4 RegCtl Type Universal Control Output Connection Destination Defines up to four different Ent Prm Tagname Parameter or hardware reference address destinations to which the Lock PtBld output value from RegCtl point is to be written Refer to the HPM Control Default null null Functions and Algorithms manual for a detailed description PtRes HPM Range Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as AO analog output mm is the IOP Card number 1 40 ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name COMCFAVG HPM Box Type Real Average HPM Communication CPU Fr
47. F ALENBST F ARWNET ARWOP ASPPROC F ASSOCDSP AUTMODFL B1 B2 BADCTLFL BADCTLPR F BADPVFL F BADPVPR F BCAMODFL CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLALGID CTRLINIT CV CVEUHI CVEULO DEV HPM Parameter Reference Dictionary DEVHIFL DEVHIPR DEVHITP F DEVLOFL DEVLOPR F DEVLOTP F ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT HIGHAL F HIGHALPR F INITMAN K1 K2 KEYWORD LASTPV LOCALMAN MANMODFL MODATTR MODE MODEAPPL MODEPERM MODNUM NAME NMODATTR NMODE NOCINPTS NOCOPTS NODENUM NODETYP NORMCYCL NRMATRFL NRMMODFL NTWKNUM OP OPALDB F OPEU OPHAFL F OPHIFL OPHILM OPHIPR F OPHITP F OPLAFL F OPLOFL OPLOLM OPLOPR F OPLOTP F OPMCHLM OPRATRFL OPROCLM OPTOL OVERVAL F PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL 3 13 PTORST PRGATRFL PV PVALDB F PVALDBEU F PVAUTO PVAUTOST PVEUHI PVEULO PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS RAMPTIME RARWSTS RATE1 RCASOPT RCASSHED REDTAG F RINITREQ RINITVAL SAFEOP SCHSTS SHEDMODE SHEDTIME SHUTDOWN SLOTNUM SP SPEUHI SPEULO SPFORMAT SPHIFL SPHILM SPLOFL SPLOLM SPOPT SPP SPTOL
48. G 2 8 97 GOSRC GOSRC 1 4 RegCtl RegPV Type Parameter Source of General Output Connection Specifies the Lock RegPV RegCtl parameter source of the General Output Connection Default PtRes HPM Range GODSTN 1 4 RegCtl RegPV Type Parameter Destination General Output Connection Specifies the Lock Tag parameter destination of the General Output Connection Default PtRes HPM Range GOENBL 1 4 RegCtl RegPV Type General Output Connection Enable Flag Lock Default PtRes HPM Range GSTS Type E PVVALST Gravity Input Value Status Indicates the status of the gravity input value Lock View Default Normal PtRes HPM Range 0 Bad Value is bad and replaced with NaN 1 Uncertn Status of the value is uncertain 2 Normal Value is good HPM Parameter Reference Dictionary G 3 8 97 HPM Parameter Reference Dictionary G 4 8 97 HIGHAL H HIGHAL Analgin RegCtl RegPV Type Lock Default PtRes Range E ALMTYPE Highest Alarm Detected lIndicates the highest alarm currently detected at the View data point This parameter is used by the system to ensure that when two or NoAlarm more different types of alarms occur on a point at the same time the most NIM important or highest level alarm appears on the point s Group Detail and Alarm Summary displays For example if both the PV High High and PV High alarm priorities are set to Emergency and both are in alarm HIGHAL contain
49. G9 G9 G9 G9 G9 69 CO CO 69 69 Go D N AS Sos OOONDAARWN O Y PARAMETER DEFINITIONS HPM Parameter Reference Dictionary i 5 97 INTRODUCTION Section 1 1 1 PURPOSE This publication defines the user visible parameters that exist in the TotalPlant Solution TPS System High Performance Process Manager HPM and Network Interface Module NIM It also provides listings of parameters that are applicable to various HPM point types and algorithms For information on how the parameters are related to each other in terms of point types and algorithms refer to the High Performance Process Manager Control Functions and Algorithms manual in the Implementation High Performance Process Manager 1 binder 1 2 USE OF THIS PUBLICATION Use this publication during configuration and during operation when detailed information about HPM and NIM parameters is required For use in data point configuration this publication provides definitions for each entry that can be made on the High Performance Process Manager Point Configuration Forms HPS amp 8 500 in the Implementation High Performance Process Manager 1 binder and in the Parameter Entry Displays at the Universal Station For use in process operation this publication provides information about the parameters that appear for the process data points and HPM Box Data Point on the displays of Universal Stations that are running with the Operator personality 1 3 PARAMETER DEFINITION F
50. Inputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Ps e wa Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 2 6 PRIMMOD F PRGATRFL PSDLYFL PTDESC PTEXECST PTINAL PULSEWDTH PV PVAUTO PVFL 0 2 PVNORMAL F PVSOURCE F PVSRCOPT F PVSTATES 0 4 PVTXTOPT REDTAG F RESETFL SOBOXCLR S1BOXCLR S2BOXCLR SCHSTS SEALOPT SIO SIOALOPT SIOALPR F SIOCONF SLOTNUM SO SOCMD STO_OP1 STO_OP2 STO_OP3 Outputs gt 2 ST1_OP1 Outputs gt 3 ST2_OP1 Outputs gt 0 Outputs gt 0 lnputs gt 0 lnputs gt 0 lnputs gt 0 aS ooo lnputs gt 0 lnputs gt 0 lnputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 ST1_OP2 Outputs gt 0 ST2_OP2 Outputs gt 2 ST1_OP3 Outputs gt 2 ST2_OP3 Outputs gt 3 STATEO Outputs gt 3 STATE1 STATE2 STATETXT 0 4 STATTIMO STATTIM1 STATTIM2 STCHGOPT STSMSG TRANTIM1 TRANTIM2 UNCMDFL UNIT USERID Sere Ee aH 8 97 2 10 2 10 Digital Input DigIn The parameters of the Digital Input Data point are listed below in alphabetical order L S or A parameter applies only when DITYPE Latched Status or Accum F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F DLYTIME S F OVERVAL A F PVSOURCE L F ALENBST
51. Instead CASREQ is set to Request and a C appears to the right of the mode indicator on the Group and Detail displays When continuous control in an AM determines that CASREQ contains Request it requests the mode to go to Cas and changes CASREQ to NotReq Should the point shed while it is in the remote cascade mode MODE goes to the state defined in SHEDMODE and CASREQ goes back to Request Range 0 NotReq Remote cascade mode request not made 1 Request Remote cascade mode request made operator or program has requested the cascade mode CASREQ does not apply for an AnalgOut point if RCASOPT None CASREQ does not apply for a RegCtl point unless RCASOPT Spc Ddc or DdcRsp If Spc has been entered for the RCASOPT parameter the AM writes to the setpoint Ddc is the only remote cascade option for an analog CHPINHWY UCN Type E CHPINDAC Automatic Checkpoint Inhibit Lock Supr Default Enable PtRes NIM Range 0 Enable Enable automatic checkpointing of data bases on this UCN 1 Inhibit Inhibit automatic checkpointing CHPINOPR HPM Box Type E CHPINDAC Automatic Checkpoint Inhibit Operation Defines whether automatic Lock Supr database saves are to be performed for the devices connected to this NIM Default Enable PtRes NIM Range Enable Automatic database saves are enabled Inhibit Automatic database saves are inhibited HPM Parameter Reference Dictionary C 4 8 97 CIDSTN CIDSTN 1 CIDSTN 4 Re
52. Lock Default PtRes HPM Range Set_PVCALC_Bad Use_Last_Goood_Comp_Term Use_LastGood_Comp_Input BFF PidFf Type Real Feed Forward Input Bias Defines the bias value for multiplicative action Lock Supr Default 0 0 PtRes HPM Range N A BHALMFL1 BHALMFL7 Type String 2 Alarm Flags Lock View Default PtRes NM Range Hexadecimal characters 00 FF BIAS Pid Type Real Bias Defines the value which is added to the SP Lock Oper Default 0 0 PtRes HPM Range BSLOLM to BSHILM BLK_INFO Type Blind Record Function Block Summary Information Provides Function Block summary Lock View information needed by the NIM for checkpointing Default N A PtRes IOP Range BNDRESET NIM HPM Box Type Logical Bounds Minimum Maximum Statistics Reset Flag A write of ON resets Lock Operator the following maximum minimum statistics to their default values HPM Default Off CPU free percentage events UCN transaction UCN parameter statistics and PtRes HPM UCN average statistics Range Off On Helpful Hint A read of BNDRESET always returns OFF HPM Parameter Reference Dictionary B 7 8 97 BNDRSTIM BNDRSTIM NIM HPM Box Type Lock Default PtRes Range Time Time of Last Bounds Minimum Maximum Statistics Reset View Time of HPM Startup HPM N A BOXCLR 0 2 DevCtl DigComp Type Lock Default PtRes Range E BOXCOLOR Box Color for Digital Displays
53. Lock Default PtRes Range E IOMHF Current HPMM IOL Interface Failure View HPM Unknown Unknown Error Powerdwn Power Is Off Invprgex Invalid Program Execution Epromerr EPROM Error Ramcnter Ram Contents Error Ramadrer Ram Address Error Dpaerror Device Physical Address Error Dsaerror Device Soft Address Error Rxbufofl Receive Buffer Overflow Error Toljaber IOL Jabber Error Module saw or talked too much on link Badpgjmp Bad Program Jump Adcincmp A D Incompatible Adoutovf A D Overflow Adoutudf A D Underflow Adccaler A D Calibration Error Baddcltc Bad DC LTC Dmt_tmot Deadman Time Out Mitoutfl Multiple Output Failure Datbusfl Data Bus Failure Baddarng Bad A D Range Mstrtmot Master Timeout Ctrcktfl Counter Circuit Failure CURPINAM n Type Lock Default PtRes Range String_8 Current PI Filename Defines the personality Image filename that currently View resides in this IOP where n is the IOP number 1 40 N A IOP N A HPM Parameter Reference Dictionary C 27 8 97 CURSEGID CURSEGID RampSoak Type Lock Default PtRes Range E CURSEGID Current Segment ID Defines the current ramp or soak segment Oper Ramp1 HPM 0 Ramp1 1 Soak1 2 Ramp2 3 Soak2 and 20 Ramp11 21 Soak11 22 Ramp12 23 Soak12 CUTOFFLM Totalizr Type Lock Default PtRes Range Real Zero Flow Cutoff Limit Allows the user to specify a cutoff limit such that
54. Logic slot Tagname Fl nn where nn 1 12 e ProcMod slot Tagname Fl nnn where nnn 1 127 f Box Flag slot Tagname PVFL g Box FL nnnn for a box flag that resides in the same box nnnn 1 16 384 h NMhhBxx FL nnnn for a box flag that resides in a different HPM box on the same UCN hh is the NIM UCN address xx is the HPM box number and nnnn 1 4095 Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as DI Digital Input mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name E DITYPE Digital Input Type Defines the type of digital input point PtBld Status HPM 0 Status Point is to be used for alarming and event reporting 1 Latched Point is to be used for event reporting 2 Accum Point is to be used for accumulating pulses HPM Parameter Reference Dictionary D 10 8 97 DLYTIME DLYTIME DigIn Type Integer Delay Time For an off normal alarm defines the time in seconds that a point Lock Supr with a previously detected alarm condition is guaranteed to remain in alarm even Default 5 seconds if the condition clears If an alarm condition exists when the delay timer expires PtRes HPM the point is held in alarm For a change of state COS alarm if the PV is in the same state w
55. Maximum number of Lock View UCN transaction responses per second issued from this node to node n Default 0 PtRes HPM Range N A NOTE The node address n is an odd number 1 3 5 63 Using an even number results in a Parameter_Invalid error Using n 0 returns maximum total number of transaction responses to all other nodes NTWKNUM Type Integer Network Number Defines on which UCN the NIM and HPMs reside Lock PtBld Default N A PtRes NIM Range 1 to 20 NXTPINAM Type String 8 Next Personality Image File Defines the personality Image file that will be Lock Eng loaded on the next personallity load request for this IOP Default N A PtRes IOP Range 2 NXTSOAKV RampSoak Type Real Next Soak Value Lock View Default N A PtRes HPM Range gt 90 0 HPM Parameter Reference Dictionary N 27 8 97 HPM Parameter Reference Dictionary N 28 8 97 OFFNRMFL O OFFNRMFL Type Lock Default PtRes Range Logical Off Normal Alarm Flag Indicates whether an off normal alarm has been View detected at this data point Off HPM Off No alarm On Current PV state is not the same as the configured PYNORMAL state OFFNRMPR Type Lock Default PtRes Range E ALPRIOR Offnormal Alarm Priority lIndicates priority of the off normal or change of state ENGR alarms Low NIM Emergncy Alarm is historized annunciated and reported to all alarm summary displays High
56. Microseconds View N A HPM 15616 0 to 21759 0 HPM Parameter Reference Dictionary L 2 LIBRYTXT 8 97 LISRC 1 12 LISRC 1 12 DevCtl Logic Type Lock Default PtRes Range Universal Logic Input Connection Source Define the parameters whose current values are Ent Prm to be supplied to one or more of up to 12 logic slot or Device Control inputs PtBld The parameters can be specified using the Tagname Parameter format or the null null hardware reference address format Refer to the HPM Control Functions and HPM Algorithms manual for a detailed description Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible input connection sources are a AnalgIn slot Tagname PV b DigIn slot Tagname PVFL c Logic slot Tagname SO nn where nn 1 24 d Logic slot Tagname Fl nn where nn 1 12 e Logic slot Tagname NN nn where nn 1 8 f ProcMod slot Tagname Fl nnn where nnn 1 127 g ProcMod slot Tagname NN nn wh
57. PVSGCHTP 10 gt 0 0 When the temperature rises to 800 degrees the PVHITP alarm is annunciated NaN and should the temperature continue to increase the alarm is annunciated again when the temperature reaches 810 degrees 820 degrees and so on This allows the alarm to be reannunciated to remind the operator of the existence of an alarm condition HPM Parameter Reference Dictionary P 42 8 97 PVSOURCE PVSOURCE RegCtl RegPV Type E PVSOURCE PV Source Defines the source of the PV input to this data point The PV Lock Oper goes to bad when PVSOURCE is switched from Man to Sub Default Auto PtRes HPM Range 0 Sub Value is provided by a sequence program 1 Man PV is supplied by operator or program 2 Auto Field wiring or memory fetch supplies PV 3 Track PV tracks OP DigComp points only Helpful Hint PNVSOURCE change by an operator requires PVSRCOPT All and DITYPE Latched if PNTTYPE DigI PVSRCOPT RegCtl RegPV Type E PVSRCOPT PV Source Option Defines the PV source options available in this data Lock Eng PB point Default OnlyAuto PtRes HPM Range 0 OnlyAuto PV source selection is not available and field wiring or memory fetch supplies PV 1 All PV is provided by an operator by a sequence program or by field wiring Helpful Hint PNVSRCOPT change by an operator requires DITYPE Latched if PNTTYPE DigI PVSTATES 0 4 DevCtl DigComp Type String 8 PV State Descriptors
58. Parameter Reference Dictionary P 12 8 97 PMMCTLST PMMCTLST HPM Box Type Lock Default PtRes Range Logical HPMM Control Processor Status View Off HPM Off Control processor has not failed On Control processor has failed PMMIOLST HPM Box Type Lock Default PtRes Range E IOMSTS View HPM Notconfg IOP not configured Confgmis Configuration mismatch detected OK Module is running with no soft fail errors Idle Module is idle with no soft fail errors Softfail Module is running with soft fail error s present Idlesf Module is idle with soft failure error s present Nonexist Module does not exist at this address Noresp No response from module Poweron Module state is Power On Commerr Communication error to IOP Unavail Module is unavailable for communication PMMOPER HPM Box Type Lock Default PtRes Range E OPERATE Process Manager Module Operation Indicates the type of HPMM View N A HPM 0 NonRedun This HPMM has no redundant HPMM to back it up 1 Primary This HPMM is the primary point processor 2 Secondry This HPMM is the secondary HPMM that backs up the primary HPMM PMMRECCH HPM Box Type Lock Default PtRes Range E RECCHN HPMM I O Link Current Receive Channel View N A HPM 0 ChannelA Channel A is channel currently receiving 1 ChannelB Channel B is channel currently receiving PMMRECHN Type Lock Default PtRes Ra
59. Refer to the HPM Control Functions and Algorithms manual for a detailed PtRes HPM description Range C1 gt 0 1 C2 gt 0 1 C1 C2 Pl Type Real Scaling Constants Values in C1 and C2 are used in the calculation of Lock Supr PVCALC Refer to the HPM Control Functions and Algorithms manual for a Default 1 0 detailed description PtRes HPM Range C1 gt 0 C2 gt 0 C1 C2 VdtLdLg Type Real Scaling Constant For Input P1 P2 Values in C1 and C2 are used in the Lock Supr calculation of TD fixed time delay and TDNEW calculated new delay time Default 1 0 PtRes HPM Range gt 90 0 C1 C4 Calcultr Type Real Intermediate Results of Calculations Lock Supr Default N A PtRes HPM Range N A HPM Parameter Reference Dictionary C 1 8 97 C1 C6 C1 C6 Summer Type Lock Default PtRes Range Real Scaling Constants 1 6 Defines the scaling constants to be used with the Supr respective inputs P1 P6 1 0 HPM N A C1 C4DESC Logic Type Lock Default PtRes Range String_8 Custom Alarm Descriptors Defines the state for each of the four custom Engr alarms Blank HPM 8 Character String C1 C4FL Logic Type Lock Default PtRes Range Logical Custom Alarm Flags Defines the state for each of the four custom alarms Program These flags can be written to if C1 C4SRC None Off HPM Off A custom alarm is not active On A custom alarm is active C1 C4PR Logic
60. STI Type Lock Default PtRes Range Real Lower Range Limit Indicates the lower range limit of the PV at the smart View transmitter This limit is fixed and cannot be changed Refer to the description NaN of the STI_EU parameter for the LRL engineering units HPM N A NAN HPM Parameter Reference Dictionary L 11 8 97 LRV LRV STI Type Lock Default PtRes Range Real Lower Range Value Defines the lower end of the operating range for the Supr View PVRAW value User entry for PVEULO is the user entered engineering unit NaN value that corresponds to LRV Refer to description of the STI_EU parameter HPM for the LRV engineering units This parameter can be changed only when the STI point execution state PTEXECST is Inactive N A NaN LSEQNUMR Type Lock Default PtRes Range Integer Last Sequence Number Specifies the sequence number of the last personality Eng image file packet received by the IOP 0 IOP LSIOLORN 0 4 HPM Box Type Lock Default PtRes Range Integer Last Hour s I O Link Fetch Store Overruns Indicates the number of View VO Link access overruns that have been detected in the last hour 0 HPM LSIOLORN is set equal to the contents of CRIOLORN every hour on the hour gt 0 LSPPXORN 0 8 HPM Box Type Lock Default PtRes Range Integer Last Hour s Point Processing Overruns Per Cycle Indicates the number of View point processing over
61. SUMSLTSZ CTFLTIME IOLPERSW LSPPXORN NARRSLOT NTIME SWTCHACT CTIDTXT IOLREV LSUCNORN NCTLSLOT NTIMER TIERTYPE CTLHOUR IOLVERS MAXCNFPU NDCSLOT NTRAAVG TIME CTLMIN IOMCARD MDMHWREV NDEVSLOT NTRAMAX TMCMD CTLOPT IOMCHAER MINUTE NFASTCTL PKGOPT TMPV CTLPATCH IOMCHASL MNFASIC NFASTDC PMMCHAER TMRV CYCLETIM IOMCHBER MNFCCDAY NFASTDEV PMMCHASL TMSO DATE IOMCHBSL MNFDAY NFASTLOG PMMCHBER TMSP DAY IOMCMD MNFCCINF NFASTPV PMMCHBSL TMST DB_VALID IOMCOMER MNFCCMTH NFLAG PMMCMD TMTB DIAGCMD IOMFILE MNFCCSER NLOGSLOT PMMCOMER TRATAVG EUNDESC IOMOPER MNFCCYR NN PMMCTLST TRATMAX FL IOMREALT MNFFPGA NNUMERIC PMMOPER UTSDRIFT FRQUTAVG IOMRECHN MNFIODAY NODEASSN PMMRECCH UTSNODE FRQUTMAX IOMSEVER MNFIOINF NODECMD PMMSEVER UTSTBCRV FRSPTAVG IOMSTS MNFIOMTH NODECONF PMMSFSTS UTSTIME FRSPTMAX IOMTYPE MNFIOSER NODENUM PMMSTS UTSTIMST IONTOKEN MNFIOYR NODESTS PNTNODTY WEEKDAY NODETYP POSITION YEAR Some of the parameters in the above listing are arrays and are not defined in this publication HPM Parameter Reference Dictionary 2 2 8 97 2 5 Box Flag 2 5 The parameters of the Box Flag Data Point are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full an indicates that the parameter is applicable to flag slots 1 128 AUXUNIT F ALENBST F ALPRIOR ASSOCDSP BOXCLR CNFMU CNFPU CONTCUT F EIPPCODE F EUDESC HIGHAL F KEYWORD NAME NODENUM 2 6 Box Numeric NOD
62. TMPV TMSP elapsed time has reached the preset time HPM Parameter Reference Dictionary T 4 8 97 TMSP TMSP 1 64 Timer Type Integer Timer Setpoint Defines the preset time of the Timer data point in seconds or Lock Oper minutes Default PtRes HPM Range 0 to 32000 TMST 1 64 Timer Type E STATE Timer State Indicates the current state of the Timer data point Lock View Default Stopped PtRes HPM Range 0 Stopped Timer is currently stopped 1 Running Timer is currently running TMTB 1 64 Timer Type E TIMEBASE Timer Time Base Defines the time base of the timer Lock Engr Default Seconds PtRes HPM Range 0 Seconds 1 Minutes TOTLUAVG 1 2 HPM Box Type Real Average IOL Utilization in per cent by the HPM per I O Link total Lock View utilization by the Comm and Control CPUs Default 0 0 PtRes HPM Range 0 100 TOTLUMAX 1 2 HPM Box Type Real Maximum IOL Utilization in per cent by the HPM per I O Link total Lock View utilization by the Comm and Control CPUs Default 0 0 PtRes HPM Range 0 100 TRACKING Type Logical Selected Input Tracking Allows the selected input to be changed without Lock Eng PB bumping the output Default Off PtRes HPM Range Off Tracking disabled On Tracking is to be used Helpful Hint If On causes nonselected inputs to track the selected input HPM Parameter Reference Dictionary T 5 8 97
63. Type Lock Default PtRes Range E ALGOEQN PV Equation Type Defines the equation type EqA EqC to be used for this Eng PB PV algorithm Refer to the HPM Control Functions and Algorithms manual EqA for more information HPM 0 EqA Highest good input when one or two are bad 1 EqB Lowest good input when one or two are bad 2 EqC Average of all good inputs PVEQN Summer Type Lock Default PtRes Range E ALGOEQN PV Equation Type Defines the equation type EqA or EqB to be used for PtBld this PV algorithm Refer to the HPM Control Functions and Algorithms EqA manual for more information HPM 0 EqA P1 input is scaled and biased 1 EqB Up to six inputs are scaled and summed with an overall bias applied PVEQN Totalizr Type Lock Default PtRes Range E ALGOEQN PV Equation Type Defines the equation type EqA EqF to be used for this Eng PB PV algorithm Refer to the HPM Control Functions and Algorithms manual EqA for more information HPM Option Warm Restart Action Bad Input Handling 0 EqA Continue Use zero 1 EqB Continue Use last good value 2 EqC Continue Set Bad and stop 3 EqD Set Bad and stop Use zero 4 EqE Set Bad and stop Use last good value 5 EqF Set Bad and stop Set Bad and stop PVEQN VdtLdLag Type Lock Default PtRes Range E ALGOEQN PV Equation Type Defines the equation type EqA EqD to be used for this PtBld PV algorithm Refer to the HPM Control Functi
64. Type Real Soak Time for Soak Segments 1 12 Define the soak time in minutes for each Lock Supr soak segment Default 0 0 PtRes HPM Range 0 0 to 120 0 minutes SOAKV1 12 Type Real Soak Value for R S Segments 1 12 Defines the soak values in engineering Lock Supr units for each soak segment Default NaN PtRes HPM Range N A SOCMD 0 2 DevCtl DigComp Type Logical Output Status Command When commanding an OFF to ON write the OP is Lock Prog commanded to the state corresponding to the array element written on an off to Default OFF on transition PtRes HPM Range On The OP is commanded to the state corresponding to i 0 State 0 1 State 1 2 State 2 if SOCMD i was previously OFF Off No action SP RegCtl Type Real Setpoint of the PV in Engineering Units Lock Oper Default 0 0 PtRes HPM Range SPLOLM to SPHILM Helpful Hint SP usually does not require a control input connection If a cascade connection to SP is required it is typically configured by specifying a control output connection on the primary point HPM Parameter Reference Dictionary S 17 8 97 SP SP Timer Type Integer Preset Time Defines the amount of time in seconds or minutes that the timer Lock Ope is to run Default 0 PtRes HPM Range 0 to 32000 SPEUHI RegCtl Type Real Setpoint Engineering Unit High Range Lock View Default N A PtRes HPM Range gt SPEULO SPEULO RegCtl
65. UNIT XX DD 75 50 25 l D POINT NAME F 3HP FCIOOTI EE U DESCRIPTOR LBS SEC REFLUX KEYWORD SP 5 7 PV 5 9U OUT 25 9 MAN Figure N 1 Locations of Terms on Group and Detail Displays HPM Parameter Reference Dictionary N 2 8 97 NARRSLOT NARRSLOT HPM Box Type Lock Default PtRes Range Integer Number of Array Slots in an HPM PtBld 0 HPM 0 to 500 NCTLSLOT HPM Box Type Lock Default PtRes Range Integer Number of Regulatory Control Slots in an HPM Refer to the HPM Control PtBld Functions and Algorithms manual for a detailed description of HPM processing 0 capacity HPM 0 to 250 NDCSLOT HPM Box Type Lock Default PtRes Range Integer Number of Digital Composite Slots in an HPM Refer to the HPM Control PtBld Functions and Algorithms manual for a detailed description of HPM processing 0 capacity HPM 0 to 999 NDEVSLOT HPM Box Type Lock Default PtRes Range Integer Number of Device Control Points Configured The number of Device Control PtBld points in an HPM Box point Refer to the HPM Control Functions and 0 Algorithms manual for a detailed description of HPM processing capacity HPM 0 to 400 NEIPRQU NIM PSDP Type Lock Default PtRes Range Real Number of Event Initiated Processing Requests The number of Event Initiated View Processing requests sent in the last 15 seconds 0 NIM
66. View Default 00 Hex PtRes HPM Range N A HPM Parameter Reference Dictionary R 4 8 97 RELVERS RELVERS HPM Type String 1 Overall Software Release Version Code Lock View Default 00 Hex PtRes HPM Range N A REMSOAKT RampSoak Type Real Remaining Soak Time Indicates the amount of time remaining in the current Lock Oper soak segment Default 0 0 PtRes HPM Range 0 0 to 120 0 minutes RESETFL DevCtl DigComp Type Logical Reset Maintenance Statistics Flag Used to reset maintenance statistics Lock Oper Default Off PtRes HPM Range Off On Storing to this parameter resets maintenance statistics Helpful Hint This parameter can be reset by the operator only while it is red tagged A program may reset at anytime RESETEL DigIn Type Logical Reset Flag Resets the accumulator to zero when the command flag transitions Lock Prog from the Off to the On state Default Off PtRes HPM Range Off No Reset command On Reset command is issued to the accumulator Helpful Hint RESETFL change requires DITYPE Accum RESETEL Timer Type Logical Reset Timer Command Flag Resets the total when this flag changes from Off Lock Prog to On Default Off PtRes HPM Range Off On HPM Parameter Reference Dictionary R 5 8 97 RESETFL RESETEL Totalizr Type Logical Reset Totalizer Command Flag Resets the total RESETVAL when this flag Lock Prog changes from O
67. a DigOut slot tagname ONPULSE or OFFPULSE b DigOut slot Tagname SO c Logic slot Tagname Fl nn where nn 7 12 d ProcMod Tagname Fl nnn where nnn 1 127 e Flag slot Tagname PVFL f Box FL nnnn for a box flag that resides in the same HPM box nnnn 1 16 384 g NMhhBxx FL nnnn for a box flag that resides in a different HPM box on the same UCN hh is the NIM UCN address xx is the HPM box number and nnnn 1 4095 Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as DO Digital Output mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name DOTYPE DigOut Type Lock Default PtRes Range E DOTYPE Digital Output Type Determines the type of digital output point PtBld Status HPM 0 Status Status output type 1 Pwm Pulse Width Modulated output type DSA Type Lock Default PtRes Range Integer Device Soft Address The logical address of an IOP 1 40 for primary IOPs View and 129 168 for secondary IOPs N A HPM 1 40 for primary IOPs 129 168 for secondary IOPs HPM Parameter Reference Dictionary D 12 8 97 EIPPCODE a EIPPCODE Type Lock Default PtRes Range Ent_Id Event Initiated Processing Point Identifier Defines the tag name of the po
68. adapter panel is not connected to the IOP FTA_Comm Appears when the corresponding FTA is not connected to the power adapter panel or when communication between the IOP and FTA has failed CFG_Load Appears when configuration data is downloaded to the FTA Mod_Idle Appears when configuration data is downloaded to the FTA and the IOP is in IDLE mode or when the IOP operating state is switched from RUN to IDLE SI IOP FTA Common Dev Addr tThe device address has a configuration error Data Type tThe data type has a configuration error Startidx tThe start index has a configuration error Elemnt A number of elements configuration error has occurred Config An application specific configuration error has occurred Inv Resp An invalid field device response has occurred Parity Checksum MsgTmout ChrTmout A field device communication error has occurred Ex or xx An exception or other field device error has occurred The xx error code is specific to the field device Fac Test A factory test is in progress OK No errors exist HPM Parameter Reference Dictionary E 2 8 97 ESWATO ESWAUTO RegCtl Type Logical External Switching Flag for Automatic Mode When On means that this Lock Prog point s operating mode has been switched from some mode other than automatic Default Off to the automatic mode by an external source PtRes HPM Range Off On ESWCAS RegCtl Type Logical Eternal Switching Flag for
69. an optimal manner HPM Parameter Reference Dictionary U 5 8 97 HPM Parameter Reference Dictionary U 6 8 97 WARMSTRT 1 168 WARMSTRT 1 168 Type Lock Default PtRes Range Logical Warm Start Flag View N A IOP On Warm start executed Off Cold start executed WEEKDAY HPPM Box Type Lock Default PtRes Range Integer Current Weekday tThe current weekday based on LCN wall clock time View N A HPM 1 to 7 Sunday to Saturday WITHBIAS 1 40 HPPM Box Type Lock Default PtRes Range Logical T O Module Physical Bias State ON Indicates that the preferred View primary is really the acting primary OFF indicates that it is not ON For IOPs that do not have hardware bias e g HLAI DI etc HPM the status of ON is always returned Applies to primary IOP only On The preferred primary is the acting primary Off The preferred primary is not the acting primary HPM Parameter Reference Dictionary W 1 8 97 HPM Parameter Reference Dictionary W 2 8 97 X X FlowComp Type Real Steam Compressibility Input Indicates the measured actual steam Lock View compressibility Default 1 0 PtRes HPM Range gt 0 0 X1 AutoMan Type Real X1 Input Value to be Biased Lock Prog Default NaN PtRes HPM Range NaN X1 3 MulDiv Type Real Inputs 1 3 Current values of the inputs to this algorithm Lock Prog Default NaN PtRes HPM Range gt 0 0 NaN X
70. and replaced with NaN 1 Uncertn Status of the value is uncertain 2 Normal Value is good HPM Parameter Reference Dictionary F 5 8 97 FTA1TYPE FTA1TYPE FTA2TYPE HPM Box Type Lock Default PtRes Range E FTATYPE Type of FTA Connected to the LLMUX IOP or RHMUX IOP The FTA View type applies to both FTA positions 1 and 2 The FTA supplies 16 points None per FTA for a total of 32 points HPM 0 None 1 TC 2 RTD FTACONN 1 168 HPM Box Type Lock Default PtRes Range E FTACON FTA connection to I O module file Indicates which FTA connector is connected View to this module It is primarily used with the diagnostic displays CONN_A nn 1 40 specifies FTA connection for one of the 40 acting primaries nn HPM 129 168 specifies FTA connection for one of the 40 acting secondaries 0 CONN_A Module is connected to FTA connector A 1 CONN_B Module is connected to FTA connector B FTANUM Array Type Lock Default PtRes Range Integer IOP FTA Number Indicates the FTA number of the serial interface IOP PtBld 1 HPM 1 to 10 Helpful Hint Only FTA Numbers 1 and 2 are presently applicable FTAPRES 1 168 Type Lock Default PtRes Range Logical IOP FTA Present Flag For primary and secondary IOPs View HPM Off FTA Missing On FTA Present HPM Parameter Reference Dictionary F 6 8 97 G G FlowComp Type Lock Default PtRes Range Real Spec
71. dictionary e E Enumeration the value for the parameter is chosen from a set of predefined character strings In the above example the enumerations of ALMOPT are None Offnorml e SD_ENM Self Defining Enumeration the value for the parameter is chosen from the user defined character strings e Ent Prm consists of a 1 16 character tag name a period and a 1 8 character parameter name e Integer a 16 bit whole number that does not contain a decimal point 32767 e Logical a binary type with the values of ON True and OFF False or 0 Off and 1 On e NaN although not a data type is used to represent Not A Number and is stored in IEEE format e Prm_Id 1 8 character parameter name e Real a 32 bit floating point number in IEEE format String_L a character string of maximum length L Same as Ascii_L e Time tThe time of day in one of the following formats DDD HH MM SS for durations and DDMMYY HH MM SS for an absolute date or time stamp e Universal Ent Prm Universal Entity Parameter Identifier It is basically the same as Ent Prm but the entity name can be entered as an external 16 character tag name or as the HPM s internal hardware reference address The hardware reference address syntax can be used to access parameters of points within this same HPM that are untagged or tagged HPM Parameter Reference Dictionary 1 2 8 97 1 3 The following are examples of hardware reference addresses
72. down of B is disabled Range gt 0 0 NaN RATE1 12 RampSoak Type Real Ramp Rate for Ramp Soak Segments 1 12 Lock Supr Default NaN PtRes HPM Range Negative values are accepted to allow ramping down RATIO Pid Type Real Ratio Defines the ratio value by which the SP is multiplied Lock Oper Default 1 0 PtRes HPM Range _RTLOLM to RTHILM HPM Parameter Reference Dictionary R 2 8 97 RBOPT RBOPT Pid Type Lock Default PtRes Range E RBOPT Ratio Bias Option Defines the type of ratio bias option to be used for this Eng PB algorithm Refer to the HPM Control Functions and Algorithms manual for a NoRatBi detailed description of bias and ratio options HPM 0 NoRatBi No ratio bias is used to calculate the SP 1 FixRatBi Fixed ratio R and fixed bias B are used 2 AutoRat R is back calculated during initialization 3 AutoBi B is back calculated during initialization RCASOPT AnalgOut Type Lock Default PtRes Range E RCASOPT Remote Cascade Option Defines whether the AM is to provide the output Eng PB value for this data point This option is available only when the point has None been configured as a Full point HPM 0 None No cascade mode of any type is allowed 2 Ddc Direct Digital Control in cascade mode AM point controls this point s OP RCASOPT AutoMan IncrSum ORSel Switch Type Lock Default PtRes Range E RCASOPT Remote Cascade Optio
73. from the point Detail Display 0 InH20 Pressure transmitter Inches of water 1 MMHG Pressure transmitter Millimeters of mercury 2 PSI Pressure transmitter Pounds per square inch 3 KPA Pressure flow transmitter Kilopascals 4 MPA Pressure transmitter Millipascals 5 MBar Pressure transmitter Millibars 6 Bar Pressure transmitter Bars 7 G_SQCM Pressure transmitter Grams per square centimeter 8 KG_SQCM Pressure flow transmitter Kilograms per square centimeter 9 MMH20 Pressure transmitter Millimeters of water 10 INHG Pressure transmitter Inches of mercury 11 Deg_C Temperature transmitter Degrees Centigrade 12 Deg_F Temperature transmitter Degrees Fahrenheit 13 Deg_K Temperature transmitter Degrees Kelvin 14 Deg_R Temperature transmitter Degrees Rankine 15 MV Temperature transmitter Millivolts 16 V Temperature transmitter Volts 17 Ohms Temperature transmitter RTD Ohms 18 CM_HR Magnetic flow transmitter volume Cubic Meters per hour 19 Gal_HR Magnetic flow transmitter volume Gallons per hour 20 LIT_HR Magnetic flow transmitter volume Liters per hour 21 CC_HR Magnetic flow transmitter volume Cubic Centimeters per hour 22 CM_Min Magnetic flow transmitter volume Cubic Meters per hour 23 Gal_Min Magnetic flow transmitter volume Gallons per minute 24 Lit_Min Magnetic flow transmitter volume Liters per minute 25 CC_Min Magnetic flow
74. guranteed in such cases For a pressure transmitter Spt URVmax 2 0 x URL For a temperature transmitter Stt URVmax 2 0 x URL For a magnetic flow transmitter Sfm URVmax 12 0 x URL This parameter is a view only parameter when the STI point execution state PTEXECST is Active indicating that changes cannot be made in this parameter value from the Universal Station USERID Array DevCtl DigComp ProcMod RegCtl RegPV Type String 16 Lock Oper Default Dashes PtRes HPM User ID Reservation The user ID that currently has reserved this point The User ID can be changed by either a point program or operator The operator can overwrite the USERID parameter at anytime A program can store a nonblank string in this parameter only if it is blank If the USERID string starts with three or more dashes only the operator can overwrite the ID Range 16 Character String HPM Parameter Reference Dictionary U 4 8 97 UTSDRIFT UTSDRIFT HPM Box NIM Type Lock Default PtRes Range Integer UCN Node Clock Drift Indicates the current HPMM clock drift rate calculated View by averaging the LCN clock interval and SYNCH CLOCK interval over N A multiple synchs Averaging does not occur until UCN time synchronization is HPM NIM in a Steady state UTSNODE HPM Box NIM Type Lock Default PtRes Range Integer Last UCN Syncher Node Describes which node is the synch master or View syncher Norma
75. is ShedHold BADCTLPR Type Lock Default PtRes Range E ALPRIOR Bad Control Alarm Priority Defines the priority of the bad control alarm Engr Low NIM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated BADIOLPF ProcMod Type Lock Default PtRes Range Logical Bad IOL Prefetch Set to ON by the system if any IOL prefetch value is bad View Off HPM Off On IOL prefetch value is bad HPM Parameter Reference Dictionary B 2 8 97 BADOCFL BADOCEL RegCtl Type Lock Default PtRes Range Logical View OFF HPM Bad Output Connection Flag BADOC Alarm ON indicates that the RegCtl point cannot drive at least one Analog Output point out of 4 possible The alarm appears on the Alarm Summary display and in the Real Time Journal as a BADOC alarm If it is the highest level alarm on the point it appears on the Point Detail or Group displays as BOC Off Poin
76. is through a custom data segment parameters attached to AM regulatory points as described below BHALMFL1 BHALMFL7 NODESTS NODETYP UCNRECHN These parameters are available to user schematics using the NIM reserved data point e g NMuuBnn param where uu UCN number and nn UCN node number AM CL programs can access the restricted parameters as Regulatory Point General inputs using ordinary point parameter access They must be transferred to parameters of AM regulatory points There are two ways to do this 1 Boolean parameters BHALMFLn can be referenced as general inputs to a Switch algorithm A CL program can access the switch parameters 2 For Enumerations NODEOPER NODESTS NODETYP POSITION AND UNRECHN a custom data segment is created to allow the parameters to be referenced as general inputs and transferred to user defined parameters of a RegCtl Point that can be accessed by Cl HPM Parameter Reference Dictionary 1 7 8 97 HPM Parameter Reference Dictionary 1 8 8 97 PARAMETERS PER POINT TYPE Section 2 This section contains listings of parameters that are applicable to each data point type in the HPM except for the Regulatory Control and Regulatory PV data points which can be found in Section 3 Refer to Sections X for the definitions of the parameters 2 1 Analog Input Al The parameters of the Analog Input Data points are listed below in alphabetical order F indicates that the parameter is ap
77. limit This parameter must be set by a program or logic point It will Off inhibit raise commands HPM Off OP is above the low limit On OP has reached the low limit OPLOLM Type Lock Default PtRes Range Real Output Low Limit in Percent Supr 5 0 HPM 6 9 to OPHILM NaN OPLOPR RegCtl Type Lock Default PtRes Range E Alprior Output Low Alarm Priority Specifies the priority of the Regulatory Control EngPB Output Low alarm Available on Release 510 and later software Low NIM JniPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated HPM Parameter Reference Dictionary 0 9 8 97 OPLOSRC OPLOSRC Type Universal Output Low Flag Input Source Indicates which input connection fetches the Ent Prm OPLOFL parameter to determine the windup state Lock HPM Default PtBld PtRes Null Range Use Tagname Parameter for tagged points where Tagname can be up to 16 char
78. limit is 4095 while no limit exists Spaces for the UCN Array points may be used to address strings with an index greater HPM than 4095 N A STR8 1 16 ProcMod Type Lock Default PtRes Range String_8 Local String Variables Each Process Module point has 16 local STR8 Determined by variables that are different from the HPM Box STR8 variables SPLOCK parameter Spaces HPM N A STR16 1 8 ProcMod Type Lock Default PtRes Range String_16 Local String Variables Each Process Module point has 8 local STR16 Determined by variables that overlay the local STR8 variables for example SPLOCK STR16 1 STR8 1 concatenated with STR8 2 parameter Spaces HPM N A STR32 1 4 ProcMod Type Lock Default PtRes Range String_32 Local String Variables Each Process Module point has four local STR32 Determined by variables that overlay the local STR8 variables SPLOCK parameter Spaces HPM N A HPM Parameter Reference Dictionary S 28 8 97 STR64 STR64 1 2 ProcMod Type Lock Default PtRes Range String_64 Local String Variables Each Process Module point has two local STR64 Determined by variables that overlay the local STR8 variables for example SPLOCK STR64 1 STR8 1 8 parameter Spaces HPM N A STR8 i Array Type Lock Default PtRes Range String_8 Array Point String Variables 8 character string variables that are mapped to
79. occurred in Idle state Ok HPMM is operating normally SoftFail Soft failure while HPMM is running Fail HPMM can be accessed but CPU is halted box hard failure has been detected Powron Power is on Alive No event reports or point processing Alivesf Soft failure during Idle state Test HPMM is in the Test mode TestSF Soft failure has been detected while the HPMM is in the Test mode Loading Personality or database is loading Notconfg Nosynch Unavail Standby StandbySF Upgrade UpgradeSF PTSTSUCN Type Lock Default PtRes Range E NODESTA Redundant Partner Status as Seen From the UCN View HPM Offnet NIM cannot communicate with the HPMM Confgms Configuration mismatch detected Idle Event reports but no point processing Idlesf Soft failure occurred in Idle state Ok HPMM is operating normally Softfail Soft failure while HPMM is running Fail HPMM can be accessed but CPU is halted box hard failure has been detected Powron Power is on Alive No event reports or point processing Alivesf Soft failure during Idle state Test HPMM is in the Test mode Testsf Soft failure has been detected while the HPMM is in the Test mode Loading Personality or database is loading Notconfg Nosynch Unavail Standby StandbySF Upgrade UpgradeSF HPM Parameter Reference Dictionary P 24 8 97 PULSEWTH PULSEWTH DevCtl DigComp Type Real Pulse Width for Point Outputs Lock Supr D
80. of Nodes to which UCN Transactions are made This value View indicates the average number of UCN nodes per second that this node is 0 communicating with both requests and responses HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays NOTRAMAX NIM HPM Box Type Lock Default PtRes Range Real Maximum number of Nodes to which UCN Transactions are made This View value indicates the maximum number of UCN nodes per second that this 0 node is communicating with both requests and responses HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays NOTRANSO 2 DevCtl DigComp Type Lock Default PtRes Range Real Accumulated Transitions The number of transitions to each state of the View OPFINAL parameter since the most recent reset of maintenance statistics The 0 0 MAXTRAN parameter does not limit the number of transactions unless the user HPM writes a program to read MAXTRAN comparing it to NOTRANS and thereby causing it to stop 0 No limit NPARAVG NIM HPM Box Type Lock Default PtRes Range Real Average number of UCN Parameter Accesses per Second Average number of View UCN parameter accesses per second between this node and all other nodes 0 including both requests and responses HPM N A HPM Parameter Reference Dictionary N 20 8 97 NPARMAX NPARMAX NIM HPM Box Type Lock Default PtRes Range Real Maximum n
81. parameters This information is needed when the point is to be used as the primary operator interface to the point s data Points that are configured as having Component point form should be used to provide inputs to the Full point and also for those points that handle the outputs from the Full points Component points should be used as part of the Full point that has been designated a primary operator interface point 1 6 ABBREVIATIONS AM Application Module Analgin Analog Input Data Point AnalgOut Analog Output Data Point AO Analog Output HPM High Performance Process Manager HPMM High Performance Process Manager Module HPM Box HPM Box Data Point Array Array Data Point AutoMan Auto Manual algorithm Box Box Data Point Calcultr Calculator algorithm OM Computing Module 50 or 60 DevCtl Device Control Data Point DI Digital Input DigComp Digital Composite Data Point DigIn Digital Input Data Point DigOut Digital Output Data Point DISOE Digital Input Sequence of Events DO Digital Output ESI Extended Standard International Engineering Units FBus Field Bus Flag Flag Data Point FlowComp Flow Compensation algorithm FTA Field Termination Assembly GenLin General Linearization algorithm HPM Parameter Reference Dictionary 1 5 8 97 HiLoAvg IncrSum IOL IOP Logic LCN LLMUX MidOf3 MulDiv NIM ORSel PI Pid PidErfb PidFf PidPosPr PosProp ProcMod PSDP RampSoak RatioCtl RegCtl RegPV RHMUX SI
82. program provides the output value Default Man for this point If PNTFORM is Component then MODE parameter is not PtRes HPM applicable for this data point Range 1 Man Operator or Program provides the point s output value OP 2 Cas Data point receives its output value from a primary data point If RCASOPT is DDC data point receives its output value from an AM point 5 Normal Parameter NMODE determines this point s mode Helpful Hint 1 MODE change by a program requires MODATTR Program and REDTAG Off 2 MODE change by an operator requires MODATTR Operator MODEPERM Permit and REDTAG Off MODE DigComp DevCtl Type E MODE Mode of Digital Composite and Device Control Slot Defines the current mode Lock Oper of the data point Parameter MODATTR determines whether operator or the Default Man sequence program provides the output value for this point If PNTFORM is PtRes HPM Component then MODE parameter is not applicable for this data point Range 1 Man Operator or Program controls slot s output OP 5 Normal Parameter NMODE contains slot s mode Helpful Hint 1 MODE change by a program requires MODATTR Program SHUTDOWN Off and REDTAG Off 2 MODE change by an operator requires MODATTR Operator MODEPERM Permit SHUTDOWN Off and REDTAG Off MODE RegCt Type E MODE Mode of Regulatory Control Slot Defines the mode of the RegCtl point Lock Oper Default Man PtRes HPM Range
83. separately for each Array point No two Array points should write to the same coil address This parameter should be set to NAN if it is not being used AUXDATA2 SI Array Generic Modbus Type Real FTA Driver Auxiliary Data 2 Specifies the time interval that the FTA waits Lock Eng before a message retry to the Modbus is attempted NaN dashes indicates a 1 5 Default NaN second timeout PtRes HPM Range 25 5 Sec NaN Helpful Hint After three retries a message timeout error is displayed on the Point Detail display AUXDATA2 can be configured separately for each Array point This parameter should be set to NAN if it is not being used HPM Parameter Reference Dictionary A 8 8 97 AUXDATA AUXDATAS SI Array Generic Modbus Type Real FTA Driver Auxiliary Data 3 Signaling mode Modem support in Lock Eng integer decimal format Integer 232 or 485 Default NaN 232 EIA 232 485 EIA 485 Multidrop PtRes HPM Decimal EJA 232 only 0 or 1 0 no modem control 1 modem control NaN dashes 232 0 EIA 232 without modem control Range 232 0 232 1 or 485 0 Helpful Hint All array points that are loaded to the same FTA must have the same AUXDATAS settings This parameter should be set to NAN if it is not being used AUXDATAG4 SI Array Generic Modbus Type Real FTA Driver Auxiliary Data 4 Baud Rate Parity in integer decimal format Lock Eng Baud Rates 1200 240
84. the Determined by Array point The number of variables is dependent on the NSTRING and SPLOCK STRLEN variables N A HPM 1 lt i lt Array parameter NSTRING 8 STRLEN STR16 i Array Type Lock Default PtRes Range String_16 Array Point String Array Variables 16 character string variables that are Determined by mapped to the Array point These variables overlay the STR8 variables SPLOCK N A HPM 1 lt i lt Array parameter NSTRING 16 STRLEN STR32 i Array Type Lock Default PtRes Range String_32 Array Point String Variables 32 character string variables mapped to the Array Determined by point that overlay the STR8 variables SPLOCK N A HPM 1 lt i lt Array parameter NSTRING 32 STRLEN STR64 i Array Type Lock Default PtRes Range String_64 Array Point String Variables 64 character string variables mapped to the Array Determined by point that overlay the STR8 variables SPLOCK N A HPM 1 lt i lt Array parameter NSTRING 64 STRLEN HPM Parameter Reference Dictionary S 29 8 97 STRDESC STRDESC Array Type Lock Default PtRes Range String_64 String Array Descriptor 64 character string describing the Array point string PtBld data Spaces HPM N A STRLEN Array Type Lock Default PtRes Range Integer Array Point String Length Indicates the length of the configured string with PtBld the STRSTIX and NSTRING parameters di
85. the current PV state as three separate Boolean parameters View PVFL n is On when the PV is in state n where n is 0 1 or 2 Off HPM Off PV is not in the respective state On PV is in the respective state PVFL DigIn Flag Type Lock Default PtRes Range Logical PV Flag Represents the current PV state as a Boolean value Oper Off HPM Off PV STATETXT 0 On PV STATETXT 1 HPM Parameter Reference Dictionary P 34 8 97 PVFORMAT PVFORMAT RegCtl RegPV Type Lock Default PtRes Range E VALFORMT PV Decimal Point Format Defines the decimal format that is to be used to Engr PB display the PV and SP values It contains up to eight characters including D1 the minus sign and decimal point HPM 0 D0 XXXXXX 1 D1 XXXXX X 2 D2 XXXX XX 3 D3 XXX XXX PVHHFL RegCtl RegPV Type Lock Default PtRes Range Logical PV High High Alarm Flag Indicates whether the PV has exceeded the alarm View trip point established by the PVHHTP parameter Off HPM Off High High limit not exceeded On High High limit exceeded PVHHPR RegCtl RegPV Type Lock Default PtRes Range E ALPRIOR PV High High Alarm Priority Defines the priority of the PV high high alarm Engr Low NIM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is
86. the output to STATEO regardless of the permissives or any other overrides When I1 is On and IO is Off forces the output to a STATE regardless of the permissives or any other overrides When I2 is On and IO and I1 are both Off forces the output to STATE2 regardless of the permissives or any other overrides 10 12 change by the engineer requires PTEXECST InActive or PNTSTATE Idle for each interlock lIOCONF DigComp DevCtl Type Logical Override Interlock 0 Alarm Confirmation Flag Indicates that the Override Lock Oper Interlock 0 Alarm needs to be confirmed Default Off PtRes HPM Range N A lODESC I2DESC DigComp Type String 8 10 12 Alarm Descriptor The override Interlock for States 0 1 or 2 indicating Lock Engr which text should be copied into the OVRDDESC parameter when an override Default Blank alarm occurs The text appears in the Alarm Display and can be configured to PtRes HPM indicate the cause for the alarm Range 8 Character String l1CONF DigComp DevCtl Type Logical Override Interlock 1 Alarm Confirmation Flag Indicates that the Override Lock Oper Interlock 1 Alarm needs to be confirmed Default Off PtRes HPM Range N A HPM Parameter Reference Dictionary l 1 8 97 I2CONF I2CONF DigComp DevCtl Type Logical Override Interlock 2 Alarm Confirmation Flag Indicates that the Override Lock Oper Interlock 2 Alarm needs to be confirmed Default Off PtRes HPM Range N
87. to a DO Lock View point that has its INITREQ flag set and the point is forced into initialization Default On When the DO point becomes available the initialization state is cleared PtRes HPM Range Off Mode Initialization Manual On Mode Initialization Manual HPM Parameter Reference Dictionary l 2 8 97 INITREQ INITREQ 1 4 RegCtl Type Logical Initialization Request Flags 1 4 Indicates whether an initialization request has Lock View been made Each flag represents a request to the primary point pushing to the Default Off corresponding input to be initialized as follows PtRes HPM Flag 1 SP or X1 Flag 2 RATIO or X2 Flag 3 X3 Flag 4 X4 Range Off No initialization request On Initialization request INITREQ Array Type Logical Initialization Request Flag Indicates whether a Serial Interface connected device Lock View can be written to where OFF yes or ON no The flag is always OFF if EXTDATA None Default On when EXTDATA IO_FL IO_NN or IO_STR Off when EXTDATA None PtRes HPM Range Off EXTDATA None or Serial interface connected device can be written to On Serial interface connected device cannot be written to INITREQ AO DO Type Logical Initialization Request Flag When On indicates that control strategies in the Lock View HPM cannot manipulate the output to the field It is set to ON when Default On PtRes HPM e the PWM type output is configured e the point i
88. transmitter volume Cubic centimeters per minute 26 CM_Day Magnetic flow transmitter volume Cubic meters per day 27 Gal_Day Magnetic flow transmitter volume Gallons per day 28 KGal_Day Magnetic flow transmitter volume Thousands of gallons per day 29 BRL_Day Magnetic flow transmitter volume Barrels per day 30 CM_Sec Magnetic flow transmitter volume Centimeters per second 31 KG_HR Magnetic flow transmitter mass Kilograms per hour 32 LBS_HR Magnetic flow transmitter mass Pounds per hour 33 Ft_Sec Magnetic flow transmitter velocity Feet per second 34 M_Sec Magnetic flow transmitter velocity Meters per second 35 KG_Min Magnetic flow transmitter mass Kilograms per minute 36 KG_Sec Magnetic flow transmitter mass Kilograms per second 37 LBS_Min Magnetic flow transmitter mass Pounds per minute 38 LBS_Sec Magnetic flow transmitter mass Pounds per second 39 PRCNT Percent Not implemented HPM Parameter Reference Dictionary S 26 8 97 STI_EU STL EU STI continued 40 BLANK Blank Multivariable transmitter with SFM SENSRTYP 41 LBS Pounds 42 KG Kilograms 43 TONS Tons 44 GRAMS Grams 45 OZ Ounces 46 GAL Gallons 47 BRL Barrels 48 CUB_M Cubic Meters 49 LITERS Liters 50 MLITRES Milliliters 51 FL_OZ Fluid ounce 52 FEET Feet 53 METERS Meters 54 MM Millimeters 55 INCHES Inches 56 KG_CUM Kilograms per cubic meter
89. 0 4800 9600 or 19200 Default NaN Parity 0 no parity 1 odd parity 2 even parity PtRes HPM NaN dashes 9600 1 9600 baud odd parity Range integer 1200 2400 4800 9600 or 19200 decimal 0 1 or 2 Helpful Hint All array points that are loaded to the same FTA must have the same AUXDATAS4 settings This parameter should be set to NAN if it is not being used AV Digin Type Integer Accumulated Value in Engineering Units Indicates the current value Lock Oper accumulated in the accumulator Default 0 PtRes HPM Range 032767 AV RegCtl Type Integer Accumulated Value in Engineering Units Indicates the current value Lock Configurable accumulated in the accumulator Default 0 PtRes APM Range 032767 AVDELTHS PI Type Integer The Last Half second s AV Lock View Default 0 PtRes HPM Range gt 0 HPM Parameter Reference Dictionary A 9 8 97 AVDEV1FL AVDEV1FL Totalizr Type Logical Accumulated Value 1st Deviation Flag Indicates whether PVCALC is greater Lock View than AVTV minus AVDEVITP PVCALC gt AVTV AVDEVITP This is Default N A the first slowdown or near target flag PtRes HPM Range Off PVCALC is not gt AVTV AVDEVITP On PVCALC is gt AVTV AVDEVITP AVDEV1TP Totalizr Type Real Accumulated Value 1st Deviation Trip Point deviation from AVTV Lock Supr Default NaN PtRes HPM Range gt 0 0 NaN AVDEV2EL Totali
90. 1 4 IncrSum ORSel RegCtl Summer Type Real Inputs 1 4 Current values of the inputs to this algorithm Lock Prog Default NaN PtRes HPM Range gt 0 0 NaN X2 AutoMan Type Real Bias Adjustment Input Lock View Default N A PtRes HPM Range N A X2 RatioCtl Type Real Input Number 2 Indicates the value of the uncontrolled process variable Lock View Source should be the same as for P2 of the Calcultr algorithm if it is being used Default N A in conjunction with the Calcultr algorithm PtRes HPM Range N A HPM Parameter Reference Dictionary X 1 8 97 X2FILT X2FILT RatioCtl Type Lock Default PtRes Range Real Filtered value of the X2 input View N A X2TF RatioCtl Type Lock Default PtRes Range Real X2 input filter lag time in minutes Supr 0 0 HPM 0 60 minutes XEUHI AutoMan IncrSum ORSel Type Lock Default PtRes Range Real X Input Engineering Unit High Range Defines the upper limit of the value of Engr the X input or inputs 100 0 equivalent to 100 HPM gt XEULO XEULO AutoMan IncrSum ORSel Type Lock Default PtRes Range Real X Input Engineering Unit Low Range Defines the lower limit of the value of Engr the X input or inputs 0 0 equivalent to 0 HPM lt XEUHI XSTS FlowComp Type Lock Default PtRes Range E PVVALST X Input Value Status Status of the steam compressibility input Vie
91. 1 14 The Primary and Secondary HPMMs must be in File 1 Card slots 1 amp 2 and in File 2 Card Slots 1 amp 2 File and Card positions of the IOPs are defaulted as follows Hardware File _ CardSlot__ 3 15 14 26 bed NOTE To operate the HPMM as non redundant configure PKGOPT REDUN_2F as above but install only one of the HPMM card sets above The backplane slot positions vacated by the second HPMM cards can be used to house IOP cards if necessary HPM Parameter Reference Dictionary P 9 8 97 PKGOPT REDUN_1O File 1 File 2 File 3 H H 7 IOP Cards i IOP Cards IOP Cards M M 182 3 15 182 3 15 raie File 4 File 5 File 6 IOP Cards IOP Cards IOP Cards 1 15 1 12 1 12 The Primary and Secondary HPMMs must be in File 1 Card Slots 1 amp 2 and in File 2 Card Slots 1 amp 2 The File and Card position of the IOPs are defaulted as follows Hardware File CardSlot____ Hardware IOMA 1 13 1 3 15 IOMB1 13 OMA 1428 3 1 15 1OMB 14 28 OMA 2940 5 1 12 1OMB 29 40 Note that on download of this configuration to the HPM the PKGOPT is changed back to REDUN_2F NODEFALT The HPMM File s may be like any of the previous three configurations and up to 40 IOPs are allowed The IOP file Card positions must be configured by the user Note that on download to the HPM PKGOPT changes to REDUN or REDUN_2F based on the actual hardware VO Simulator Option The optional I O Simulator can
92. 2 for PV State 2 internally set to NULL for two state devices does not apply to DigIn point NONE No off normal checking HPM Parameter Reference Dictionary P 38 8 97 PVNORMFL PVNORMEL DevCtl Digin DigComp Type Logical PV Normal State Flag lIndicates whether the normal state of the PV is active Lock Supr Default Off PtRes HPM Range Off Point is in a state other than the normal state On Normal state is active PVNORMEL change requires ALMOPT Offnorm for Digital Input points or that PVNORMAL None for Digital Composite or Device Control points If set to On causes text in STATETXT 1 to be used to describe the normal state of the PV otherwise text in STATETXT 0 is used PVP RegCtl RegPV Type Real PV in Percent Defines the PV as a percentage Lock View Default NaN PtRes HPM Range N A PVRAW Analgin Type Real PV Raw Value Indicates the raw input value of the PV from the Field Lock Operator Termination Assembly FTA before PV characterization is performed The Default NaN units of value for the PV are determined by the field sensor type as described PtRes HPM below Range N A If sensor type is 0 4 2 V 1 5 V 0 5 V PVRAW is in percent if sensor type is T C PVRAW is in microvolts if sensor type is in RTD PVRAW is in milliohms if sensor type is slidewire PVRAW is in ratio if sensor type is 0 100 mV PVRAW is in millivolts PVRAW DigIn Type Logica
93. 3 Both cables have failed CALCEXP Calcultr Type Lock Default PtRes Range String 40 Calculator Expression Allows the user to set up an equation that can be up to Eng PB 40 characters in length which is to be solved by the Calcultr algorithm Input blank values P1 P6 and intermediate results values C1 C4 can be used in the equation HPM N A CALIBALL 1 168 Type Lock Default PtRes Range Logical Full Calibration Enable Flag Engr Off HPM Off Card calibration is disabled On Card calibration is enabled CALIBRJ 1 168 Type Lock Default PtRes Range Logical Reference Junction Calibration Enable Flag Eng PB Off HPM Off Disable Reference Junction calibration On Enable Reference Junction calibration CASMODFL RegCtl Type Lock Default PtRes Range Logical Cascade Mode Flag Indicates whether the current mode of the point is Cascade View N A HPM On point is in cascade mode Off point is not in cascade mode HPM Parameter Reference Dictionary C 3 8 97 CASREQ CASREQ AnalgOut RegCtl Type E CASREQ Remote Cascade Request Flag Defines whether the remote cascade mode has Lock Prog been requested for the data point The remote cascade mode exists when MODE Default NotReq is changed to Cas and RCASOPT is Ddc or DdcRsp When a request to change PtRes HPM MODE to Cas is received from a US or a program MODE does not immediately change to Cas
94. 3 Reset Resets the totalizer to RESETVAL COMMIN HPM BOX Type Integer HPMM Communications Personality Creation Date Minute Lock View Default 0 PtRes HPM Range COMMONTH Type Integer Creation Month of HPMM Communications Personality Lock View Default N A PtRes HPM Range 1 12 COMNAME Type String 8 HPMM Communications Personality Name Lock View Default PtRes HPM Range HPM Parameter Reference Dictionary C 15 8 97 COMPHILM COMPHILM FlowComp Type Real Compensation Term High Limit Defines the upper limit of the COMPTERM Lock Supr compensation term parameter Default 1 25 PtRes HPM Range COMPLOLM to 10 0 NaN Helpful Hint Entering NaN disables high limit checking by forcing its value to the extreme 10 0 COMPLOLM FlowComp Type Real Compensation Term Low Limit Defines the lower limit of the COMPTERM Lock Supr compensation term parameter Default 0 8 PtRes HPM Range 0 0 to COMPHILM NaN Helpful Hint Entering NaN disables low limit checking by forcing its value to the extreme 0 0 COMPTERM FlowComp Type Real Compensation Term This term differs in each of the five flow compensation Lock View equations A through E Refer to the HPM Control Functions and Algorithms Default 1 0 manual for a detailed description PtRes HPM Range _COMPLOLM to COMPHILM COMRDRRV Type Integer Rdr Revision Lock View Default PtRes HPM Range COM
95. 7 Alive No event reports or point processing 8 Loading HPMM s personality or database is loading 9 PowerOn Transitional state when power applied to HPMM 10 OffNet NIM cannot communicate with HPMM 12 NotConf HPMM cannot be found on the UCN 13 ConfgMis IOP mismatch in NIM Box point 19 Standby 20 S_OK OK in I O simulation mode 21 S_IOIDL IOIDL in I O simulation mode 22 S_IDLE IDLE in I O simulation mode 23 S_PFIOIL PF_IOIDL in I O simulation mode 24 S_PFIDLE PF_IDLE in I O simulation mode 25 S_PtFail PartFail in I O simulation mode 26 S_Pause HPM is in the simulation pause state 27 StandbySF 28 Upgrade 29 UpgradeSF NODETYP NIM Type Lock Default PtRes Range E UCNNDTY UCN Node Type Defines the node type of this UCN node PtBld NIM NIM NIM Network Interface Module NODETYP HPM Box Type Lock Default PtRes Range E UCNNDTY UCN Node Type Defines the node type of this UCN node PtBld HPM NIM HPM High Performance Process Manager HPM Parameter Reference Dictionary N 14 8 97 NODETYP NODETYP HPM Points Type Lock Default PtRes Range E UCNNDTY UCN Node Type Defines which node type supports this point PtBld HPM NIM HPM High Performance Process Manager NODFSTAT HPM Box Type Lock Default PtRes Range E NODFSTA Node s Functional Status Defines the status of the UCN node Supr Basic NIM Full All LCN devices can read writ
96. 70 to 1250 600 to 1300 100 to 1300 0 to 1760 0 to 1760 120 to 400 0 to 2300 0 to 2300 20 to 250 20 to 250 200 to 450 200 to 450 200 to 450 200 to 450 420 to 1800 200 to 1820 200 to 1000 200 to 1200 200 to 1370 600 to 1300 200 to 1300 50 to 1760 50 to 1760 250 to 400 0 to 2300 0 to 2300 20 to 250 20 to 250 200 to 850 200 to 640 200 to 850 200 to 850 700 to 1800 PVCHAR PVCHAR FlowComp Type E VALCHAR PV Characterization Option Defines the display characterization to be used Lock PtBld for characterizing the input PV value of Regulatory PV point configuring with Default SqRoot Flow Compensation PtRes HPM Range 12 Linear The COMPTERM compensation is not square rooted 13 SqRoot The COMPTERM compensation is square rooted PVCHGDLY Type Integer PV Change Delay time in Seconds Defines the time in seconds that a point Lock Supr with a previously detected PV change event is guaranteed to remain at the new Default 0 seconds value even if the PV returns to its original value If the point remains at its PtRes HPM new value when the delay timer expires the point is held at the new value Range 9 to 60 seconds Helpful Hint _PVCHGDLY requires that EVTOPT EIP SOE or EIPSOE PVCLAMP Type E PVCLAMP PV Clamping Option Defines whether PV clamping is to be used for this Lock Eng PB data point If PVCLAMP Clamp and the PV extended range is exceeded
97. ADCTLPR F BADPVFL F BADPVPR F BCAMODFL BFF BIAS BSHILM BSLOLM CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLACTN CTLALGID CTLEQN CTRLINIT CV CVEUHI CVEULO HPM Parameter Reference Dictionary DELCV DEV DEVHIFL DEVHIPR F DEVHITP F DEVLOFL DEVLOPR F DEVLOTP F ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT FF FFOPT GAINOPT GAPH GAPLO HIGHAL F HIGHALPR F INITMAN K KEXT KEYWORD KFF KGAP KLIN KNL LASTPV LOCALMAN MANMODFL MODATTR MODE MODEAPPL MODEPERM MODNUM NAME NLFM NLGAIN NMODATTR NMODE NOCINPTS NOCOPTS NODENUM NODETYP NORMCYCL NRMATRFL NRMMODFL NTWKNUM OP OPALDB F OPEU OPHAFL F OPHIFL OPHILM OPHIPR F OPHITP F OPLAFL F OPLOFL OPLOLM OPLOPR F OPLOTP F OPMCHLM OPRATRFL OPROCLM OPTOL OVERVAL F PERIOD PFDLYFL PIDFORM PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE 3 9 PRGATRFL PSDLYFL PTDESC PTEXECST PTINAL PTORST PV PVALDB F PVALDBEU F PVAUTO PVAUTOST PVEUHI PVEULO PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOTP F PVLOPR F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS wa YS YY PVTRACK RAMPTIME RARWSTS RATIO RBOPT RCASOPT RCASSHED REDTAG F RINITREQ RINITVAL RTHILM RTLOLM SAFEOP SCHSTS SHEDMODE SHEDTIME SHUTDOWN SLOTNUM S
98. BADOC alarm can be generated or is permitted Default OFF PtRes HPM Range Off BADOC alarms are suppressed On BADOC alarms are permitted Helpful Hint The value of this parameter can be changed on the Point Detail display with Engineering keylevel access BADPVFL Type Logical Bad PV Flag lIndicates that a bad PV value has been detected at this data point Lock View For an analog input a bad PV is defined as a PV whose value is NaN Not a Default Off Number PtRes HPM Range Off PV is not bad On PV is bad HPM Parameter Reference Dictionary B 4 8 97 BADPVFL BADPVFL DI Type Lock Default PtRes Range Logical Bad PV Flag lIndicates that a bad PV value has been detected at this data point View BADPVEL is shown on the detailed display only when PNTFORM Full On HPM For a Digital Input the Bad PV Flag is on when e The PV source is not equal to Manual and DITYPE is set to Accumulator e The PV source has just been switched to Substituted but the PV has not yet been updated e The PV source Substitute or Auto and PTEXECST Inactive or the module is not in the RUN state e PVSOURCE Auto and there is no FTA connected or there is a Soft Fail that is preventing this chanel from working Off PV is not bad On PV is bad BADPVFL DevCtl DigComp Type Lock Default PtRes Range Logical Bad PV Flag For a Digital Composite or Device Control point the Bad PV Vi
99. Default PtRes Range E TIMEBASE Totalizer Time Base Defines whether time base is in seconds minutes or Eng PB hours Minutes HPM 0 Seconds PV and Setpoint engineering units gallons etc per second 1 Minutes PV and Setpoint engineering units gallons etc per minute 2 Hours PV and Setpoint engineering units gallons etc per hour TIMEDESC Array Type Lock Default PtRes Range String_64 Time Array Descriptor Sixty four character string describing Time data PtBld Spaces HPM N A TIMESECS 1 240 Array Type Lock Default PtRes Range Time Array Point Time Variables Times mapped from the HPM box defined by Determined TIMESTIX and NTIME parameters by SPLOCK N A HPM 1 lt i lt NTIME Array parameter TIMESTIX Array Type Lock Default PtRes Range Real Time Array Start Index Defines the Time data start index in the Box Time PtBld variables 0 HPM 0 to Box parameter NTIME 0 indicates there are no Times configured for this point TIMESYNC UCN Type Lock Default PtRes Range E ENBLSTAT Timesynch Control Defines whether SOE timesynch can be performed by PtBld this NIM or NIM pair Normally the NIM with the lowest address is Disable configured for this function NIM Enable This NIM or NIM pair is able to perform SOE time synchronization Disable This NIM or NIM pair does not perform SOE time synchronization but can receive and report
100. Defines the input source for each of the S1 S4 inputs to Lock PtBld the logic block Default L1 PtRes HPM Range FL1 FL12 Input source is a local flag they can be either On or Off SO1 8024 Input source is the status output SOn from another logic block L1 L12 Input source is the configured input connection they can be either On or Off S1 S4 Switch Type Logical Select X1 X4 Request Flag Indicate whether the respective input X1 X4 has Lock Oper been selected as the input to this algorithm Default On PtRes HPM Range Off On Respective input has been selected S1BGNTIM S2BGNTIM RampSoak Type Real Mark 1 and Mark 2 Begin Times Times at which Mark Function Flag S1 or Lock Supr S2 is turned on Refer to the HPM Control Functions and Algorithms manual Default 0 0 for detailed information PtRes HPM Range gt 0 0 to 120 minutes S1ENDTIM S2ENDTIM RampSoak Type Real Mark 1 and Mark 2 End Time Times at which Mark Function Flags S1 and S2 Lock Supr are turned Off Refer to the HPM Control Functions and Algorithms manual for Default 0 0 detailed information PtRes HPM Range gt 0 0 to 120 minutes S1REV 1 24 through S3REV 1 24 Logic Type Logical S1 S2 S3 Inputs Reversed Allows the user to selectively reverse invert any Lock PtBld of the inputs to a logic block Default Off PtRes HPM Range Off Input is direct On Input is reversed HPM Parameter Refere
101. DevCtl DigComp Type Lock Default PtRes Range E ALPRIOR Override Alarm Priority Defines the priority of an override alarm Engr Low HPM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated OVRDCONF DevCtl DigComp Type Lock Default PtRes Range Logical Override Confirmation Flag Indicates one of the four override alarms Oper SIOCONF or IOCONF I2CONF has not yet been confirmed This flag is also Off used to confirm the alarm HPM Off An alarm is not waiting for confirmation On An alarm is waiting for confirmation OVRDDESC DevCtl DigComp Type Lock Default PtRes Range String_8 Override Alarm Descriptor Input connections and logic gating are examined in View order to determine which input was the source of change for the interlock For Blank the Device Control point descriptor text for this parameter is taken from HPM LIDESC 1 12 Descriptive text for th
102. E MODEAPPL MODEPERM MODNUM NAME NLFM NLGAIN NMODATTR NMODE NOCINPTS NOCOPTS NODENUM NODETYP NORMCYCL NRMATRFL NRMMODFL NTWKNUM OP OPALDB F OPEU OPHAFL F OPHIFL OPHILM OPHIPR F OPHITP F OPLAFL F OPLOFL OPLOLM OPLOPR F OPLOTP F OPMCHLM OPRATRFL OPROCLM OPTOL OVERVAL F PERIOD PFDLYFL PIDFORM PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATRFL PSDLYFL PTDESC 3 8 PTEXECST PTINAL PTORST PV PVALDB F PVALDBEU F PVAUTO PVAUTOST PVEUHI PVEULO PVFORMAT PVHHFL PVHHTP F PVHHPR F PVHIFL PVHIPR F PVHITP F PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOTP F PVLOPR F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTRACK RAMPTIME RARWSTS RATIO RBOPT RCASOPT RCASSHED REDTAG F RFB RINITREQ RINITVAL RTHILM RTLOLM S1 SAFEOP SCHSTS SHEDMODE SHEDTIME SHUTDOWN SLOTNUM SP SPEUH SPEULO SPFORMAT SPHIFL SPHILM SPLOFL SPLOLM SPOPT SPP SPTOL SPTV SPTVP STSMSG STDBYMAN Ti T2 TRFB TVPROC UNIT USERID 8 97 3 12 Pid with Feed Forward PidFf The parameters of the Pid with Feed Forward control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ADVDEVFL ADVDEVPR F ADVDEVTP ADVSP F ADVSPP F ALENBST F ARWNET ARWOP ASPPROC F ASSOCDSP AUTMODFL BADCTLFL BADCTLOP B
103. E MODEAPPL MODEPERM MODNUM NAME NMODATTR NMODE NRMATRFL NRMMODFL NOCINPTS NOCOPTS NODENUM NODETYP NTWKNUM OP OPALDB F OPEU OPHAFL F OPHIFL OPHILM OPHIPR F OPHITP F OPLAFL F OPLOFL OPLOLM OPLOPR F OPLOTP F OPMCHLM OPRATRFL 3 15 OPROCLM OPTOL OVERVAL F PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATRFL PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PTORST RARWSTS RCASOPT RCASSHED REDTAG F RINITREQ RINITVAL S1 S2 S3 S4 SAFEOP SCHSTS SELXINP SHEDMODE SHEDTIME SHUTDOWN SLOTNUM STDBYMAN STSMSG TRACKING UNIT USERID X1 X2 X3 X4 XEUHI XEULO 8 97 3 20 Totalizer Totalizr 3 20 The parameters of the Totalizer PV algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ACCTYPE ALENBST F ASSOCDSP AVDEV1FL AVDEV1TP AVDEV2FL AVDEV2TP AVTV AVTVEL BADPVFL F BADPVPR F C COMMAND CONTCUT F CNFMU CNFPU CUTOFFLM EUDESC HIGHAL F HIGHALPR F KEYWORD LASTPV MODNUM NAME NODENUM NODETYP NOPINPTS NORMCYCL NTWKNUM OLDAV OVERVAL F P2STS PERIOD PFDLYFL PIDSTN PISRC PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PV PVALDB F PVALDBEU F PVALGID PVAUTO PVAUTOST PVCALC PVCLAMP PVEQN PVEUHI PVEULO PVEXEUHI PVEXEULO PVEXHIFL PVEXLOFL PVFORMAT PVHHFL PVHHPR F PVHHTP F
104. E NODENUM NODETYP NOPINPTS NORMCYCL NTWKNUM OVERVAL F P PERIOD PFDLYFL PO PIDSTN PISRC PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSTS PSDLYFL PTDESC PTEXECST PTINAL PV PVALDB F PVALDBEU F PVALGID PVAUTO PVAUTOST PVCALC PVCHAR PVCLAMP PVEQN PVEUHI PVEULO PVEXEUHI PVEXEULO PVEXHIFL PVEXLOFL PVFORMAT 3 3 PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP PVINIT PVLLFL PVLLPR F PVLLTP F PVOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F Q QSTS RG RP RQ RT RX SCHSTS SLOTNUM STSMSG TO TF TSTS UNIT USERID X XSTS 8 97 3 5 General Linearization GenLin 3 5 The parameters of the General Linearization PV algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP BADPVEL F BADVPR F CNFMU CNFPU CONTCUT F EUDESC HIGHAL F HIGHALPR F INO IN1 IN2 IN3 IN4 IN5 IN6 IN7 IN8 IN9 IN10 IN11 IN12 KEYWORD LASTPV MODNUM NAME NODENUM NODETYP NOPINPTS NORMCYCL NTWKNUM OUTO OUT1 OUT2 OUTS OUT4 OUT5 OUT6 OUT7 OUT8 OUT9 OUT10 OUT11 OUT12 OVERVAL F P1 P1STS PERIOD PFDLYFL PIDSTN PISRC PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL
105. E UCNWRTL HPM Write Lockout When HPM Write Lockout is set to On all Eng Writes to the HPM except writes to UCNWRTLK and some IOL WrtLkOff parameters are locked out including peer to peer writes All parameter HPM reads are allowed as well as cable swaps HPMM swaps and IOP swaps 0 WrtLkOff Write Lock Off UCN node is read write 1 WrtLkOn Write Lock On UCN node is read only Helpful Hint Write Lockout must be set to Off before any changes are made to configuration modes or setpoints The state of UCNWRTLK can only be changed when the HPM is either in RUN or RUNSOFTFAIL state UCNWRITL can be changed under Engineer Key Level from the HPM Write Lock Control display Refer to the HPM Implementation Guidelines for more information HPM Parameter Reference Dictionary U 1 8 97 UNCMDFL UNCMDEFL DevCtl DigComp Type Logical Uncommanded Change Alarm Flag Indicates whether an uncommanded change Lock View has been detected in the field device Field device has changed its state without Default Off a command PtRes HPM Range Off No uncommanded change alarm On Uncommanded change alarm has been detected by this point UNIT Type String 2 Unit Identifier Defines the process unit to which this point is assigned The Lock PtBld unit identifier is originally assigned during network configuration and it appears Default N A in displays and listings throughout the system PtRes NM Restriction Two character
106. ETYP NTWKNUM OFFNRMPR F PNTFORM PNTNODTY PNTTYPE PRIMMOD F PTDESC PV PVFL SOBOXCLR S1BOXCLR SLOTNUM STATEO STATE1 STATETXT UNIT The parameters of the Box Numeric Data Point are listed below in alphabetical order The Point Form parameter is set to Full ASSOCDSP CNFMU CNFPU 2 7 Box Timer EUDESC KEYWORD NAME NODENUM NODETYP NTWKNUM PNTFORM PNTNODTY PNTTYPE PRIMMOD PTDESC PV PVFORMAT SLOTNUM UNIT The parameters of the Box Timer Data Point are listed below in alphabetical order The Point Form parameter is set to Full ASSOCDSP COMMAND EUDESC KEYWORD HPM Parameter Reference Dictionary NAME NODENUM NODETYP NTWKNUM PERIOD PNTNODTY PNTTYPE PRIMMOD PTDESC 2 3 PV RV SLOTNUM SO SP STATE TIMEBASE TIMOUTFL UNIT 8 97 2 8 Device Control DevCtl 2 8 The parameters of the Device Control Data Point are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ACCELTIM ALENBST F ASSOCDSP BADPVFL F BADPVPR F BADPVTXT BADSVFL BADSVPR F BOXCLR BYPASS CMDDISFL CMDDISPR F CMDFALFL CMDFALTM CNFERRFL CNFMU CNFPU CONTCUT D1 D10 D11 D2 D2D1_00 D2D1_01 D2D1_10 D2D1_11 D3 D4 D5 DB_VALID DEADBAND DEADTIME DISRC DODSTN EIPPCODE F EUDESC EVTOPT F FBTIME F FL 1 12 HIGHAL F HIGHALPR HISVPEAK lo IOCONF I2CONF INITMAN INITREQ KEYWORD L LIBAD
107. F ASSOCDSP BADPVFL F BADPVPR F C C1 C2 C3 C4 C5 C6 CNFMU CNFPU CONTCUT D EUDESC HIGHAL F HIGHALPR F KEYWORD LASTPV HPM Parameter Reference Dictionary N MODNUM NAME NODENUM NODETYP NOPINPTS NORMCYCL NTWKNUM OVERVAL F P1 P1STS PERIOD PFDLYFL PISRC PIDSTN PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PV PVALDB F PVALDBEU F PVALGID PVAUTO PVAUTOST PVCALC 3 14 PVCLAMP PVEQN PVEULO PVEUHI PVEXEUHI PVEXEULO PVEXHIFL PVEXLOFL PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVINIT PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F SCHSTS SLOTNUM STSMSG TF UNIT USERID 8 97 3 19 Switch 3 19 The parameters of the Switch control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ARWNET ARWOP ASSOCDSP AUTMODFL BADCTFL BADCTLOP BADCTLPR F BCAMODFL CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLALGID CTLEQN CTRLINIT CV HPM Parameter Reference Dictionary CVEUHI CVEULO ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT HIGHAL F HIGHALPR F INITMAN KEYWORD LOCALMAN M MANMODFL MODATTR MOD
108. F PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATRFL PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PTORST RARWSTS RATE1 RCASOPT RCASSHED REDTAG F RINITREQ RINITVAL SAFEOP SCHSTS SHEDMODE SHEDTIME SHUTDOWN SLOTNUM STDBYMAN STSMSG UNIT USERID X1 X2 XEUHI XEULO 8 97 3 2 Calculator Calcultr 3 2 The parameters of the Calculator PV algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP BADPVEL F BADPVPR F C1 C2 C3 C4 CALCEXP CNFMU CNFPU CONTCUT F EUDESC HIGHAL F HIGHALPR F KEYWORD LASTPV MODNUM N HPM Parameter Reference Dictionary NAME P3 NODENUM NODETYP NOPINPTS NORMCYCL NTWKNUM OVERVAL F P1 PISTS P2 P2STS P3STS P6STS PERIOD PFDLYFL PIDSTN PISRC PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PV PVALDB F PVALDBEU F PVALGID PVAUTO PVAUTOST PVCALC 3 2 PVCLAMP PVEUHI PVEULO PVEXEUHI PVEXEULO PVEXHIFL PVEXLOFL PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVINIT PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F SCHSTS SLOTNUM STSMSG TF UNIT USERID 8 97 3 3 Data Acqu
109. FF Static for DevCtl and Digcomp points HPM N A MODEPERM AO Type Lock Default PtRes Range E MODEPERM Mode Permissive Determines whether the operator can change the mode of Eng PB this data point Permit HPM 0 Permit Operator can change this point s mode 1 NotPerm Operator cannot change this point s mode MODEPERM DevCtl DigComp RegCtl Type Lock Default PtRes Range E MODEPERM Mode Permissive Determines whether the operator can change the mode of Eng this data point Permit HPM 0 Permit Operator can change this point s mode 1 NotPerm Operator cannot change this point s mode MODNUM Type Lock Default PtRes Range Integer HPMM IOP Module Number Defines the module number in the HPM The PtBld HPMM is module number 0 the IOP Cards are module numbers 1 40 N A NIM 0 to 40 0 is reserved for the HPMM MOMSTATE DevCtl DigComp Type Lock Default PtRes Range E MOMSTAT Momentary Output States Defines which of the output states are Eng PB momentary Refer to the HPM Control Functions and Algorithms manual None for a detailed description HPM 0 None No momentary output states 1 Mom_1 State 1 is momentary if NOSTATES 2 or 3 2 Mom_0 State 0 is momentary if NOSTATES 2 3 Mom_2 State 2 is momentary if NOSTATES 3 4 Mom_1_2 State 1 and State 2 are momentary valid if NOSTATES 3 HPM Parameter Reference Dictionary M 9 8 97 MONPER
110. FL RegCtl Type Lock Default PtRes Range Logical Manual Mode Flag Indicates whether the current mode of the slot is Manual View N A HPM Off Current mode is other than Manual On Current mode is Manual MANOPCMD Type Lock Default PtRes Range E MANOPCM Manual Output Pulse Command Defines the output pulse command issued Oper by the operator for raising and lowering the output See also None MANOPTIM HPM 0 None No change 1 Raise_1 Raise output by 1 MANOPTIM each keystroke 2 Lower_1 Lower output by 1 MANOPTIM each keystroke 3 Raise_10 Raise output by 10 MANOPTIMs each keystroke 4 Lower_10 Lower output by 10 MANOPTIMs each keystroke HPM Parameter Reference Dictionary M 1 8 97 MANOPTIM MANOPTIM Type Lock Default PtRes Range Real Manual Output Pulse Time in seconds Defines the width of the raise or lower Eng PB output pulse that is issued by the operator 1 0 HPM 0 0 to 60 0 seconds MASKTIM DevCtl Type Lock Default PtRes Range Integer Masktime The amount of time the SECVAR parameter alarms are masked after Supr a change in the output state 0 HPM 0 to 1000 seconds MAXCNFPU HPM Box Type Lock Default PtRes Range Real Maximum Configurable PUs Specifies View N A HPM Helpful Hint MAXPU ProcMod Type Lock Default PtRes Range Real Maximum PUs Specifies the maximum PUs used for point processing View
111. GATRFL X1 CIDSTN LOCALMAN OPHILM PRIMMOD F X2 CISRC M OPHIPR F PSDLYFL X3 CNFMU MANMODFL OPHITP F PTDESC X4 CNFPU MODE OPLAFL F PTEXECST XEUHI MODEAPPL OPLOFL PTINAL XEULO PTORST HPM Parameter Reference Dictionary 3 6 8 97 3 10 3 10 Pid The parameters of the Pid control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F DEV NLGAIN PNTTYPE PVTRACK ADVDEVFL DEVHIFL NMODATTR PRGATRFL RAMPTIME ADVDEVPR F DEVHITP F NMODE PSDLYFL RARWSTS ADVDEVTP F DEVLOFL NOCINPTS PTDESC RATIO ADVSP F DEVLOPR F NOCOPTS PTEXECST RBOPT ADVSPP F DEVLOTP F NODENUM PTINAL RCASOPT ALENBST F ESWAUTO NODETYP PTORST RCASSHED ARWNET ESWCAS NORMCYCL PV REDTAG F ARWOP ESWENBST NRMATRFL PVALDB F RINITREQ ASPPROC F ESWMAN NRMMODFL PVALDBEU F RINITVAL ASSOCDSP EUDESC NTWKNUM PVAUTO RTHILM AUTMODFL EXTSWOPT OP PVAUTOST RTLOLM BADCTLFL GAINOPT OPCMD PVEUHI SAFEOP BADCTLOP GAPHI OPALDB F PVEULO SAFOPCMD BADCTLPR F GAPLO OPEU PVFORMAT SCHSTS BADPVFL F HIGHAL F OPHAFL F PVHHFL SHEDMODE BADPVPR F HIGHALPR F OPHIFL PVHHPR F SHEDTIME BCAMODFL INITMAN OPHILM PVHHTP F SHUTDOWN BIAS K OPHIPR F PVHIFL SLOTNUM BSHILM KEXT OPHISRC PVHIPR F SP BSLOLM KEYWORD OPHITP F PVHITPID SPEUHI CASMODFL KGAP OPLAFL F PVLLFL SPEULO CASREQ KLIN OPLOFL PVLLPR F SPFORMAT CIDSTN KNL OPLOLM PVLLTP F SPHIFL CISRC LASTPV OPLOPR F PVLOFL SPHILM CNFMU LMSRC OPL
112. Global Ram Byte Error GR_ADCD Global Ram Address Decode Test GR_ADDL Global Ram Additional Checks GR_CLRR Global Ram Scrub Incomplete 31_NR IOL Processor No Response or Failure 31_ALIV IOL Processor Transmitter Not Alive 31_ILTN IOL Processor Illegal Transition NMI_UNK Unknown NMI Request BADUCNN UCN Address Parity or Duplicate Address NR No Response From Other Processor MRFT Memory Reference Table Pattern Build Fail NOMTOS No MTOS Readout LLC_COMM LLC Communication Fatal Error UCNDRV UCN Driver Fatal Error RD_HREV Redundancy Card Version Revision Mismatch SW_ERROR Software Error MD_HREV Modem Card Version Revision Mismatch DA_PTRN Daughter Card Pattern Test DA_BYTE Daughter Card Byte Write Test DA_ADCD Daughter Card Address Decode DA_ADDL Daughter Card Additional Tests DA_CLRR Daughter Card Scrub Incomplete RD_SNPS Redundancy Card 96 Kw Snapshot Error RD_BSLK Redundancy Card Bus Lock Fail HPM Parameter Reference Dictionary P 20 8 97 PRVCTLFL PRVCTLFL Type E PMMHFST Previous HPMM Control Failure Lock View Default PtRes HPM Range NULL Unknown Error PWRDWYN Power is Off LR_PAR Local Ram Parity Error LR_LRAM Local Ram Error LR_CK Local Ram Check LR_EXC Local Ram Exception LR_HREV Local Ram Hardware Revision MM_HREV Memory Board Hardware Revision LR_TMR Local Ram Timer Error LR_PTRN Local Ram Pattern Check Error LR_BYTE Local Ram Byte Err
113. HOLD ABHRSTR ABHSHDN ACP F ALPRIOR F ANAME 1 3 ASSOCDSP ASTEP 1 3 ASTMT 1 3 AVGPU BADIOLPF CNFMU CNFPU CNTLLOCK CLBACK DIAGCMD FL 1 27 IOLPSERR IOLPSOPT LSTWHNER MAXPU MSGPEND NAME F NN 1 80 NODENUM NODETYP NOOVRRUN NTWKNUM OVERPHAS OVERSTAT OVERSTEP OVRRUNFL OVRRUNPR PERIOD PFDLYFL PHASE PHASEAL PHASETIM PHREMTIM PNTFORM PNTNODTY PNTTYPE PROCMOD PRIMMOD F PSDLYFL PTDESC RESTART RSTROPT RUNSTATE SEQERR SEQEXEC SEQMODE SEQNAME SEQOBJSZ SEQPR F SEQSLTSZ SLOTNUM SNAME 1 2 SPLOCK SSTEP 1 2 SSTMT 1 2 STATMENT STEP STR8 1 16 STR16 1 8 STR32 1 4 STR64 1 2 STRLEN STSMSG SUSPSTAT SUSPTIME TIME 1 4 UNIT USERID 2 16 UCN Network Listed below in alphabetical order are the parameters of the UCN Network Data Point system parameter NTWRKnn where nn the UCN number CHPINHWY HWYCTLST NIMADDR NIMREV NMSGTXT CLPZMXC LOADSCOP NIMDAY NIMVERS TIMESYNC CLPZMXP MSGTXT 0 15 NIMMONTH NIMYEAR UPGRADE 2 17 UCN Node The parameters of the UCN Node Data Point are listed below in alphabetical order They can be accessed as follows NMuuNnn parameter where uu is the UCN network number and nn is the UCN node number UCNLSB 1 50 NODESTS NTRQUAVG UCNRECHN CABLESTS NODESTAT NTRQUMAX UPGRADE CLPZMXC NODETYP NTRSPAVG UTSDRIFT CLPZMXP NPRQUAVG NTRSPMAX UTSNODE LOADSCOP NPRQUMAX TIMESYNC UTSTBCRV MDMHWREV NPRSPAVG TRATAVG UTSTIME MODNUM NPRSPMAX TRATMAX UTSTIMST NMSGTXT Thes
114. HPM Box Type String 2 HPMM Master Processor Card Hardware Revision Lock View Default Blank PtRes HPM Range HPM Parameter Reference Dictionary M 10 8 97 MSGPEND MSGPEND ProcMod Type Logical Sequence Message Pending Indicates that a confirmable sequence message Lock View requiring confirmation has been issued to the operator Default None PtRes HPM Range N A MSGTXT 0 15 NIM Type String 8 Status Message Text Indicates the text for the self defined enumeration of in an Array STSMSG MSGTXT 0 is always NONE and cannot be configured Refer to 0 15 Status Messages in the Control Functions and Algorithms Manual for more Lock PtBld information Default Blank PtRes NIM Range 0 to 15 MXRMPDEV RampSoak Type Real Maximum Ramp Deviation Value lIf the PV falls behind the SP during a ramp Lock Supr segment by more than the value of MXRMPDEV the ramping action is stopped Default NaN until the PV reaches the SP PtRes HPM Range gt 0 0 NaN MXSOKDEV RampSoak Type Real Maximum Soak Deviation Value lIf the PV falls behind the SP during a soak Lock Supr segment by more than the value of MXSOKDEYV the soak timer is stopped Default NaN until the PV reaches SP PtRes HPM Range gt 0 0 NaN HPM Parameter Reference Dictionary M 11 8 97 HPM Parameter Reference Dictionary M 12 8 97 N N Calcultr Type Lock Default PtRes Range Integer Number of Input
115. Honeywell High Performance Process Manager Parameter Reference Dictionary HP09 540 Tetal Plant Honeywell Implementation High Performance Process Manager 2 High Performance Process Manager Parameter Reference Dictionary HP09 540 Release 530 8 97 Tetal Plant Copyright Trademarks and Notices Copyright 1995 1997 by Honeywell Inc Revision 04 August 1 1997 While this information is presented in good faith and believed to be accurate Honeywell disclaims the implied warranties of merchantability and fitness for a particular purpose and makes no express warranties except as may be stated in its written agreement with and for its customer In no event is Honeywell liable to anyone for any indirect special or consequential damages The information and specifications in this document are subject to change without notice TotalPlant and TDC 3000 are U S registered trademarks of Honeywell Inc Other brand or product names are trademarks of their respective owners About This Publication This publication defines the parameters for the HPM data point types implemented through TotalPlant Solution TPS system network Release 500 530 TPS is the evolution of TDC 3000 Change bars are used to indicate paragraphs tables or illustrations containing changes that have been made to this manual effective with Release 530 Pages revised only to correct minor typographical errors contain no change bars
116. IMMONTH where uu UCN Network number NIMREV NIM Type Integer Revision Number of the NIM Personality Lock View Default 0 PtRes NIM Range N A Helpful Hint This parameter is accessed using NTWRKuu NIMREV where uu UCN Network number NIMVERS NIM Type Integer Version Number of the NIM Personality Lock View Default 0 PtRes NIM Range N A Helpful Hint This parameter is accessed using NTWRKuu NIMVERS where uu UCN Network number NIMYEAR NIM Type Integer Year in Which the NIM Personality was Created Lock View Default 0 PtRes NIM Range 0 99 Helpful Hint This parameter is accessed using NTWRKuu NIM YEAR where uu UCN Network number HPM Parameter Reference Dictionary N 6 8 97 NLFM NLFM Type Lock Default PtRes Range Integer Nonlinearity Form Defines the form of the nonlinear gain Supr 1 HPM Oorl NLGAIN Pid Type Lock Default PtRes Range Real Nonlinear Gain Defines the value of the nonlinear gain factor KNL Supr 0 0 HPM 0 0 to 240 0 NLOC VdtLdLag Type Lock Default PtRes Range Integer Number of Locations in Delay Table Eng 30 HPM 2 to 30 NLOGSLOT HPM Box Type Lock Default PtRes Range Integer Number of Logic Slots in the HPM Refer to the HPM Control Functions and PtBld Algorithms manual for a detailed description of HPM processing capacity 0 HPM 0 to 400 NMIN HiLoAvg
117. IS appears in half height text above the tag name on the Point Detail or Group Display for a point with ALENBEST set to Disable Range Displayed Logged Reported to EIP Enable Yes Yes Yes Disable No Yes Yes Inhibit No No No ALENBST should not be set to Disable or Inhibit for points critical to safe operations For Box Flag points this parameter applies to only slots 1 Reference See Engineer s Reference Manual in the Alarm Management section for more information on what should happen under different possible alarm actions NOTE The access lock for the ALENBST parameter is configurable through System Wide Values ALMOPT DigIn Type E ALMOPT Alarming Option Defines the alarming option for a digital input point whose Lock Eng PB DITYPE is Status Default None PtRes HPM Range None No alarms are to be detected 1 Offnorml Off Normal alarm if current PV state is not the PYNORMAL state PYNORMAL is defined by the STATETXT 0 or STATETXT 1 descriptor as configured by the user 2 ChngofSt An alarm is generated when the digital input changes state in either direction Note that IOP firmware must support Change of State Reporting HPM Parameter Reference Dictionary A 5 8 97 ALPRIOR ALPRIOR ProcMod Type E ALPRIOR Alarm Priority Defines the alarm priority for Process Module points Note that Lock Engr even when the alarm priority is Journal the alarm indicators still appear on the Defaul
118. Indicates that the PV negative rate View of change has exceeded the value established by the PVROCNTP parameter Off HPM Off No PV negative rate of change alarm On PV negative rate of change alarm HPM Parameter Reference Dictionary P 40 8 97 PVROCNPR PVROCNPR RegCtl RegPV Type Lock Default PtRes Range E ALPRIOR PY Negative Rate of Change Alarm Priority Defines the priority of the PV Engr negative rate of change alarm for this point Low NIM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated Helpful Hint PVROCNPR configuration requires PVROCNTP NaN PVROCNTP RegCtl RegPV Type Lock Default PtRes Range Real PV Negative Rate of Change Trip Point Defines the trip point for the PV Supr negative rate of change alarm for this point Operation is the same as for NaN PVROCPTP except for the direction of change HPM The maximum rate of change value must be less t
119. Integer HPMM I O Link Software Version View Blank HPM IOMACTYP 1 168 Type Lock Default PtRes Range E PMMDTY IOP Actual Type Actual type of IOP at module address View This should match the configured type None HPM None Not Configured LLAI Low Level Analog Input HLAI High Level Analog Input DI Digital Input DO Digital Output AO Analog Output HPMM HPM Module LLMUX Low Level Analog Input Multiplexer Also includes RHMUX Remote Hardened Analog Multiplexer STIM Smart Transmitter Interface Module PI Pulse Input HPM Parameter Reference Dictionary l 7 8 97 IOMCARD lIOMCARD 1 168 HPM Box Type Integer T O module card position for the acting primary secondary Lock View used for diagnostic displays Default N A nn 1 40 correspond to card positions of the 40 acting primaries PtRes HPM nn 129 168 correspond to card positions of the 40 acting secondaries Range 1 15 IOMCARDA 1 40 HPM Box Type Integer T O module A card position 1 40 specifies one of the 40 logical I O Lock PtBld modules The corresponding IOP must be connected to FTA connector Default 0 in IOP database A Applies to the primary IOP only per PKGOPT on GDF PtRes HPM Range 0 15 0 specifies Not Connected IOMCARDB 1 40 HPM Box Type Integer T O module B card position 1 40 specifies one of the 40 logical I O Lock PtBld modules The corresponding IOP must be connected
120. LTSZ parameters and is shown on the 0 HPMM Control Configuration display HPM gt 0 SUSPSTAT ProcMod Type Lock Default PtRes Range E SUSPST Suspend State View None HPM 0 None 2 Feedback 3 Wait 4 ConfMsg 5 InputMsg SUSPTIME ProcMod Type Lock Default PtRes Range Integer Suspension Timer tThe remaining time in minutes before the sequence View program resumes execution This timer is started when a sequence program 0 executes a wait statement HPM 0 to 32 767 minutes SVALDB DevCtl Type Lock Default PtRes Range E PVALDB SECVAR Alarm Deadband The deadband for the SECVAR alarm Engr PB One HPM 0 Half 1 2 of 1 of Engineering Unit range 1 One 1 of Engineering Unit range 2 Two 2 of Engineering Unit range 3 Three 3 of Engineering Unit range 4 Four 4 of Engineering Unit range 5 Five 5 of Engineering Unit range 6 EU Value is defined by SVALDBEU parameter SVALDBEU DevCtl Type Lock Default PtRes Range Real SECVAR Alarm Deadband in Engineering Units Indicates the alarm deadband Engr PB in engineering units when the SVALDB parameter EU 0 0 HPM Allowable Engineering Units HPM Parameter Reference Dictionary S 31 8 97 SVDESC SVDESC DevCtl Type Lock Default PtRes Range String _8 SECVAR Descriptor Defines the SECVAR parameter or secondary variable PtBld descriptor Blank HPM 8 Character String S
121. M block the mode and mode attribute are changed to Man and Oper respectively Range Off and the OP output is set equal to a predefined safe output value SAFEOP As On long as the SHUTDOWN flag is On the MODE MODATTR ESWENBST and OP parameter values cannot be changed When the SHUTDOWN flag is set to Off the control loop must be manually restarted Before a program sets this flag to the On state it should write into parameter SAFEOP a safe shutdown value of 0 100 or NaN which causes the last good OP value to be used A Logic Point or CL program must be used to reset the Shutdown Flag HPM Parameter Reference Dictionary S 12 8 97 SIO SIO DevCtl DigComp Type Logical Safety Override Interlock Flag Lock Engr Default Off PtRes HPM Range Off Override is not active On Override is active SIOALOPT DevCtl DigComp Type E OVRALOP SIO Safety Override Alarm Indicates the required action to be performed when Lock Eng PB a safety interlock occurs Default None PtRes HPM Range None No override alarming Auto_Rtn Return to normal when override is cleared Cnfm_Rqd Confirm to clear after interlock is cleared SIOALPR DevCtl DigComp Type E ALPIROR Override SIO Alarm Priority Indicates the alarm priority for the safety Lock Engr override Default NoAction PtRes NIM Range JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is report
122. MONPER HPM Box Type Integer Monitoring Period Specifies the monitoring period in seconds Lock Eng Default 3600 PtRes HPM Range 4 3600 must be in multiples of 4 seconds MONTH HPM Box Type Integer Current Month The value of the LCN date in the HPM Lock View Default N A PtRes HPM Range 1 to 12 January to December MOVPVFL Type Logical Moving PV Flag Indicates whether the PV is moving from one state to Lock View another state Default Off PtRes HPM Range Off PV is not moving On PV is moving MOVPVTXT HPM Box DevCtl DigComp Type String 8 Moving PV Text Descriptor Defines the state descriptor that is displayed when Lock PtBld the Digital Composite or Device Control point is changing states moving from Default MOVING one state to another or is in between states This descriptor defined on the PtRes NIM HPM box point is displayed for all digital composite or device control points in this HPM box if PVTXTOP defined on the Digital Composite or Device Control point OFF This parameter contains the text for a configured moving PV on a per point basis if the PVTXTOPT is ON Range The permissible character set for the up to eight character descriptor is as follows Alphabetics A Z uppercase only Numerics 0 9 Underscore _ MPCFWREV HPM Box Type String 2 HPMM Master Processor Card Firmware Revision Lock View Default Blank PtRes HPM Range MPCHWREV
123. N A HPM Parameter Reference Dictionary N 3 8 97 NEVTAVTG NEVTAVG HPM Box Type Lock Default PtRes Range Real Average number of Events per Second Average number of events generated View by the HPM per second 0 HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays NEVTMAX HPM Box Type Lock Default PtRes Range Real Maximum number of Events per Second Maximum number of events View generated by the HPM per second 0 HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays NFASTCTL HPM Box Type Lock Default PtRes Range Integer Number of Fast Regulatory Control Slots Fast slots are processed four times PtBld per second 0 HPM 0 to 100 cannot exceed NCTLSLOT NFASTDC HPM Box Type Lock Default PtRes Range Integer Number of Fast Digital Composite Slots Fast slots are processed four times PtBld per second 0 HPM 0 to 999 cannot exceed NDCSLOT NFASTDEV HPM Box Type Lock Default PtRes Range Integer Number of Fast Device Control Points Configured The number of fast device PtBld control points in an HPM Box data point Fast slots are processed four times 0 per second HPM 0 to 100 cannot exceed NDEVSLOT HPM Parameter Reference Dictionary N 4 8 97 NFASTLOG NFASTLOG HPM Box Type Integer Number of Fast Logic Slots Fast slots are processed four times per second Lock PtBld Def
124. Nodes to which UCN Responses are made Indicates View the maximum number of UCN nodes per second that this node is responding 0 to HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays NORSSEQ RampSoak Type Lock Default PtRes Range Integer Number of Ramp Soak Pairs in the Sequence Eng PB 2 HPM 2 to 12 NOSGATE DevCtl Type Lock Default PtRes Range Integer Number of Secondary Gates Indicates the number of secondary gates configured PtBld for a particular Device Control slot 0 HPM 0 to 2 NOSIOVRD DevCtl DigComp Type Lock Default PtRes Range Real Number of Safety Interlock Overrides The number of safety interlock overrides View that have accumulated since the most recent reset of maintenance statistics 0 0 HPM 0 No limit HPM Parameter Reference Dictionary N 19 8 97 NOSTATES NOSTATES DevCtl DigComp Type Lock Default PtRes Range Integer Number of Digital States Defines the number of states in this point PtBld e State 1 is the first active state 2 e State 0 is the inactive middle state HPM e State 2 is the second active state Refer to the HPM Control Functions and Algorithms manual for a detailed description 2 Two states can be configured STATE 0 and STATE 1 3 Three states can be configured STATE 0 STATE 1 and STATE 2 NOTRAAVG NIM HPM Box Type Lock Default PtRes Range Real Average number
125. O CYCLEOPT DEV DEVHIPR F DEVHIFL HPM Parameter Reference Dictionary DEVHITP F DEVLOFL DEVLOPR F DEVLOTP F ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT HIGHAL F HIGHALPR F HOLDCMD INITMAN KEYWORD LASTPV LOCALMAN MANMODFL MODATTR MODE MODEAPPL MODEPERM MODNUM MXRMPDEV MXSOKDEV NAME NMODATTR NMODE NOCINPTS NOCOPTS NODENUM NODETYP NORSSEQ NORMCYCL NRMATRFL NRMMODFL NTWKNUM NXTSOAKV OP OPEU OPHIFL OPHILM OPLOFL OPLOLM OPMCHLM OPRATRFL OPROCLM OPTOL OVERVAL F PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATRFL PRIMMOD PSDLYFL PTDESC PTEXECST PTINAL PTORST PV PVEUHI PVEULO 3 12 PVFORMAT PVP PVSTS RAMPTIME RARWSTS RATE1 RATE2 RATE RATE4 RATES RATE6 RATE7 RATES RATE RATE10 RATE11 RATE12 REDTAG F REMSOAKT RINITREQ RINITVAL S1 S1BGNTIM S1ENDTIM S1SEGID s2 S2BGNTIM S2ENDTIM S2SEGID SAFEOP SCHSTS SEGTYPE SHUTDOWN SLOTNUM SOAKT1 SOAKT2 SOAKT3 SOAKT4 SOAKT5 SOAKT6 SOAKT7 SOAKT8 SOAKT9 SOAKT10 SOAKT11 SOAKT12 SOAKV1 SOAKV2 SOAKV3 SOAKV4 SOAKV5 SOAKV6 SOAKV7 SOAKV8 SOAKV9 SOAKV10 SOAKV11 SOAKV12 SP SPP STDBYMAN STSMSG TVPROC UNIT 8 97 3 16 Ratio Control RatioCtl The parameters of the Ratio Control control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ADVDEVFL ADVDEVPR F ADVDEVTP F ADVSP F ADVSPP
126. OPT LIDESC LISRC 1 12 LMREV LMSRC lnputs gt 0 lnputs gt 0 lnputs gt 0 lnputs 1 lnputs 1 lnputs 2 lnputs 2 lnputs 2 lnputs 2 lnputs 2 lnputs gt 0 Outputs gt 0 lnputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 LOCALMAN LODSTN 1 2 LOENBL 1 2 LOGICSRC LOSRC 1 2 MAINDAT MAINTOPT MANMODFL MASKTIM MAXTIMOH MAXTIM1H MAXTIM2H MAXTRANO MAXTRAN1 MAXTRAN2 MODATTR MODE MODEAPPL MODEPERM MODNUM MOMSTATE MOVPVFL MOVPVTXT NAME NIO Nit NI2 NMODATTR NMODE NN NNINSET 1 10 NODENUM NODETYP NODINPTS NODOPTS NOLINPTS NOLOPTS NONECONF NONE_OP1 3 NOPGATE NORMCYCL NOSGATE NOSIOVRD NOSTATES NOTRANSO NOTRANS1 NOTRANS2 NRMATREL NSIO NTWKNUM OFFNRMFL OFFNRMPR F OP OPCMD OPFINAL OPRATRFL OROPT HPM Parameter Reference Dictionary Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Inputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 Outputs gt 0 2 4 OVRCTIM OVRDCONF OVRDDESC OVRDIOFL OVRD1FL OVRD2FL OVRDALOP OVRDALPR F OVRDSIFL PO P1 P2 PAUSETIM PERIOD PFDLYFL PGALGID 1 4 PGDSTN 1 4 PGPLSWTH 1 4 PGSO 1 4 PIALGID 1 12 PIDEADBD1 12 PINN 1 12 PISO 1 12 PISRC 1 12 PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATREL PRIMMOD F
127. ORMAT In this dictionary the parameter definitions are listed in alphabetical order according to the parameter name which can be up to eight characters in length Each parameter in this publication is defined using the format shown below for the ALMOPT parameter as an example The following paragraphs describe the entries that appear within each parameter definition ALMOPT DigIn Type e ALMOPT Alarming Option Defines the alarming option for a digital input point whose Lock Eng PB DITYPE is Status Default None PtRes APM Range 0 None No alarms are to be detected 1 Offnorml Off Normal alarm if current PV state is not the PYNORMAL state PVNORMAL is defined by the STATETXT O or STATETXT 1 descriptor as configured by the user 2 ChngofSt An alarm is generated when the digital input changes state in either direction Helpful Hint ALMOPT configuration requires DITYPE Status HPM Parameter Reference Dictionary 1 1 8 97 1 3 For many parameters the function of the parameter is described using the long name of the parameter Alarm Option followed by a description as shown in the above example Some parameters in this dictionary do not have functional descriptions following the long name this is because the long name of the parameter sufficiently describes the parameter function Type This entry is the data type that defines how the parameter is viewed by the system The following data types are used in this
128. OSRC PVLOTP F SPLOFL CNFPU LOCALMAN OPLOTP F PVLOPR F SPLOLM CODSTN MANMODFL OPMCHLM PVP SPOPT CONTCUT F MANOPCMD OPRATRFL PVROCNFL SPP CTLACTN MANOPTIME OPROCLM PVROCNPR F SPTOL CTLALGID MAXPULSE OPTOL PVROCNTP F SPTV CTLEQN MODATTR OVERVAL F PVROCPFL SPTVP CTRLINIT MODE PERIOD PVROCPPR F STDBYMAN CV MODEAPPL PFDLYFL PVROCPTP F STSMSG CVEUHI MODEPERM PIDFORM PVSGCHTP F T1 CVEULO MODNUM PNTFORM PVSOURCE F T2 DELCV NAME PNTMODTY PVSRCOPT F TVPROC NLFM PNTNODTY PVSTS UNIT PNTSTATE USERID HPM Parameter Reference Dictionary 3 7 8 97 3 11 Pid with External Reset Feedback PidErfb 3 11 The parameters of the Pid with External Reset Feedback control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ADVDEVFL ADVDEVPR F ADVDEVTP F ADVSP F ADVSPP F ALENBST F ARWNET ARWOP ASSOCDSP ASPPROC F AUTMODFL BADCTEL BADCTLOP BADCTLPR F BADPVFL F BADPVPR F BCAMODFL BIAS BSHILM BSLOLM CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLACTN CTLALGID CTLEQN CTRLINIT CV CVEUHI CVEULO DELCV HPM Parameter Reference Dictionary DEV DEVHIFL DEVHIPR F DEVHITP F DEVLOFL DEVLOPR F DEVLOTP F ESWAUTO ESWCAS ESWENBST ESWMAN EUDESG EXTSWOPT GAINOPT GAPHI GAPLO HIGHAL F HIGHALPR F INITMAN K K1 KEXT KEYWORD KGAP KLIN KNL LASTPV LOCALMAN MANMODFL MODATTR MOD
129. OUT3 OPOUT4 OPOUT5 OPTDIR OPTOL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PTDESC PTEXECST RCASOPT REDTAG F RINITREQ F SLOTNUM STDBYMAN UNIT 8 97 2 3 Array 2 3 The parameters of the Array Data Point are listed below in alphabetical order The Point Form parameter is set to Full AB_DATA1 DEVADDR NN PNTFORM STR64 AB_DATA2 ERRCODE NNDESC PNTNODTY STRDESC AB_DATA3 EXTDATA NNUMERIC PNTTYPE STRLEN AB_DATA4 FL NNSTIX PRIMMOD STRSTIX ASSOCDSP FLDESC NODENUM PTDESC STSMSG AUXDATA1 FLSTIX NODETYP SCANPRI TIME AUXDATA2 FTANUM NSTRING SLOTNUM TIMEDESC AUXDATAS INITREQ NTIME SPLOCK TIMESECS AUXDATA4 IOPNUM NTWKNUM STR8 TIMESTIX BADPVFL KEYWORD OVERLAP STR16 UNIT CNFMU NFLAG PERIOD STR32 USERID CNFPU 2 4 Box HPM Box The parameters of the High Performance Process Manager Box Data Point are listed below in alphabetical order ASSOCDSP FTAITYPE IOP MNFMDDAY NODFSTAT RELVERS BADPVTXT FTA2TYPE IOPIDAY MNFMDINF NOPTS RELREV CHPINOPR HOUR IOPIMON MNFMDMTH NORQUMAX RJTEMP CMFLTIME IOLASTS IOPIYEAR MNFMDINF NORSPAVG SAFOPCMD CMIDTXT IOLBSTS IOPNUM MNFMDMTH NORSPMAX SCANPER CNFPU IOLCHAER IOPSTR1 MNFMDSER NOTRAAVG SECOND CNFPUP IOLCHASL IOPSTR2 MNFMDYR NOTRAMAX SEQPRGSZ COMHOUR IOLCHBER IORECCHN MONPER NPARAVG SRQUTAVG COMMIN IOLCHBSL lIOSSTS MONTH NPARMAX SRSPTAVG CRIOLORN IOLCHERT IOSTKNDR MOVPVTXT NPMSLOT SRSPTMAX CRPPXORN IOLCMD IOTKNSTL MPCFWREV NPVSLOT STR8 CRUCNORN IOLHWREV LSIOLORN MPCHWREV NSTRING
130. P SPEUH SPEULO SPFORMAT SPHIFL SPHILM SPLOFL SPLOLM SPOPT SPP SPTV SPTOL SPTVP STDBYMAN STSMSG T1 T2 TVPROC UNIT USERID 3 12 8 97 3 13 PID Position Proportional PidPosPr 3 13 The parameters of the PID Position Proportional control algorithm are listed below in alphabetical order AUXUNIT F ADVDEVFL ADVDEVPR F ADVDEVTP F ADVSP F ADVSPP F ALENBST F ARWNET ARWOP ASPPROC F ASSOCDSP AUTMODFL BADCTLFL BADCTLOP BADCTLPR F BADPVFL F BADPVPR F BADPVR F BCAMODFL BIAS BSHILM BSLOLM CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLACTN CTLALGID CTLEQN CTRLINIT CYCLETIM DEADBAND DEADTIME HPM Parameter Reference Dictionary DELCV DEV DEVHIFL DEVHIPR F DEVHITP F DEVLOFL DEVLOPR F DEVLOTP F ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT GAINOPT GAPHI GAPLO HIGHAL F HIGHALPR F INITMAN K K1 KEXT KEYWORD KGAP KLIN KNL LASTPV LMSRC LOCALMAN LOWERTIM LOWRDSTN LOWRRATE MANMODFL MANOPCMD MANOPTIM MAXPULSE MINPULSE MODATTR MODE MODEAPPL MODEPERM MODNUM NAME NLFM NLGAIN NMODATTR NMODE NOCINPTS NOCOPTS NODENUM NODETYP NORMCYCL NRMATRFL NRMMODFL NTWKNUM OPCMD OPHIFL OPHISRC OPLOFL OPLOSRC OVERVAL F PERIOD PFDLYFL PIDFORM PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATRFL PRIMMOD F PSDLYFL PTDESC 3 10 PTEXECST PTINAL PTORST PV PVALDB F PVALDBEU F PVAUTO PVAUTOST PVE
131. P has been View exceeded Off HPM Off No DEVHI alarm On DEVHITP has been exceeded DEVHIPR RegCtl Type Lock Default PtRes Range E ALPRIOR Deviation High Alarm Priority Defines the priority of the deviation high Engr alarm Low NIM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated DEVHITP RegCtl Type Lock Default PtRes Range Real Deviation High Alarm Trip Point Defines the upper limit for the deviation Supr NaN HPM gt 0 0 NaN Helpful Hint Alarm occurs when the PV is higher than SP DEVHITP HPM Parameter Reference Dictionary D 7 8 97 DEVLOFL DEVLOFL RegCtl Type Lock Default PtRes Range Logical Deviation Low Alarm Flag Indicates whether the DEVLOTP has been View exceeded Off HPM Off DEVLOTP has not been exceeded On DEVLOTEP has been exceeded DEVLOPR RegCtl Type Lock Default PtRes Range E ALPRIOR D
132. PIYEAR HPM Box Type Lock Default PtRes Range Integer HPMM I O Link Personality Creation Date Year View 0 HPM N A IOPNUM Array Type Lock Default PtRes Range Integer Serial Interface IOP Module Number Defines the module number of the serial PtBld interface IOP N A HPM 1 to 127 lOPSTR1 1 40 HPM Box Type Lock Default PtRes Range String_64 IOP String for FTA 1 Contains user defined string data shown in the Box View Detail display such as the FTA application name its revision number and date Spaces NN 1 40 specifies the Serial Interface IOP module number SI N A lIOPSTR2 1 40 HPM Box Type Lock Default PtRes Range String_64 IOP String for FTA 2 Contains user defined string data shown in the Box View Detail display such as the FTA application name its revision number and date Spaces NN 1 40 specifies the Serial Interface IOP module number SI N A HPM Parameter Reference Dictionary l 15 8 97 IORECCHN IORECCHN HPM Box Type Lock Default PtRes Range E RECCHN T O Link Receive Cable The cable the I O module is currently listening on PtBld None HPM A I O module is listening on Cable A B I O module is listening on Cable B IOREDOPT 1 40 HPM Box Type Lock Default PtRes Range E REDOPT IOP Redundancy Option Indicates if an IOP is configured for redundancy PtBld NonRedun HPM 0 Redun 1 NonRe
133. PLOLM does not apply for the RampSoak algorithm SPOPT RegCtl Type E SPOPT Setpoint Option Lock Eng PB Default None PtRes HPM Range O None No specialized options are available 1 TV Target Value processing provides a smooth transition from an existing setpoint to a desired setpoint 2 Asp Advisory setpoint processing for Advisory Deviation Alarming Helpful Hint 1 If component has been entered for the PNTFORM parameter the Asp option cannot be configured 2 SPOPT does not apply for the RampSoak algorithm SPP RegCtl Type Real Setpoint in Percent Lock View Default N A PtRes HPM Range N A SPTV RegCtl Type Real Setpoint Target Value in Engineering Units Lock Oper Default N A PtRes HPM Range SPLOLM to SPHILM NaN Helpful Hint SPTV change requires SPOPT TV HPM Parameter Reference Dictionary S 20 8 97 SPTVP SPTVP RegCtl Type Real Setpoint Target Value in Percent Lock View Default N A PtRes HPM Range gt 90 0 Helpful Hint SPTVP change requires SPOPT TV SRQUTAVG NIM HPM Box Type Real Average UCN Store Request Trip Time The average time in milliseconds Lock View that it takes to receive a response to this node s UCN store request Default NaN PtRes HPM Range N A Helpful Hint This statistic can be viewed on the Toolkit Displays SRQUTMAX NIM HPM Box Type Real Maximum UCN Store Request Trip Time The maximum time in Lock Vi
134. PRES FREQ6050 IOMACTYP IOMFWREV IOMHWREV IOMLHFST IOMOPER IOMTYPE IOMSTS IONTOKEN IOPSTR1 IOPSTR2 IORECCHN LINEPERD MAXSLOTS NODETYP PIUOTDCF RJRAW SLOTOSF STDBYSTS SWTCHACT WARMSTRT Some of the parameters in the above listing are arrays and are not defined in this publication 2 14 Logic The parameters of the Logic Data Point otherwise referred to as the Logic Slot are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP C1DESC C2DESC C3DESC C4DESC C1FL C2FL C3FL C4FL HPM Parameter Reference Dictionary C2SRC C3SRC C4SRC CNFERRFL CNFMU CNFPU CONTCUT DEADBAND 1 24 DLYTIME 1 24 EIPPCODE F FL1 12 GENDESC F 1 12 HIGHAL HIGHALPR L1 12 LIBADOPT LISRC 1 12 LODSTN 1 12 LOENBL 1 12 LOGALGID 1 24 LOGMIX LOSRC 1 12 MODNUM NAME NN1 8 NODENUM NODESC F NODETYP NOLINPTS NOLOGBLK NOLOPTS 2 9 NORMCYCL NTWKNUM PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PRIMMOD F PRMDESC 1 12 F PSDLYFL PTDESC PTEXECST PTINAL R1 1 24 R2 1 24 S1 1 24 S1REV 1 24 S2 1 24 S2REV 1 24 S3 1 24 S3REV 1 24 S4 1 24 SCHSTS SLOTNUM SO 1 24 STSMSG UNIT USERID 8 97 2 15 Process Module ProcMod 2 15 The parameters of the Process Module Data Point are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full ABHEMSD ABH
135. PTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F SCHSTS SELINP SLOTNUM STSMSG TF UNIT USERID 8 97 3 7 Incremental Summer IncrSum The parameters of the Incremental Summer control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ARWNET ARWOP ASSOCDSP AUTMODFL BADCTLFL BADCTLPR F BCAMODFL CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLALGID CTRLINIT CV CVEUHI CVEULO DELCV ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT HIGHAL F HIGHALPR F INITMAN K1 K2 K3 K4 KEYWORD LOCALMAN M MANMODFL MODATTR MODE MODEAPPL 3 8 Middle of 3 MidOf3 MODEPERM MODNUM NAME NMODATTR NMODE NOCINPTS NOCOPTS NODENUM NODETYP NORMCYCL NRMATRFL NRMMODFL NTWKNUM OP OPALDB F OPEU OPHAFL F OPHIFL OPHILM OPHIPR F OPHITP F OPLAFL F OPLOFL OPLOLM OPLOPR F OPLOTP F OPMCHLM OPRATRFL OPROCLM OPTOL OVERVAL F PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATRFL PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PTORST RARWSTS RCASOPT RCASSHED REDTAG F RINITREQ RINITVAL SAFEOP SCHSTS SHEDMODE SHEDTIME SHUTDOWN SLOTNUM STDBYMAN STSMSG UNIT USERID X1 X2 X3 X4 XEUHI XEULO 3 7 The parameters of the Middle Of 3 PV algorithm are listed below in alphabetical order F indicates that the pa
136. PV Default NoClamp value status PVSTS is marked Uncertain and the PV is set equal to the PtRes HPM extended limit that was violated Range 0 NoClamp No clamping of the PV value 1 Clamp Clamp PV value at range extension limit PVEQN FlowComp Type E ALGOEQN PV Equation Type Defines the equation type EqA EqE to be used for this Lock PtBld PV algorithm Refer to the HPM Control Functions and Algorithms manual Default FEgA for more information PtRes HPM Range Comp Inputs Type of Compensation 0 EgA G Mass Volumetric flow of liquid 1 EqB P and T Mass flow of gases and vapors 2 EqC G P and T Mass flow of gases and vapors w specific gravity 3 EqD G P and T Volumetric flow of gases and vapors 4 EqE P T X and Q Mass flow of steam G measured or calculated specific gravity or molecular weight P measured actual gage pressure T measured actual temperature X measured actual steam compressibility and Q measured actual steam quality PVEQN HiLoAvg Type E ALGOEQN PV Equation Type Defines the equation type EqA EqC to be used for this Lock Eng PB PV algorithm Refer to the HPM Control Functions and Algorithms manual Default EgA for more information PtRes HPM Range 0 EgA Select and identify highest of up to six inputs 1 EqB Select and identify lowest of up to six inputs 2 EqC Calculate the average of up to six inputs PVEQN HPM Parameter Reference Dictionary P 31 8 97 PVEQN MidOf3
137. Present Flag Lock View Default N A PtRes HPM Range Off On CTLREV Type Integer HPMM Control Personality Revision Lock View Default N A PtRes HPM Range N A CTLVERS Type Integer HPMM Control Personality Version Lock View Default PtRes HPM Range N A CTLYEAR Type Integer Creation Year of HPMM Control Personality Lock View Default N A PtRes HPM Range 0 99 CTRLINIT RegCtl Type Logical Control Initialization Request Flag A user written program or a logic slot can Lock Prog cause a data point to initialize by setting the point s control initialization request Default Off flag to On PtRes HPM Range Off On HPM Parameter Reference Dictionary C 24 8 97 CURCOMFL CURCOMFL Type Lock Default PtRes Range E PMMHEST Current HPMM Communications Board Failure View HPM Null Unknown Error Pwrdwn Power Down Lr_Par Parity Error Lr_Lram Local Ram Error Lr_Ck Local Ram Check Lr_Exc Local Ram Exception Lr_Hrev Local Ram Hardware Revision Mm_Hrev Memory Board Hardware Revision Lr_Tmr Local Ram Timer Error Lr_Ptrn Local Ram Pattern Check Error Lr_Byte Local Ram Byte Error Lr_Adcd Local Ram Address Decode Test Lr_Addl Local Ram Additional Check Lr_Clrr Local Ram Scrub Incomplete Sr_Par Shared Ram Parity Sr_Ptrn Shared Ram Pattern Check Error Sr_Adcd Shared Ram Address Decode Test Sr_Addl Shared Ram Additional Checks Gr_Par Gl
138. PtRes Range String_16 Physical Node Name Assigned to IOP A Returns the Fieldbus physical View node name assigned to IOPA Parameter_Invalid IOP HPM Parameter Reference Dictionary P 14 8 97 PNAMIOPB PNAMIOPB Type Lock Default PtRes Range String_16 Physical Node Name Assigned to IOP B Returns the Fieldbus physical View node name assigned to IOPB Parameter_Invalid IOP PNTFORM Type Lock Default PtRes Range E PNTFORM Point Form Defines the form of the data point that is implemented Refer View PB to the HPM Control Functions and Algorithms manual for a detailed Full description of this function HPM 0 Full Point is fully displayed and alarmed 1 Componnt Point is partially displayed but not alarmed PNTMODTY Type Lock Default PTRes Range E PMMDTY Point s Module Type Defines where the data point resides Control points View such as DigComp RegPV RegCtl Logic Process Module Array Box N A Flags Box Numerics and Box Timers reside in the HPMM NIM AO Analog Output AO_16 Analog Output high density DI Digital Input DO Digital Output DO_32 Digital Output high density HLAI High Level Analog Input LLAI Low Level Analog Input STI8M Smart Transmitter Interface NotConfg Not Configured PI Pulse Input HPMM High Performance Process Manager Module LLMUX Low Level Analog Input Multiplexer All references to LLMUX also apply to RHMUX exc
139. Ptrn Local Ram Pattern Check Error Lr_Byte Local Ram Byte Error Lr_Adcd Local Ram Address Decode Test Lr_Addl Local Ram Additional Checks Lr_Clrr Local Ram Scrub Incomplete Sr_Par Shared Ram Parity Sr_Ptrn Shared Ram Pattern Check Error Sr_Adcd Shared Ram Address Decode Test Sr_Addl Shared Ram Additional Checks Gr_Par Global Ram Parity Gr_Ptrn Global Ram Pattern Check Error Gr_Byte Global Ram Byte Error Gr_Adcd Global Ram Address Decode Test Gr_Addl Global Ram Additional Checks Gr_Clrr Global Ram Scrub Incomplete 31_Nr IOL Processor No Response or Failure 31_Aliv IOL Processor Transmitter Not Alive 31_Ilatn IOL Processor Illegal Transition Nmi_Unk Unknown NMI Request Baducnn UCN Address Parity or Duplicate Address Nr No Response From Other Processor Mrft Memory Reference Table Pattern Build Fail Nomtos No MTOS Readout Llc_Comm LLC Communication Fatal Error Uendrv UCN Driver Fatal Error Rd_Hrev Redundancy Card Version Revision Mismatch Sw_Error Software Error Md_Hrev Modem Card Version Revision Mismatch Da_Ptrn Daughter Card Pattern Test Da_Byte Daughter Card Byte Write Test Da_Adcd Daughter Card Address Decode Da_Addl Daughter Card Additional Tests Da_Clrr Daughter Card Scrub Incomplete Rd_Snps Redundancy Card 96 Kw Snapshot Error Rd_Bslk Redundancy Card Bus Lock Fail HPM Parameter Reference Dictionary C 26 8 97 CURIOLFL CURIOLFL Type
140. RDRVS Type Integer Rdr Version Lock View Default PtRes HPM Range HPM Parameter Reference Dictionary C 16 8 97 COMREV Type Lock Default PtRes Range Integer View N A HPM N A COMVERS Type Lock Default PtRes Range Integer View N A HPM N A COMYEAR Type Lock Default PtRes Range Integer View N A HPM 0 99 CONTCUT Type Lock Default PtRes Range HPM Parameter Reference Dictionary Logical Prog Off HPM COMREV HPMM Communications Software Revision HPMM Communications Software Version Creation Year of HPMM Communications Personality Contact Cut Out Defines whether alarms detected at this data point are to be cut out to prevent this data point s alarms from being reported to the operator The alarms continue to be reported to the AM or CM through the EIPPCODE parameter CONTCUT can be used to cutout alarms on a point when the alarms are generated because of specific conditions at other points which themselves have alarms As an example the user could configure a logic point so that the logic point would monitor the nuisance alarm conditions and then store the contact cutout state of this point using an output connection It can also be stored by the sequence program in the HPM or the AM which could monitor the process conditions to determine when the alarms have to be suppressed Off Alarms are not cut out On Alarms are cut out Helpful Hint
141. RITHM TYPE In addition to the parameter definitions this dictionary also contains listings of the parameters that are applicable to each HPM point type and algorithm type Parameters per point type are defined in Section 2 parameters per algorithm type are defined in Section 3 1 5 FULL POINTS AND COMPONENT POINTS Separate functional elements of the HPM are used to implement various parts of typical control loops and control strategies Each of these functional elements can be assigned a user defined tag name to allow for location independent reference to the data associated with that function For example point tags are assigned by the user for analog input and analog output slots The I O Processor data engineering unit range for inputs characterization option for outputs etc is configured as part of the point build process for these points A separate tag is configured for each regulatory control RegCtl slot that is linked to the assigned analog I O tags through input output connections HPM Parameter Reference Dictionary 1 4 8 97 1 6 The HPM provides a configurable parameter called PNTFORM Point Form that allows the user to define which points are to be used as the primary operator interface for point data The PNTFORM parameter provides the user with two choices for point form Full and Component Points that are configured as having Full point form include alarm related parameters and sometimes some other miscellaneous
142. RQUAVG 0 64 NIM HPM Box Type Real Average number of UCN Transaction Requests A verage number of UCN Lock View transaction requests per second issued from this node to node n Default 0 PtRes HPM Range N A NOTE The node address n is typically an odd number 1 3 5 63 Using an even number results in a Parameter_Invalid error Using n 0 returns average total number of transaction requests to all other nodes NTRQUMAX 0 64 NIM HPM Box Type Real Maximum number of UCN Transaction Requests Maximum number of Lock View UCN transaction requests per second issued from this node to node n Default 0 PtRes HPM Range N A NOTE The node address n is an odd number 1 3 5 63 Using an even number results in a Parameter_Invalid error Using n 0 returns maximum total number of transaction requests to all other nodes NTRSPAVG 0 64 NIM HPM Box Type Real Average number of UCN Transaction Responses A verage number of UCN Lock View transaction responses per second issued from this node to node n Default 0 PtRes HPM Range N A NOTE The node address n is an odd number 1 3 5 63 Using an even number results in a Parameter_Invalid error Using n 0 returns average total number of transaction responses to all other nodes HPM Parameter Reference Dictionary N 26 8 97 NTRSPMAX NTRSPMAX 0 64 NIM HPM Box Type Real Maximum number of UCN Transaction Responses
143. RSel BYPASS4 parameters For the Switch algorithm this parameter allows the operator to specify the input X1 X4 to the algorithm Refer to the HPM for Switch Control Functions and Algorithms manual for a detailed description SelectX1 HPM 1 SelectX1 2 SelectX2 3 SelectX3 4 SelectX4 SENSRTYP HLAI amp LLAI Type Lock Default PtRes Range E SENSRTY Sensor Type Defines the type of field sensor connected to the Field PtBld Termination Assembly FTA 0_100_mV Thermocouple and RTD sensor 15_V types do not apply for HLAI P4_2_V and slidewire sensor types do not apply HPM for LLAI Refer to PVCHAR for more information 0 1_5_V 1 to 5 volts 1 0_5_V 0 to 5 volts 2 0_100_mV 0 to 100 millivolts 3 Thermepl Thermocouple 4 RTD Resistance Temperature Device 5 P4_2_V 0 4 to 2 volts 6 Slidwire Slidewire Resistance Device HPM Parameter Reference Dictionary S 6 8 97 SENSRTYP SENSRTYP LLMUX RHMUX Type Lock Default PtRes Range E SENSRTY Sensor Type Defines the type of field sensor connected to the Field PtBld Termination Assembly FTA Refer to PVCHAR for more information 0 100 mV HPM 2 0_100_mV 0 to 100 millivolts 3 Thermepl Thermocouple 4 RTD Resistance Temperature Device NOTE RTD is not supported by RHMUX SENSRTYP STI Type Lock Default PtRes Range E SENSRTY Sensor Type Defines the Smart Transmitter type Refer to PVCHAR for PtBld more inform
144. SOE events HPM Parameter Reference Dictionary T 3 8 97 TLD TLD VdtLdLag Type Lock Default PtRes Range Real Lead Time Constant in Minutes Defines the lead compensation time constant Supr in minutes A 0 zero entry specifies no lead compensation 0 0 minutes HPM 1440 0 to 1440 0 minutes TLG1 TLG2 VdtLdLag Type Lock Default PtRes Range Real Lag Time Constant Supr 0 0 minutes HPM 0 0 to 1440 0 minutes 0 specifies no lag compensation TMCMD 1 64 HPM Box Type Lock Default PtRes Range E COMMAND Timer Command An array of commands issued to the 64 Timer data points Oper N A HPM 0 None A command has not been issued to the timer 1 Start Starts the timer 2 Stop Stops the timer 3 Reset Resets the timer to 0 4 RestStrt Resets the timer to 0 and starts the timer TMPV 1 64 Timer Type Lock Default PtRes Range Integer Timer PV Indicates the current elapsed time of the Timer data point in View seconds or minutes 0 HPM gt 0 TMRV 1 64 Timer Type Lock Default PtRes Range Integer Timer RV Indicates the remaining time TMSP minus TMPV for the Timer View data point 0 HPM gt 0 TMSO 1 64 Timer Type Lock Default PtRes Range Logical Timer Status Output Indicates the current state of the timer output View Off HPM Off TMPV TMSP elapsed time has not reached the preset time On
145. Supr 0 HPM 0 to 32767 NNSTIX Array Type Lock Default PtRes Range Real Numeric Array Start Index Defines the start index in Box NN variables or a PtBld serial interface connected device 0 HPM 0 to 99 999 When EXTDATA IO_NN 0 can be valid device index 0 to Box parameter NNUMERIC When EXTDATA IO_NN 0 indicates no numerics are configured NNUMERIC HPM Box Type Lock Default PtRes Range Integer Number of Numerics in HPM Box Data Point The number of box numerics is PtBld determined in intervals of 16 numerics 0 HPM 0 to 16 384 NNUMERIC Array Type Lock Default PtRes Range Integer Number of Numerics in Array Point NN Array Defines the number of PtBld numerics mapped from either the HPM box EXTDATA IO_NN or a serial 0 interface IOP connected device EXTDATA IO_NN For external data the valid HPM range depeneds on how numeric data is organized in the device 0 16 Floats 0 32 Integers 0 64 Byte Integers When EXTDATA IO_NN 0 to 240 When EXTDATA IO_NN HPM Parameter Reference Dictionary N 10 8 97 NOCINPTS NOCINPTS RegCtl Type Lock Default PtRes Range Integer Number of Control Input Connections Defines the number of control input PtBld connections for this algorithm Based on CTLALGID CTLEQN M HPM 0 to4 NOCOPTS RegCtl Type Lock Default PtRes Range Integer Number of Control Output Connections Define
146. Supr when the value of input parameter P1 falls below the limit specified its value is 0 0 replaced by 0 0 HPM gt 0 0 NaN Cutoff limit is not applicable CUTOFFLM VdtLdLag Type Lock Default PtRes Range CV Type Lock Default PtRes Range Real Zero Flow Belt Speed Cutoff Limit Allows the user to specify a cutoff limit Supr for equations C and D NaN HPM gt 0 0 NaN Bypasses the limit check Real Calculated Variable The result calculated value of the calculation of the Prog control algorithm The value can be in percent or in engineering units depending NaN on the control algorithm HPM N A HPM Parameter Reference Dictionary C 28 8 97 CVEUHI CVEUHI Type Real Calculated Value s High Limit in Engineering Units Lock Engr Default 100 0 GPM PPH etc PtRes HPM Range gt CVEULO CV ranges track X input ranges if CTLALGID AutoMan ORSel IncrSum or Switch For CTLALGID PidErfb and RampSoak CV ranges are configurable For CTLALGID Pid Pidff and RatioCtl if NOCOPTS 0 then the CV ranges are configurable otherwise the CV ranges track the ranges of the secondary output connection CVEULO Type Real Calculated Value s Low Limit in Engineering Units Lock Engr Default 0 0 GPM PPH etc PtRes HPM Range lt CVEUHI Helpful Hint Same as above for CVEUHI CYCLEOPT RampSoak Type E CYCLOPT Ramp Soak Cycle Option Defines whether th
147. Switch see also SIM_TXT Lock Prog Default On PtRes HPMM Range Off Simulation indicator is not required to be displayed On Simulation indicator is required to be displayed HPM Parameter Reference Dictionary D 9 8 97 DISRC 1 2 DISRC 1 2 DigComp DevCtl Type Lock Default PtRes Range DITYPE Type Lock Default PtRes Range Universal Digital Composite and Device Control Input Connection Source Specify the Ent Prm sources whose values are to be fetched and delivered to Digital Composite data PtBld point inputs D1 and D2 The source can be specified using the null null Tagname Parameter format or the hardware reference address format Refer to HPM the HPM Control Functions and Algorithms manual for a detailed description Use Tagname Parameter format for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible input connection sources are a DigIn slot Tagname PVFL b DigOut slot Tagname SO c Logic slot Tagname SO nn where nn 1 24 d
148. T NODENUM OPROCLM RINITVAL BADCTLOP ESWMAN NODETYP OPTOL SAFEOP BADCTLPR F EUDESC NORMCYCL OVERVAL F SCHSTS BCAMODFL EXTSWOPT NRMATRFL PERIOD SHEDMODE CASMODFL HIGHAL F NRMMODFL PFDLYFL SHEDTIME CASREQ HIGHALPR F NTWKNUM PNTFORM SHUTDOWN CIDSTN INITMAN OP PNTMODTY SLOTNUM CISRC K OPALDB F PNTNODTY STDBYMAN CNFMU K1 K2 K3 OPEU PNTSTATE STSMSG CNFPU KEYWORD OPHAFL F PNTTYPE UNIT CODSTN LOCALMAN OPHIFL PRGATRFL USERID CONTCUT F MANMODFL OPHILM PRIMMOD F X1 X2 X3 MODATTR OPHIPR F PSDLYFL PTDESC 3 10 Override Selector ORSel The parameters of the Override Selector control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F CODSTN MODEPERM OPLOLM RARWSTS ALENBST F CONTCUT F MODNUM OPLOPR F RCASOPT ARWNET CTALGID NAME OPLOTP F RCASSHED ARWOP CTLEQN NMODATTR OPMCHLM REDTAG F ASSOCDSP CTRLINIT MODE OPRATRFL RINITREQ AUTMODFL CV NOCINPTS OPROCLM RINITVAL BADCTLFL CVEUHI NOCOPTS OPTOL SAFEOP BADCTLOP CVEULO NODENUM OROFFSET SCHSTS BADCTLPR F ESWAUTO NODETYP OROPT SELXINP BCAMODFL ESWCAS NORMCYCL OVERVAL F SHEDMODE BYPASS ESWENBST NRMATRFL PERIOD SHEDTIME BYPASSX1 ESWMAN NRMMODFL PFDLYFL SHUTDOWN BYPASSX2 EUDESC NTWKNUM PNTFORM SLOTNUM BYPASSX3 EXTSWOPT OP PNTMODTY STDBYMAN BYPASSX4 HIGHAL F OPALDB F PNTNODTY STSMSG BCAMODFL HIGHALPR F OPEU PNTSTATE UNIT CASMODFL INITMAN OPHAFL F PNTTYPE USERID CASREQ KEYWORD OPHIFL PR
149. TE HPM Box Type E PMMSNRT Scan Rate Defines the number of times that all slots of a particular type are Lock PtBld scanned and processed Refer to the HPM Control Functions and Algorithms Default RegiLog1 manual for information on how to determine the processing capacity of the PtRes HPM HPM During the load of the HPM Box Data point the point mix number of points and box variables and the scan rate are written to the HPMM by the store of the SCANRATE parameter Range RegCtl amp RegPV Logic DigComp amp DevCtl ProcMod Scan Freq Scan Freq Scan Freq 0 Null 1 RegiLog1 1 second 1 second 1 second 2 Reg1Log2 1 second 1 2 second 1 second 3 ReglLog4 1 second 1 4 second 1 second 5 Reg2Log2 1 2 second 1 2 second 1 second 6 Reg2Log4 1 2 second 1 4 second 1 second 8 Reg4Log4 1 4 second 1 4 second 1 second If a new point mix or anew SCANRATE is loaded from the DEB the following items should be noted Before making changes to the point mix or SCANRATE any configured points being removed due to a reduction in the point mix should first be deleted from the system Any other currently configured points are preserved in the new point mix the point database is not defaulted If the SCANRATE or any part of the point mix is rejected by the HPMM then the HPMM database remains unchanged the SCANRATE and the point mix also remain unchanged If the SCANRATE and the point mix are equivalent to the previous values
150. Type Lock Default PtRes Range Integer Minimum Number of Good Inputs Defines the minimum number of valid Supr inputs PV status is good or uncertain to this algorithm 1 HPM 1 to N N is the number of inputs selected by N parameter HPM Parameter Reference Dictionary N 7 8 97 NMODATTR NMODATIR RegCtl Type Lock Default PtRes Range E MODATTR Normal Mode Attribute Defines whether an operator or a program can change Engr certain parameters such as the mode SP or OP of a data point when the None point is in the normal mode HPM 0 Operator MODATTR can be set equal to Operator 1 Program MODATTR can be set equal to Program 2 Normal 3 None MODATTR is not affected by this parameter Helpful Hint If NMODATTR Operator or Program and the normal mode button on the Operator s keyboard is pressed MODATTR NMODATTR If NMODATTR is to be changed the engineer must change it NMODE AnalgOut Type Lock Default PtRes Range E MODE Normal Mode Allows user to define the normal mode for this data point Engr PB None HPM 0 None No configured normal operating mode 1 Man Manual is configured normal mode 2 Cas Cascade is configured normal mode NMODE DevCtl DigComp Type Lock Default PtRes Range E MODE Normal Mode Allows user to define the normal mode for this data point View Man HPM 1 Man Manual is the normal operating mode NMODE RegCtl
151. UHI PVEULO PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTRACK RAISDSTN RAISETIM RAISRATE RAMPTIME RARWSTS RATIO RBOPT RCASOPT RCASSHED REDTAG F RINITREQ RINITVAL RP RT RTHILM RTLOLM SAFEOPCMD SCHSTS SHEDMODE SHEDTIME SHUTDOWN SLOTNUM SP SPEUHI SPEULO SPFORMAT SPHIFL SPHILM SPLOFL SPLOLM SPOPT SPP SPTOL SPTV SPTVP STDBYMAN STSMSG Ti T2 TVPROC UNIT USERID 8 97 3 14 Position Proportional PosProp The parameters of the Position Proportional control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ADVDEVFL ADVDEVPR F ADVDEVTP F ADVSP F ADVSPP F ALENBST F ARWNET ARWOP ASPPROC F ASSOCDSP AUTMODFL BADCTLFL BADCTLOP BADCTLPR F BADPVFL F BADPVR F BCAMODFL CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLALGID CTRLINIT CYCLETIM DEADBAND DEADTIME DEV DEVHIFL HPM Parameter Reference Dictionary DEVHIPR F DEVHITP F DEVLOFL DEVLOPR F DEVLOTP F ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT HIGHAL F HIGHALPR F INITMAN KEYWORD LASTPV LMSRC LOCALMAN LOWERTIM LOWRDSTN LOWRRATE LTIMHILM MANMODFL MANOPCMD MANOPTIM MA
152. Used to bypass all defaults for IOP File Card positions Helpful Hints Parameter NODENUM must be equal to an odd number no matter which option is selected for PKGOPT During Node Specific configuration if you choose Redun_IO you must type in file and card numbers for the IOP cards Refer to the tables below or the HPM Node Specific Configuration Form if necessary An HPMM can be operated as a non redundant node independent of the PKGOPT selected The options are illustrated or discussed further in the following pages HPM Parameter Reference Dictionary P 7 8 97 PKGOPT REDUN Left File Right File H H P P M IOP Cards M IOP Cards M M 182 3 7 9 amp 10 11 15 The Primary and Secondary HPMM Cards must be in Left File Card slots 1 amp 2 and Right Card File Card slots 9 amp 10 File 2 File 3 l IOP Cards IOP Cards 1 15 1 15 The File and Card position of the IOPs are defaulted as follows Card Slot Card Slot IOM A 6 10 File H File IOMA 4 5 1 3 7 IOMA 11 25 11 15 IOM A 26 40 NOTE To operate the HPMM as non redundant configure PKGOPT REDUN as above but install only one of the HPMM card sets above The backplane slot positions vacated by the second HPMM cards can be used to house IOP cards if necessary HPM Parameter Reference Dictionary P 8 8 97 PKGOPT REDUN_2F File 1 File 2 File 3 H H y IOP Cards F IOP Cards IOP Cards M M D ee ee ee A ee 1 amp 2 3 15 1 amp 2 3 15
153. V Filter Lag Time in Minutes Defines the filtering time lag to be used after Lock Supr the PV range has been checked A value of 0 0 specifies that the PV is not Default 0 0 minutes delayed PtRes HPM Range 0 0 to 60 0 minutes TIERTYPE HPM Box Type E TIERTYP HPMM Tier Type Lock View Default PtRes HPM Range TIME 1 4095 HPM Box Type Time Box Time Variables The upper limit of this array is determined by the NTIME Lock Oper parameter The LCN index limit is 4 095 while the limit on the UCN is 4096 Default 0 seconds Array points may be used to address Times with an index greater than 4095 PtRes HPM Range N A TIME i Array Type Time Array Point Time Variables Times are mapped from the HPM Box defined by Lock Determined by the TIMESTIX and NTIME parameters SPLOCK parameter Default N A PtRes HPM Range 1 lt i lt Array parameter NTIME TIME 1 4 ProcMod Type Time Local Time Variables Four local Time variables are available in each Process Lock Determined by Module point These variables are different than the HPM Box Time variables SPLOCK parameter Default 0 seconds PtRes HPM Range N A HPM Parameter Reference Dictionary T 2 8 97 TIMEBASE TIMEBASE Timer Type Lock Default PtRes Range E TIMEBASE Time Base Defines the time base to be used for the Timer data point Engr Seconds HPM 0 Seconds 1 Minutes TIMEBASE Totalizr Pl Type Lock
154. VEUDESC DevCtl Type Lock Default PtRes Range String_8 SECVAR Engineering Unit Descriptor Defines the engineering unit descriptor PtBld for the SECVAR parameter or secondary variable descriptor Blank HPM 8 Character String SVEUHI DevCtl Type Lock Default PtRes Range Real SECVAR Range High Defines the high engineering unit range for the Engr PB SECVAR parameter NaN HPM lt gt NaN SVEULO DevCtl Type Lock Default PtRes Range Real SECVAR Range Low Defines the low engineering unit range for the Engr PB SECVAR parameter NaN HPM lt gt NaN SVHHFL DevCtl Type Lock Default PtRes Range Logical SECVAR High High Alarm Flag View Off HPM Off SECVAR parameter is below the SVHHTP parameter minus the deadband On SECVAR parameter has exceeded the SVHHTP parameter SVHHPR DevCtl Type Lock Default PtRes Range E ALPIOR SECVAR High High Alarm Priority Engr Low NIM JniPrint Alarm is historized reported to printer but not annunciated Printer Reported to printer only Emergncy Reported to all alarm summary displays High Reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Reported to Unit Alarm Summary Display Journal Logged but not reported to Universal Stations NoAction Alarm is not reported to the system HPM Parameter Reference Dictionary S 32 8 97 SVHHTP SVHHTP DevCtl Type Lock Default
155. XPULSE MINPULSE MODATTR MODE MODEAPPL MODEPERM MODNUM NAME NMODATTR NMODE NOCINPTS NOCOPTS NODENUM NODETYP NORMCYCL NRMATRFL NRMMODFL NTWKNUM OPCMD OPHIFL OPHISRC OPLOFL OPLOSRC OVERVAL F PERIOD PFDLYFL PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRGATRFL PSDLYFL PRIMMOD F PTDESC PTEXECST PTINAL PTORST PV PVALDB F PVALDBEU F 3 11 PVAUTO PVAUTOST PVEUHI PVEULO PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS RAISDSTN RAISETIM RAISRATE RAMPTIME RARWSTS RCASOPT RCASSHED REDTAG F RINITREQ RINITVAL RP RT SAFOPCMD SCHSTS SHEDMODE SHEDTIME SHUTDOWN SLOTNUM SP SPEUHI SPEULO SPFORMAT SPHIFL SPHILM SPLOFL SPLOLM SPOPT SPP SPTOL SPTV SPTVP STDBYMAN STSMSG TVPROC UNIT USERID 3 14 8 97 3 15 Ramp Soak RampSoak 3 15 The parameters of the Ramp Soak control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ADVDEVFL ADVDEVPR F ADVDEVTP F ADVSP F ADVSPP F ALENBST F ARWNET ARWOP ASPPROC F ASSOCDSP AUTMODFL BADCTLFL BADCTLPR F BCAMODFL CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLALGID CTRLINIT CURSEGID CV CVEUHI CVEUL
156. a N A HPM 1 to 40 lIOMOPER 1 168 HPM Box IOP Type Lock Default PtRes Range E PRIMSEC Input Output Processor In Operation View N A HPM 0 Primary Primary IOP is operating 1 Secondry Secondary IOP is operating HPM Parameter Reference Dictionary I 11 8 97 IOMREALT IOMREALT HPM Box Type Lock Default PtRes Range E PMMDTY Actual Input Output Processor Type View None HPM 0 None Not Configured 1 LLAI 2 HLAI High Level Analog Input 3 DI Digital Input 4 DO Digital Output 5 AO Analog Output 7 LLMUX Low Level Analog Input Multiplexer also includes RHMUX Remote Hardened Analog Multiplexer 14 STIM Smart Transmitter Interface Module 17 PI Pulse Input IOMRECHN 1 168 HPM Box Type Lock Default PtRes Range E RECCHN IOP Receive Channel View N A HPM ChannelA ChannelB IOMSEVER 1 168 HPM Box Type Lock Default PtRes Range E SEVERTY Error Severity Based on Input Output Processor State View nn 1 40 specifies the severity of 1 of the 40 acting primaries nn 129 168 specifies the severity of 1 of the 40 acting secondaries HPM Ok T O Processor has no errors and is OK Fail I O Processor has failed Inform I O Processor should be calibrated soon Warning I O Processor is on the verge of failing HPM Parameter Reference Dictionary I 12 8 97 IOMSTS IOMSTS 1 168 HPM Box Type Lock Default PtRes R
157. abnormal handler is enabled Off Restart abnormal handler not enabled ABHSHDN ProcMod Type Lock Default PtRes Range Logical Abnormal Handler Shutdown Enable Flag Indicates if the Shutdown abnormal View handler sequence is currently enabled Off HPM On Shutdown abnormal handler is enabled Off Shutdown abnormal handler not enabled ACCELTIM DevCtl Type Lock Default PtRes Range Time Acceleration Time The amount of time the SECVAR parameter exceeded the Duration SVHITP parameter while not in State0 This parameter resets to zero each time View the state transitions to State0 0 HPM 0 to 4000 days With a resolution of 1 second HPM Parameter Reference Dictionary A 2 8 97 ACCTYPE ACCTYPE Totalizer Type Lock Default PtRes Range E ACCTYPE Accumulator Operation Mode Specifies the type of input Eng PB Analog HPM 0 Pulse Pulse input 1 Analog Analog input ACP ProcMod Type Lock Default PtRes Range Ent_Id Advanced Control Point ID Defines the name of the point in the CG or CM to PtBid which this process module is assigned The NIM notifies the advanced control Null point when the process module sends a special sequence message NIM Tag name can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first c
158. acters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible input connection sources are a DigIn slot Tagname PVFL b Logic slot Tagname SO nn where nn 1 24 c Logic slot Tagname Fl nn where nn 1 12 d ProcMod slot Tagname Fl nnn where nnn 1 127 e Box Flag slot Tagname PVFL f Box FL nnnn for a box flag that resides in the same box where nnnn 1 4095 g NMhhBxx FL nnnn for a box flag that resides in a different HPM box on the same UCN hh is the NIM UCN address xx is the HPM box number and nnnn 1 4095 Data access limit Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as DI Digital Input mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name OPLOTP RegCtl Type Real Output Low Alarm Trip Point The Regulatory Control Output Low alarm is Lock Supr set when the output value OP drops belo
159. agree Alarm Priority Defines the alarm priority of command Engr disagree command fail and uncommanded change alarms Low NIM Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated CMDFALFL DevCtl DigComp Type Lock Default PtRes Range Logical Command Fail Alarm Flag Indicates if the PV failed to move after the output View command within the allowed command fail time Command Fail Alarm priority Off is determined by CMDDISPR HPM Off PV moved after the output command On PV did not move after the output command CMDFALTM DevCtl DigComp Type Lock Default PtRes Range Integer Command Fail Timeout Sets the amount of time in seconds that the Supr if point should wait before generating a command fail alarm if the PV has CMDFALTM not changed after changing the output Command Fail Alarm priority is is changed from determined by CMDDISPR a non zero value to a zero
160. algorithm POR Pulse Or Gate algorithm PNAND Pulse Nand Gate algorithm PNOR Pulse Nor Gate algorithm PXOR Pulse Exclusive Or Gate algorithm PGDSTN 1 4 DevCtl Type Lock Default PtRes Range E GATDSTIN Primary Gate Destination Defines the output destination of the primary gate in an Array 1 4 PtBld None HPM None No destination SIO Output goes to Safety Interlock 10 11 I2 Output goes to Interlock P0 P1 P2 Output goes to Permissives SOCMD0 SOCMD1 SOCMD2 Output is commanded to go to SOCMD0 1 or 2 OPCMD Output is commanded to go to OPCMD parameter SG1 SG2 Output goes to Secondary gates 1 or 2 PGPLSWTH 1 4 DevCtl Type Lock Default PtRes Range Integer Primary Gate Pulse Width Indicates the pulse width for primary gates whose in an Array algorithm starts with a P 1 4 Supr 0 HPM 0 to 8000 seconds HPM Parameter Reference Dictionary P 3 8 97 PGSO PGSO 1 4 DevCtl Type Lock Default PtRes Range Logical Primary Gate Status Output lIndicates the output value of the primary gate in an Array 1 4 View Off HPM Off On PHASE ProcMod Type Lock Default PtRes Range String _8 Phase Name Indicates the current phase of the sequence executing in the View process module Spaces HPM N A PHASEAL ProcMod Type Lock Default PtRes Range Logical Phase Alarm Indicates whether th
161. allowed Underscore _ cannot be used as the first character or the last character in a keyword Consecutive underscores are not allowed Do not use quote marks HPM Parameter Reference Dictionary K 2 8 97 KFF KFF PidFf Type Real Gain for Feed Forward Input Scale factor which is used in converting the FF Lock Supr input value to percent Default 1 0 PtRes HPM Range gt 0 0 to lt 1 0 KGAP Pid Type Real Gap Gain Factor Defines the gain modification factor Lock Supr Default 1 0 PtRes HPM Range 00 to 1 0 KLIN Pid Type Real Linear Gain Factor Defines the linear gain in percent per percent Lock Supr Default 1 0 PtRes HPM Range 9 0 to 240 0 KNL Pid Type Real Nonlinear Gain Modifier Indicates the calculated value of the nonlinear gain Lock View modifier Default N A PtRes HPM Range N A HPM Parameter Reference Dictionary K 3 8 97 HPM Parameter Reference Dictionary K 4 8 97 L 1 12 Je L 1 12 DevCtl Logic Type Logical Real Value of the External Input L 1 L 12 are the 12 inputs to a logic slot fetched Lock View with input connections from other points Each input can be a Boolean an Default N A Integer or a Real number Integer input values are converted to real numbers PtRes HPM before being stored into the database Range Real LCNRECHN HPM Box Type E RECCHN LCN Receive Channel Indicates the LCN channel to which the NIM is
162. alue Default NaN PtRes HPM Range N A NaN AVTVFL Type Logical Accumulated Value Target Reached Flag AVTVEFL is the accumulated value s Lock View target value reached flag It is turned On whenever PVCALC 2 AVTV Default N A Parameter AVTV contains the target value last entered by the operator PtRes HPM Range Off On HPM Parameter Reference Dictionary A 11 8 97 HPM Parameter Reference Dictionary A 12 8 97 B B AutoMan Type Lock Default PtRes Range Real Overall Bias Defines the overall bias which consists of BO plus BI Refer to Oper the HPM Control Functions and Algorithms manual for a detailed description 0 0 HPM N A B MulDiv RegCtl Summer Type Lock Default PtRes Range Real Overall Bias Defines the overall bias which consists of BO plus BI Refer to Oper the HPM Control Functions and Algorithms manual for a detailed description 0 0 HPM N A BO AutoMan MulDiv RegCtl Summer Type Lock Default PtRes Range Real Last Operator Entered Output Bias View 0 0 HPM N A B1 RatioCtl Type Lock Default PtRes Range Real Output Bias Constant If the Calcultr PV algorithm is being used in Supr conjunction with this algorithm the value of B1 should be the same as C3 0 0 HPM N A B2 RatioCtl Type Lock Default PtRes Range Real Bias for Input X2 If the Calcultr PV algorithm is being used in conjunction Supr with this algorit
163. ange E IOMSTS Input Output Module State View nn 1 40 specifies the status of 1 of the 40 acting primaries N A nn 129 168 specifies the status of 1 of the 40 acting secondaries HPM 0 PowerOn Transient state when power is turned on 1 Idle In the Idle State 2 OK Running 3 NoResp No Response 4 IdleSF In the Idle State and has a Soft Failure 5 SoftFail Running and has a Soft Failure 6 CommErr Communication Error 7 ConfgMis Configuration Mismatch 8 NotConfg This IOP is Not Configured 9 NonExist This IOP does Not Exist UnAvail Transient state during which status for this IOP is unavailable IOMTYPE 1 168 IOP Type Lock Default PtRes Range E PMMDTY Input Output Processor Type View None HPM 0 None Not Configured 1 LLAT Low Level Analog Input 2 HLAI High Level Analog Input 16 slot 3 DI Digital Input 32 slot 4 DO Digital Output 32 slot 5 AO Analog Output 8 slot 7 LLMUX Low Level Analog Input Multiplexer also includes RHMUX Remote Hardened Analog Multiplexer 10 SI Serial Interface 14 STIM Smart Transmitter Interface Module 16DISOE Digital Input Sequence of Events 17 PI Pulse Input 24 AO16 Analog Output 16 slot 25DO32 Digital Output 32 slot HPM Parameter Reference Dictionary I 13 8 97 IOMTYPE IOMTYPE HPM Box Type E PMMDTY Configured Input Output Processor Type Lock PtBld Default NotConfg PtRes HPM Range 0 NotCon
164. aracters and must be a legitimate parameter name HPM Parameter Reference Dictionary P 6 8 97 PIUOTDCF PIUOTDCF STI LLMUX RHMUX Type Lock Default PtRes Range Logical Open Thermocouple Detection Enable Defines whether the point is to detect an Eng View open thermocouple condition This parameter is configurable for each STI point On that is connected to a smart temperature transmitter and for each LLMUX point HPM NOTE There is no special point type for RHMUX The LLMUX point type also applies to the RHMUX IOP This parameter is a view only parameter when the point execution state PTEXECST is Active On Detect an open thermocouple condition Off Do not detect an open thermocouple PIUVOTDCF 1 168 LLAI Type Lock Default PtRes Range Logical LLAI Open Sensor Detection Enable Defines whether an Supr open sensor condition is to be detected for all eight LLAI points On HPM On Detect open sensor conditions Off Do not detect open sensor conditions PKGOPT HPM Box Type Lock Default PtRes Range E PKGOPT HPMM Hardware Packaging Option The tables below show the default PtBld hardware location for each choice REDUN_2F HPM 1 REDUN HPMMs in two 7 slot files can have up to 40 IOPs 2 REDUN_2F HPMMs in two 15 slot files can have up to 40 IOPs 3 REDUN_IO HPMMs two separate 15 slot files can have full redundant IOPs 4 NODEFALT Sets file card positions of IOPs to 0
165. as to be set to the current state and then to the desired state OPCMD Type Lock Default PtRes Range E O0PCMD Output Command Indicates the current output command View NA HPM 0 Idle Output is not being affected by Output Command 1 Lower Output is being lowered 2 Raise Output is being raised HPM Parameter Reference Dictionary 0 4 8 97 OPEU OPEU Type Lock Default PtRes Range Real Output Value in Engineering Units View N A HPM N A OPFINAL AO Type Lock Default PtRes Range Real Final Percent Output Sent to Control Element Output value after View direct or reverse control action and output characterization have all been 6 9 of applied If output has been configured for direct action OPTDIR full scale 0 0 represents 4 mA to the control element and 100 represents 20 HPM mA If configured for reverse action 0 0 represents 20 mA and N A 100 represents 4 mA OPFINAL DevCtl DigComp Type Lock Default PtRes Range E SD_ENM STATETXT Statetxt 0 Final Output Sent to Control Element The output value that was last stored HPM This value can differ from the OP parameter if a sealin has occurred state change is active or the Array SI read back check evaluates OPFINAL to be NONE If LOCALMAN ON then OP and OPFINAL follow the PV Statetxt 0 Self defining enumeration Statetxt 1 Self defining enumeration Statetxt 2 Self defining enumerati
166. ation Note that SENSRTYP must match the FTA The point Spt_Dp status is set to SOFTFAIL if a mismatch occurs HPM 8 SPT_DP ST3000 differential pressure 9 SPT_GP ST3000 gauge pressure 10 SPT_AP ST3000 absolute pressure 11 STT STT3000 temperature 12 SFM MagneW 3000 magnetic flow and most Multivariable transmitters HPM Parameter Reference Dictionary S 7 8 97 SEQERR SEQERR ProcMod Type Integer Sequence Error Indicates that a sequence error or failure was detected A code is Lock View displayed to indicate the nature of the error or failure When an error is detected Default 0 the sequence execution state is changed to ERROR when a failure is detected PtRes HPM the execution state is changed to FAIL Range 9 No error 1 100 Not used Error Codes 101 Not used 102 Array index error 103 Illegal IMD code 104 Illegal variable operator code 105 Interpreter stack overflow 106 GOTO destination error 107 Key level error 108 Configuration mismatch error 109 T O Link prefetch overflow 110 Subroutine nesting level error 111 Illegal value error 112 Fail statement 113 OL Prefetch buffer full 114 OL Poststore buffer full 115 UCN Prefetch buffer full 116 UCN Postore buffer full 117 164 Not used Failure Codes 165 Sequence has been halted by the operator 166 Sequence jumped to an abnormal condition handler which was not enabled 167 Not used 168 T
167. ault 0 PtRes HPM Range 9 to 100 cannot exceed NUOGSLOT NFASTPV HPM Box Type Integer Number of Fast Regulatory PV slots Fast slots are processed four times per Lock PtBld second Default 0 PtRes HPM Range 9 to 100 cannot exceed NPVSLOT NFLAG HPM Box Type Integer Number of Flags in HPM Box Data Point The HPM always provides 16 384 Lock View box flag variables Default 16 384 PtRes HPM Range 16 384 NFLAG Array Type Integer Number of Flags in Array Point FL Array Defines the number of mapped flags Lock PtBld from either the HPM box EXTDATA IO_FL or a serial interface IOP Default 0 connected device EXTDATA IO_FL PtRes HPM Range 9 to 512 When EXTDATA IO_FL 0 to 1023 When EXTDATA IO_FL NIO0 2 DevCtl DigComp Type Logical Inverted Interlocks Value The negative value of the corresponding interlock Lock Engr Default On PtRes HPM Range On Interlock inactive Off Interlock active HPM Parameter Reference Dictionary N 5 8 97 NIMDAY NIMDAY NIM Type Integer Day in Which the NIM Personality was Created Lock View Default 1 PtRes NIM Range 1to31 Helpful Hint This parameter is accessed using NTWRKuu NIMDAY where uu UCN Network number NIMMONTH NIM Type Integer Month in Which the NIM Personality was Created Lock View Default 1 PtRes NIM Range 1to12 Helpful Hint This parameter is accessed using NTWRKuu N
168. be used to build points for this the host HPM or another HPM When using the I O Simulator personality you may choose a packaging option PKGOPT that is different from the physical backplane hardware configuration of the host HPMM The intent is to let you choose a PKGOPT based on either the host s hardware configuration or that of another HPMM This allows you to create databases for other HPMs using a single HPM I O Simulator independent of its actual physical configuration The following rules apply Host HPM Other HPM PKGOPT Ceili HPM Parameter Reference Dictionary P 10 8 97 PMEVOVFL PMEVOVFL Type Logical HPMM Event Overflow Flag Lock View Default PtRes HPM Range Off No overflow On Overflow has occurred PMMCHAER HPM Box Type Integer HPMM I O Link Channel A Error Count Lock View Default 0 PtRes HPM Range gt 0 PMMCHASL HPM Box Type Integer HPMM I O Link Channel A Silence Count Lock View Default 0 PtRes HPM Range gt 0 PMMCHBER HPM Box Type Integer HPMM I O Link Channel B Error Count Lock View Default 0 PtRes HPM Range gt 0 PMMCHBSL HPM Box Type Integer HPMM I O Link Channel B Silence Count Lock View Default 0 PtRes HPM Range gt 0 HPM Parameter Reference Dictionary P 11 8 97 PMMCMD PMMCMD HPM Box Type E PMMCMD HPMM Command Lock OnProc Default None PtRes HPM NOTE When points are built to a NIM and the NIM is restarted with
169. bute is not configured then the value returns to OFF NRMMODEL RegCtl Type Lock Default PtRes Range Logical Normal Mode Flag indicates if the mode for this point is normal mode View N A HPM On Point is in configured normal mode Off Point is not in the configured normal mode or normal mode is not configured NSCANITM HPM Box Type Lock Default PtRes Range Integer Number of Scan Items in HPM Scan Table View 0 HPM 0 50 HPM Parameter Reference Dictionary N 23 8 97 NSIO NSIO DevCtl DigComp Type Logical Inverted Interlocks Value The negative value of the corresponding interlock Lock Engr Default On PtRes HPM Range On Safety interlock inactive Off Safety interlock active NSTRING HPM Box Type Integer Number of Strings in HPM Box Data Point Lock PtBld Default 0 PtRes HPM Range 9 to 16 384 NSTRING Array Type Integer Number of Strings in Array Point String Array Defines the number of strings Lock PtBld length specified by the STRLEN parameter mapped to the Array point from Default 0 either the HPM box EXTDATA IO_STR or a serial interface IOP connected PtRes HPM device EXTDATA IO_ STR Range 90 to 8 When EXTDATA IO_STR 0 to 240 When EXTDATA IO_STR Helpful Hint When EXTDATA IO_STR the range for this parameter applies regardless of the value of the STRLEN parameter up to 240 strings either 8 16 32 or 64 characters in l
170. can be overridden in this manner only when the sequence execution state HPM is PAUSE FAIL or ERROR 0 Forward Skip to next step 1 Backward Go back to previous step HPM Parameter Reference Dictionary 0 14 8 97 OVERVAL OVERVAL Type Lock Default PtRes Range Integer Overview Value in Percent Defines the amount of deviation PV SP in Eng PB percent that causes the PV to reach the overview limit For digital points the 25 display shows the current state of the point NIM As shown in Figure O 1 The baseline shows the normal operating value for this PV 0 to 100 Entering a 0 suppresses the value value is not shown on the display OVERVIEW LIMIT N DEVIATION TO REACH OVERVIEW LIMIT BASELINE er Normal Value Figure O 1 Overview Limit OVRCTIM DevCtl Type Lock Default PtRes Range Time Time Over High Trip Limit The amount of time the SECVAR parameter is View continuously greater than the SECVAR high trip limit 0 HPM Duration 0 to 9999 days with a resolution to second OVRDALOP DevCtl DigComp Type Lock Default PtRes Range E 0VRALOP Override Alarm Option The override alarm option for IO I1 and I2 Eng PB parameters None HPM 0 None No override alarming 1 Auto_Rtn Return to normal when override is cleared 2 Cnfm_Rqd Confirm to clear after interlock is cleared HPM Parameter Reference Dictionary 0 15 8 97 OVERDALPR OVRDALPR
171. cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible input connection sources are a Logic slot Tagname NN nn where nn 1 8 b ProcMod slot Tagname NN nnn where nnn 1 80 c Box Numerics slot Tagname NN where nnnnn 1 16 384 d Box FL nnnn for a box flag that resides in the same box where nnnn 1 16 384 Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as AI Analog Input mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name HPM Parameter Reference Dictionary S 34 8 97 SVTV SVTV DevCtl Type Lock Default PtRes Range Real Secondary Variable Target Value Indicates the normal or operating setpoint for Oper the SECVAR parameter NaN HPM SVEULO to SVEUHI SVTVP DevCtl Type Lock Default PtRes Range Real Secondary Variable Target Value in Percent Indicates the normal or operating Oper setpoint for the SECVAR parameter as a percent NaN HPM 0 to 100 SWTCHACT 1 40 HPM Box Type Lock Default PtRes Ra
172. cates that the database transfer between the STI point and the transmitter has been successfully completed 4 Loadfail Indicates that the parameter transfer between the STI point and the transmitter has not been successfully completed 5 Calib Indicates that certain parameters are being calibrated at the transmitter by the STI point 6 Calcomp Indicates that the calibration has been successfully completed 7 Calfail Indicates that the calibration has not been successfully completed 8 OK Normal state indicates that the STI point and the transmitter are OK Transmitter is updating the PV value at the STI point STATE remains OK when the point is made inactive 9 DBChange Indicates that a database mismatch between the STI point and the transmitter has been detected Transmitter is not updating the PV value at the STI point STATE remains DBChange when the point is made inactive STATE Timer Digin Type Lock Default PtRes Range E STATE Timer State Indicates the current state of the timer data point View Stopped HPM 0 Stopped 1 Running HPM Parameter Reference Dictionary S 23 8 97 STATE STATE Totalizr Type E STATE Accumulator State Indicates the current state of the totalizer Lock View Default Stopped PtRes HPM Range 0 Stopped Stopped 1 Running Accumulating STATEO 2 Type String 8 Current State These parameters represent the state text SSTATETXT Lock View descriptors as follows
173. ce for Temperature TO0 is the zero reference temperature input and Supr it is in the same engineering units as the T measured actual temperature input 0 0 TO is typically 459 69 degrees F or 273 15 degrees C Enter the absolute value HPM of the temperature N A Real Integral Time in Minutes Defines the integral time constant in Supr minutes per repeat 0 0 minutes HPM 0 0 to 1440 0 minutes Helpful Hint Integral action can be disabled by setting T1 equal to 0 0 Real Derivative Time in Minutes Defines the derivative time constant Supr 0 0 minutes HPM 0 0 to 1440 0 minutes Helpful Hint Derivative action can be disabled by setting T2 equal to 0 0 TCRNGOPT Type Lock Default PtRes Range E TCRNGOP Thermocouple Range Option Defines the thermocouple range option Eng PB Applies only if a thermocouple TC sensor type is used for this data point Normal HPM 0 Normal Use PVEXEULO s normal range table 1 Extended Use PVEXEULO s extended range table Helpful Hint TCRNGOPT configuration requires IOTYPE LLAI LLMUX or RHMUX and SENSRTYP Thermcpl Refer to parameter PYVEXEULO HPM Parameter Reference Dictionary T 1 8 97 TD TD VdtLdLag Type Real Total Dead Time in Minutes Defines the fixed delay time in minutes for Lock Supr equation B and the actual variable delay time in minutes for equations C and D Default 0 0 PtRes HPM Range gt 0 0 minutes TF Type Real P
174. ck Default PtRes Range Ascii_2 IOP Card Hardware Revision Status View The status of R300 boards appears as 2x the status of R210 N A appears as 0x where x is the version O A 1 B 2 C etc HPM Hexadecimal characters 00 FF HPM Parameter Reference Dictionary I 10 8 97 IOMLHFST IOMLHFST 1 168 Type Lock Default PtRes Range E IOMHF Input Output Processor Last Hard Fail Status Refer to the HPM Service View Manual for a detailed description and the recommended corrective action N A HPM 0 Unknown Unknown Status 1 PowerDwn This IOP Powered Down 2 InvPrgEx Invalid Program Execution 3 EpromErr EPROM Checksum Error 4 RamCntEr RAM Contents Error 5 RamAdrEr RAM Addressing Error 6 DpaError Device Physical Address Error 7 DsaError Device Soft Address Error 8 RxBufOfl I O Link Receive Buffer Overflow 9 IOLJaber I O Link Jabber Circuit Failure 11 BadPgJmp Illegal Value of Case Control 12 AdCIncmp A to D Conversion Incomplete 13 AdOutOvf A to D Output Value Overflow 14 AdOutUdf A to D Output is less than Zero 15 AdCCalEr A to D Calibration is incorrect 16 BadDcL tc Bad DC LTC 17 Dmt_Tmot Dead Man Timer Timeout 18 MLtOutF Multiple Output Failures 20 BadDaRng Bad D to A Range 21 MstrTmot Master 68 k Timeout IOMNUM Type Lock Default PtRes Range Integer IOP Number IOMNUM specifies the IOP on the I O Link that this point PtBld references for its process dat
175. cle time in minutes in the Comm CPU View 0 0 HPM HPM Parameter Reference Dictionary C 12 8 97 COMHOUR COMHOUR HPM BOX Type Lock Default PtRes Range Integer HPMM Communications Personality Creation Date Hour View 0 HPM COMHWREV Type Lock Default PtRes Range String_2 HPMM Communications Hardware Revision View HPM Hexadecimal characters 00 FF COMLUAVG 1 2 HPM Box Type Lock Default PtRes Range Real Average HPM IOL Utilization inPercent by the Comm CPU per I O Link View 0 0 HPM 0 100 COMLUMAX 1 2 HPM Box Type Lock Default PtRes Range Real Maximum HPM IOL Utilization inPercent by the Comm CPU per I O View Link 0 0 HPM 0 100 COMMAND Digin Type Lock Default PtRes Range E COMMAND Accumulator Commands Allow the operator to control the accumulator Oper None HPM 0 None No effect on accumulator 1 Start Start the accumulator 2 Stop Stop the accumulator 3 Reset Reset the accumulation to zero Helpful Hint COMMAND applies only when DITYPE Accum HPM Parameter Reference Dictionary C 13 8 97 COMMAND COMMAND STI Type E COMMAND Command Allows the user to do database transfers between the STI point and Lock Oper the smart transmitter and to calibrate the transmitter Default None PtRes HPM NOTE During an up load operation previously unseen data is read from the trans
176. d 1 Spe In cascade mode AM point provides the SP for this point 2 DDC In cascade mode AM point provides the OP for this point 3 Rsp In Auto mode with INITMAN ON the AM point provides the SP for this point 4 DDCRsp In cascade mode AM point provides the OP for this point RCASSHED RegCtl Type Logical Remote Cascade Shed Indicates whether the mode has shed from the Cas mode Lock View to the preconfigured backup mode Default Off PtRes HPM Range Off No mode shed On Mode has shed to the preconfigured backup mode RDNHWREV Type String 2 HPMM Control Daughter Card Revision Lock View Default PtRes HPM Range Hexadecimal Characters 00 to FF REDTAG RegCtl Type E REDTAG Red Tag State Allows the user to set the point as being out of service Lock Sup Eng indicating that this point or the associated control loop needs repair or is being Default Off repaired Once this point is put in the red tag condition the output OP is frozen PtRes HPM at the last value or state Range 0 Off Data point is in service Point s OP is not frozen 1 On Data point is out of service point s OP is frozen Helpful Hint REDTAG change requires MODE Man and MODATTR Oper Once a point is red tagged parameters MODE MODATTR and OP output cannot be changed In addition for a RegCtl point ESWENBST cannot be changed RELREV HPM Type String 1 Overall Software Release Revision Code Lock
177. d Link Units on Link B Lock View n 1 64 for per cycle totals Default 0 0 n 257 320 for per cycle non SI IOP loading PtRes HPM n 513 576 for per cycle SI array slot loading Range CNFMU Type Integer Configured Memory Units Configured size of slot in Memory units Lock View Default N A PtRes HPM Range CNFPU 1 64 HPM Box Type Real Configured Process Units Per Cycle Lock View Default 0 PtRes HPM Range HPM Parameter Reference Dictionary C 9 8 97 CNFPU CNFPU Type Real Configured Process Units Per Cycle Process Units Configured as being Lock PtBld required to execute point processing Default 2 0 PtRes HPM Range Helpful Hint Can only be written for ProcMod points CNFPUP 1 64 Type Real Configured PUs Percent Specifies the Configured Process Units in percent Lock View Default 0 PtRes HPM Range CNTLLOCK Type E ACCLVL Control Lock Attempts to write values in the following parameters are Lock Engr subject to the access lock value contained in CNTLLOCK The check is Default OPERATOR bypassed for the exceptions PtRes HPM Parameter Exceptions PROCMOD New value START SEQEXEC None SEQMODE None OVERPHAS SEQEXEC FAIL or ERROR OVERSTEP SEQEXEC FAIL or ERROR OVERSTAT SEQEXEC FAIL or ERROR Range 0 OPERATOR Operator and higher keylock positions allow store access 1 SUPERVIS Supervisor and higher keylock positions allow store access 2
178. dinate is Default 106 9 fixed at a value of 106 9 PtRes HPM Range N A OPRATREL DevCtl DigComp RegCtl Type Logical Operator Mode Attribute Flag Indicates whether the current mode attribute is Lock View Operator Default N A PtRes HPM Range Off Current mode attribute is Program or None On Current mode attribute is Operator HPM Parameter Reference Dictionary O 11 8 97 OPRINPUT OPRINPUT ProcMod Type Lock Default PtRes Range Real Operator Input Defines the value entered by the operator in response to the last Oper sequence message 0 0 HPM N A OPROCLM Type Lock Default PtRes Range Real Output Rate of Change Limit in Percent Per Minute Supr NaN HPM gt 0 1 NaN Helpful Hint Entering NaN disables limit checking OPTDIR AO Type Lock Default PtRes Range E POLARITY Analog Output Direct Reverse Action Defines the output action of the Eng PB OPFINAL value of the data point Direct HPM 0 Direct For final OP 0 4 mA 100 20 mA 1 Reverse For final OP 0 20 mA 100 4 mA OPTDIR DigOut Type Lock Default PtRes Range E POLARITY Output Direction Defines the direct reverse action of the PWM digital Eng PB output Direct HPM 0 Direct OP is the On time 1 Reverse OP is the Off time OROFFSET ORSel Type Lock Default PtRes Range Logical Override Offset When OROFFSET is On override initia
179. dun lIOSTKNDR Type Lock Default PtRes Range Integer IOP Token Drop Count View N A HPM 0 to 32767 lIOSCNCYC 1 40 Type Lock Default PtRes Range Integer Control base cycle number PtBld The index to this parameter specifies the IOP number for which this information 0 0 is being accessed HPM 0 16 IOSCNPER 1 40 Analgin Type Lock Default PtRes Range Real IO data Scan Period the I O data scan period in seconds for IO processors that PtBld support Analong Input point types The index to this parameter specifies the 0 0 IOP number for which this information is being accessed HPM 0 0 0 0625 0 125 0 25 0 5 1 0 HPM Parameter Reference Dictionary l 16 8 97 K K AutoMan Type Lock Default PtRes Range Real Gain Constant for X2 Input Refer to the HPM Control Functions and Supr Algorithms manual for a detailed description 1 0 HPM N A K MulDiv RegCtl Summer Type Lock Default PtRes Range Real Overall Gain Supr 1 0 HPM K Pid Type Lock Default PtRes Range Real Overall Gain Value of K depends on the chosen gain option Refer to the Supr HPM Control Functions and Algorithms manual for a detailed description 1 0 HPM 0 0 to 240 0 K PosProp Type Lock Default PtRes Range Real Gain Constant Supr 1 0 HPM 0 0 to 10 0 K1 PidErfb Type Lock Default PtRes Range Real Exter
180. e Lock Default PtRes Range Logical Hold Command Flag lIf On allows users to hold the ramp or soak segment at Prog its current position to customize the guaranteed ramp and soak function Off HPM Off On HPM Parameter Reference Dictionary H 2 8 97 HOUR HOUR HPM Box Type Lock Default PtRes Range Integer Current Hour tThe value of the LCN time in the HPM View N A HPM 0 to 23 Only full array access is supported HWYCTLST UCN Type Lock Default PtRes Range E NODFSTA UCN Network Functional State Supr Basic NIM Full All LCN devices can do read write operations to this UCN Basic AM and CM cannot write to this UCN HPM Parameter Reference Dictionary H 3 8 97 HPM Parameter Reference Dictionary H 4 8 97 10 2 l0 2 DevCtl DigComp Type Logical Override Interlocks for Output States 0 2 Override interlocks force the Lock Engr commanded output to a specific state regardless of the condition of the Default Off permissive interlocks or the previous point state The operator and user program PtRes HPM cannot change the output state when any override interlock is On An override interlock is provided for each of the three states Refer to the HPM Control Functions and Algorithms manual for a detailed description Range Off Override interlock has no effect on the point state On Override interlock sets the point to the respective state When IO is On forces
181. e Specifies the normal execution cycle Lock PtBld Default PtRes HPM Range 1 64 for points with PERIOD 4 seconds 1 32 for points with PERIOD 2 seconds 1 16 for points with PERIOD 1 seconds 1 8 for points with PERIOD 0 5 seconds 1 4 for points with PERIOD 0 25 seconds 1 2 _ for points with PERIOD 0 125 seconds 1 for points with PERIOD 0 625 seconds NORQUAVG NIM HPM Box Type Real Average number of Nodes to which UCN Requests are made Indicates the Lock View average number of UCN nodes per second that this node is requesting Default 0 communications with PtRes HPM Range N A Helpful Hint This statistic can be viewed on the Toolkit Displays NORQUMAX NIM HPM Box Type Real Maximum number of Nodes to which UCN Requests are made Indicates the Lock View maximum number of UCN nodes per second that this node is requesting Default 0 communications with PtRes HPM Range N A Helpful Hint This statistic can be viewed on the Toolkit Displays HPM Parameter Reference Dictionary N 18 8 97 NORSPAVG NORSPAVG NIM HPM Box Type Lock Default PtRes Range Real Average number of Nodes to which UCN Responses are made Indicates the View average number of UCN nodes per second that this node is responding to 0 HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays NORSPMAX NIM HPM Box Type Lock Default PtRes Range Real Maximum number of
182. e Dictionary A 7 8 97 ASTEP ASTEP 1 3 ProcMod Type String 8 Abnormal Step Name ASTEP 1 indicates the step name of the abnormal Lock View handler that is executing in this process module A value of means no Default Spaces abnormal handler is presently executing Both ASTEP 2 and ASTEP 3 indicate PtRes HPM the step names of the first and second level subroutines called from the abnormal handler Range N A ASTMT 1 3 ProcMod Type Integer Abnormal Statement Number ASTMT 1 indicates the statement number of the Lock View abnormal handler that is presently executing in the process module Both Default Blank ASTMT 2 and ASTMT 3 give statement numbers for first and second level PtRes HPM subroutines executing from an abnormal handler A value of 0 indicates no sequence is being executed Range 0 to 255 AUTMODEFL RegCtl Type Logical Automatic Mode Flag Indicates whether the current mode of the point is Lock View Automatic Default N A PtRes HPM Range Off Current mode is not Automatic On Current mode is Automatic AUXDATA 1 SI Array Generic Modbus Type Real FTA Driver Auxiliary Data 1 Keep Alive Address for Modbus devices Lock Eng Specifies the address of a coil that is written to every 10 seconds Force Single Default NaN Coil On function NaN dashes Keep Alive function is inactive PtRes HPM Range 1 9999 NaN Helpful Hint AUXDATAI can be configured
183. e Digital Composite point is taken from SIO DESC or 10 I2 DESC parameters SIO Desc Current interlock or input descriptor 10 I2 Desc Current interlock or input descriptor L1 L12 Desc Current interlock or input descriptor Device Control only OVRDIOFL OVRDI1FL OVRDI2FL OVRDSIFL DevCtl DigComp Type Lock Default PtRes Range Logical Override and Safety Override Alarm Flag Indicates that an override is active or View that a confirmable override was cleared but not yet confirmed Off HPM Off Override flag is not active On Override flag is active HPM Parameter Reference Dictionary O 16 8 97 P P FlowComp Type Lock Default PtRes Range Real Pressure Input lIndicates the measured actual gage pressure View 1 0 HPM gt 0 0 PO FlowComp Type Lock Default PtRes Range Real Zero Reference for Pressure P0 is the zero reference pressure input and is in the Supr same engineering units as the P input PO is typically 14 696 if P is in psig or 0 0 101 325 if P is in kiloPascals Enter the absolute value of the number HPM N A P0 P2 DevCtl DigComp Type Lock Default PtRes Range Logical Permissive Interlocks for Output States 0 1 amp 2 Permissive interlocks are Engr controlled by logic slot outputs and each interlock determines whether the On operator and user program are allowed to use the respective state or are locked HPM out from that sta
184. e FAILOPT value When power PtRes HPM is restored to the module outputs are reset regardless of the FAILOPT values Range O Hold Hold output at last good value 1 Unpower Remove power from the output HPM Parameter Reference Dictionary F 1 8 97 FBTIME FBTIME DevCtl DigComp Type Lock Default PtRes Range Integer Feedback Time Sets the amount of time in seconds that the point should wait Supr if before generating a command disagree alarm after the operator has issued a CMDFALTM start stop type command to a field device is changed from a non zero value to a zero value else Eng PB 0 HPM 0 to 1000 seconds 0 indicates that command disagree alarming is disabled FBTIME can be increased to compensate for a slow responding field device that does not respond to the operator s command in time to prevent a command disagree alarm FF PidFf Type Lock Default PtRes Range Real Feed Forward Algorithm Input FF is the feedforward input signal value that is View added to FFOPT Add or multiplied by FFOPT Multiply the PidFf N A algorithm s incremental output before the full value output is accumulated FF HPM is normally a parameter with a percentage value N A FFOPT PidFf Type Lock Default PtRes Range E FFOPT Feed Forward Type Determines whether a PidFf algorithm s feedforward input Eng PB signal FF is added to or multiplied by the incremental output before t
185. e Interlock 10 OVRDSIO Safety Override Interlock BadCtl Bad Control DevCtl and DigComp only HPM Parameter Reference Dictionary H 1 8 97 HIGHALPR HIGHALPR Analgin RegCtl RegPV Type Lock Default PtRes Range E ALPRIOR Highest Level Alarm s Priority Defines the priority of the highest alarm View currently detected at the data point Associated with HIGHAL NoAction NIM Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated HISVPEAK DevCtl Type Lock Default PtRes Range Real Highest Peak SECVAR Value tThe highest peak value of the SECVAR View parameter since the most recent reset of maintenance statistics 0 0 HPM 20 HLCALIB 1 168 Type Lock Default PtRes Range Logical HLAT in Calibration Flag Shows which HLAIs are presently in calibration Eng Pb HPM Off Calibration is not in progress On Calibration is in progress HOLDCMD RampSoak Typ
186. e Month Lock View Default 0 PtRes HPM Range 1 12 MNFCCSER HPM Box Type String 24 HPMM Communications Control Card Serial Number Lock View Default 0 PtRes HPM Range MNFCCYR HPM Box Type Integer HPMM Communications Control Card Manufacturing Date Year Lock View Default 0 PtRes HPM Range 1 99 MNFFPGA HPM Box Type Integer HPMM I O Link Card FPGA Revision Lock View Default 0 PtRes HPM Range 1 31 MNFIODAY HPM Box Type Integer HPMM I O Link Card Manufacturing Date Day Lock View Default 0 PtRes HPM Range 1 31 HPM Parameter Reference Dictionary M 5 8 97 MNFIOINF MNFIOINF HPM Box Type String 8 HPMM IO Link Processor Card Manufacturing Information Lock View Default Blank PtRes HPM Range 0 99 MNFIOMTH HPM Box Type Integer HPMM IO Link Card Manufacturing Date Month Lock View Default 0 PtRes HPM Range 1 12 MNFIOSER HPM Box Type String 24 HPMM IO Link Card Serial Number Lock View Default 0 PtRes HPM Range MNFIOYR HPM Box Type Integer HPMM IO Link Card Manufacturing Date Year Lock View Default 0 PtRes HPM Range 0 99 MNFMDDAY HPM Box Type Integer HPMM UCN Interface Card Manufacturing Date Day Lock View Default 0 PtRes HPM Range 1 31 MNFMDINF HPM Box Type String 8 HPMM UCN Interface Card Manufacturing Information Lock View Default Blank PtRes HPM Range HPM Paramete
187. e current phase of the sequence has been View completed within the specified time Off HPM On Phase has not been completed in the specified time Off No phase alarm PHASETIM ProcMod Type Lock Default PtRes Range Integer Phase Time Indicates the time remaining in minutes in the current phase View before a phase alarm is generated The maximum time allowed for the phase is 0 seconds defined by the phase statement HPM 0 to 9999 minutes PHREMTIM ProcMod Type Lock Default PtRes Range Time Phase Time Remaining Indicates the time remaining in time duration before a View phase alarm is generated This value is displayed in the HPM Detail display 0 seconds HPM N A HPM Parameter Reference Dictionary P 4 8 97 PIALGID PIALGID 1 12 DevCtl Type Lock Default PtRes Range E 11ALGID Primary Input Gate Algorithm ID The XX algorithms compare this input to in an Array the PINN 1 12 parameter and the IN_SET algorithm compares it to the range 1 12 of 10 values in the NNINSET 1 10 parameter The XX2 algorithms compare PtBlid this input defined by the PISRC 1 12 parameter Null HPM NULL No algorithm INVERT Invert Logical algorithm GT Greater Than algorithm GE Greater Than or Equal To algorithm LT Less Than algorithm LE Less Than or Equal To algorithm EQ Equal To algorithm NE Not Equal To algorithm GT2 Greater Than algorithm GE2 Great
188. e from to this node Basic AM and CM cannot write to this node NODINPTS DevCtl DigComp Type Lock Default PtRes Range Integer Number of Digital Inputs Defines the number of digital input connections to PtBld this data point 1 HPM 0 No inputs 1 One input 2 Two inputs NODOPTS DevCtl DigComp Type Lock Default PtRes Range Integer Number of Digital Outputs Defines the number of digital output connections PtBld from this data point 1 HPM 0 No outputs 1 One output 2 Two outputs 3 Three outputs HPM Parameter Reference Dictionary N 15 8 97 NOGINPTS NOGINPTS RegPV RegCtl Type Number of General Input Connections Lock Default PtRes HPM Range 0 4 Helpful Hint NOGINPTS NOGOPTS cannot exceed four NOGOPTS RegPV RegCtl Type Number of General Ouptut Connections Lock Default PtRes HPM Range 0 4 Helpful Hint NOGINPTS NOGOPTS cannot exceed four NOLINPTS DevCtl Logic Type Integer Number of Logic Inputs Indicates the number of logic inputs to this logic or Lock View Logic Device Control slot PtBld DevCtl Default 12 Logic 0 DevCtl PtRes HPM Range 90 to 12 NOLOGBLK Logic Type Integer Number of Logic Blocks Indicates the number of logic blocks that have been Lock View configured for a particular logic slot Default N A PtRes HPM Range 0 to 24 NOLOPTS DevCtl Logic Type Integer Number o
189. e parameters are indexed The index is either an odd number from 1 to 63 and represents either e the UCN node number of a peer node for peer to peer statistics with that node e 0 for the sum of all peer to peer statistics Example for case 2 is NPRQUAVG 0 NPRQUAVG 1 NPRQUAVG 3 NPRQUAVG 63 HPM Parameter Reference Dictionary 2 10 8 97 PARAMETERS PER ALGORITHM TYPE Section 3 This section contains listings of parameters that are applicable to each PV and control algorithm in the HPM Refer to Sections X for the definitions of the parameters 3 1 Auto Manual AutoMan The parameters of the Auto Manual contrrol algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ARWNET ARWOP ASSOCDSP AUTMODFL B BO BADCTLFL BADCTLOP BADCTLPR F BCAMODFL CASMODFL CASREQ CIDSTN CISRC CNFMU CNFPU CODSTN CONTCUT F CTLEQN HPM Parameter Reference Dictionary CTLALGID CTRLINIT CV CVEUHI CVEULO ESWAUTO ESWCAS ESWENBST ESWMAN EUDESC EXTSWOPT HIGHAL F HIGHALPR F INITMAN K KEYWORD LOCALMAN MANMODFL MODATTR MODEAPPL MODE MODEPERM MODNUM NAME NMODATTR NMODE NOCINPTS NOCOPTS NODENUM NODETYP NORMCYCL NRMATRFL NRMMODFL NTWKNUM OP OPALDB F OPEU OPHAFL F OPHIFL OPHILM OPHIPR F OPHITP F 3 1 OPLAFL F OPLOFL OPLOLM OPLOPR F OPLOTP F OPMCHLM OPRATRFL OPROCLM OPTOL OVERVAL
190. e ramp soak cycle stops after Lock Oper a single cycle or is continuous For detailed information refer to the HPM Default Cyclic Control Functions and Algorithms manual PtRes HPM Range 0 Single Stop after completing one complete cycle 1 Cyclic Repeat complete cycles over and over Helpful Hint If Cyclic is entered repeats complete ramp soak cycles after Mode is changed from Man to Auto If Single is entered performs one ramp soak cycle and then stops HPM Parameter Reference Dictionary C 29 8 97 CYCLETIM CYCLETIM Type Real PosProp Output Cycle Time in Seconds Determines the rate at which raise or Lock Supr lower output pulses are going to be generated PV SP determines the width of Default 10 0 seconds the output pulse PtRes HPM Range 9 25 to 1000 0 seconds CYCOVRO FBus Type Real Times Write Buffer Not Empty During Cycle Lock View Default 0 PtRes IOP Range N A HPM Parameter Reference Dictionary C 30 8 97 D D Summer VdtLdLag Type Lock Default PtRes Range Real Overall Bias Defines the overall bias used in calculating PVCALC Supr 0 0 HPM N A D1 VdtLdLag Type Lock Default PtRes Range Real Fixed Deadtime in Minutes Bias value for the variable time delay Supr 0 0 minutes HPM 0 0 to 400 0 minutes D1 D2 DigComp DevCtl Type Lock Default PtRes Range Logical Digital Input 1 Status and Digital Input 2 Status Separa
191. e viewed on the Toolkit Displays FRQUTMAX NIM HPM Box Type Lock Default PtRes Range Real Maximum UCN Fetch Request Trip Time The maximum time in View milliseconds it takes to receive a response to this node s UCN fetch requests NaN HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays HPM Parameter Reference Dictionary F 4 8 97 FRSPTAVG FRSPTAVG NIM HPM Box Type Real Average UCN Fetch Response Trip Time The average time in milliseconds Lock View for this node to respond to fetch requests from other UCN nodes Default NaN PtRes HPM Range N A FRSPTMAX NIM HPM Box Type Real Maximum UCN Fetch Response Trip Time The maximum time in Lock View milliseconds for this node to respond to fetch requests from other UCN nodes Default NaN PtRes HPM Range N A FSELIN HiLoAvg Type E PINP Force Selected Input Defines the one of six inputs to be used as the forced Lock Oper PB input to this algorithm Default SelectP1 PtRes HPM Range 1 SelectP1 Input P1 is the forced input 2 SelectP2 Input P2 is the forced input 3 SelectP3 Input P3 is the forced input 4 SelectP4 Input P4 is the forced input 5 SelectP5 Input P5 is the forced input 6 SelectP6 Input P6 is the forced input FSTS FlowComp Type E PVVALST Flow Input Value Status Indicates the current status of flow input F Lock View Default Bad PtRes HPM Range 0 Bad Value is bad
192. ecial characters space amp ERS Pag Se St Ee nh EUNDESC 1 168 Type Lock Default PtRes Range String 72 IOP Generic Descriptor Used as additional display text to help the operator View diagnose potential problems with the IOP It is primarily used with diagnostic Blanks displays HPM nn 1 40 specifies one of the 40 acting primaries nn 129 168 specifies one of the 40 acting secondaries EVRCINPG Type Lock Default PtRes Range Logical NIM Event Recovery in Progress Flag View HPM Off On HPM Parameter Reference Dictionary E 4 8 97 EVTOPT EVTOPT DigComp Type Lock Default PtRes Range E EVTOPT Event Reporting Option If EVTOPT Eip and the PV changes or a PV alarm PtBld is generated the AM or CM data point named EIPPCODE is notified and a None process special on that data point takes place HPM 0 None Event Initiated Processing is not allowed 1 Eip Process special is triggered in AM CM Helpful Hint EVTOPT configuration requires NODINPTS gt 0 EVTOPT DevCtl Digin Type Lock Default PtRes Range E EVTOPT Event Reporting Option If EVTOPT Eip and the PV changes the AM or PtBld CM data point named EIPPCODE is notified and a process special on that None data takes place If EVTOPT Soe and a PV change occurs Sequence Of HPM Events Processing is notified If EVTOPT EipSoe the actions in both apply 0 None Neither Eip nor Soe is a
193. ed but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated ADVDEVTP Type Real Advisory Deviation Alarm Trip Point An alarm will be generated when the Lock Supr difference between PV and ADVSP exceeds the value in this parameter Default NaN PtRes HPM Range gt 0 0 NaN ADVDEVTP change requires SPOPT Asp Alarm generation requires ASPPROC Enable and abs PV ADVSP gt ADVDEVTP When abs PV ADVSP lt ADVDEVTP 9 alarm returns to normal ADVSP Type Real Advisory Setpoint in Engineering Units Lock Supr Default N A PtRes HPM Range SPLOLM to SPHILM Helpful Hint ADVSP change requires SPOPT Asp ASPPROC Enable Alarm generation requires ASPPROC Enable and abs PV ADVSP gt ADVDEVTP When abs PV ADVSP lt ADVDEVTP 9 alarm returns to normal ADVSPP Type Real Advisory Setpoint in Percent Lock View Default N A PtRes HPM Range N A Helpful Hint ADVSPP cannot be viewed unless SPOPT Asp HPM Parameter Reference Dictionary A 4 8 97 ALENBST ALENBST Type E ALENBST Alarm Enable Status Defines the alarm reporting function that is to be used Lock Oper when an alarm condition is detected in this data point Note that even when Default Enable alarms are disabled the alarm indicators still appear on the Group and Detail PtRes NIM displays With Release 510 and later software the word D
194. ed to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated SIALGID 1 12 DevCtl Type E 2ALGID Secondary Input Gate Algorithm ID Indicates the algorithm IDs for secondary in an Array input gates 1 12 Lock PtBld Default Null PtRes HPM Range NULL No algorithm DLY Input is Delayed algorithm ONDLY On Delay algorithm transition to ON is delayed OFFDLY Off Delay algorithm transition to OFF is delayed PULSE Input is Pulsed algorithm MAXPULSE Maximum Pulse Width algorithm MINPULSE Minimum Pulse Width algorithm HPM Parameter Reference Dictionary S 13 8 97 SIDLYTIM 1 12 SIDLYTIM 1 12 DevCtl Type Integer Secondary Input Gate Delay Pulse Width Indicates the delay or pulse width for in an Array secondary input gates 1 12 Lock Supr Default 0 PtRes HPM Range 0 to 8000 seconds SIDSTN 1 12 DevCtl Type E GATDSTN Destination for Secondary Input Gates Defines the output destination of the in an Array secondary gate 1 12 Lock PtBld Default None P
195. ee Percentage The average percent of Lock View time the Communications Processor is not busy Default NaN PtRes HPM Range 0 100 COMCFMAX HPM Box Type Real Maximum HPM Communication CPU Free Percentage The maximum Lock View percent of time the Communications Processor is not busy Default NaN PtRes HPM Range 0 100 Helpful Hint This statistic can be viewed on the Toolkit Displays COMCFMIN HPM Box Type Real Minimum HPM Communication CPU Free Percentage The minimum Lock View percent of time the Communications Processor is not busy Default NaN PtRes HPM Range 0 100 Helpful Hint This statistic can be viewed on the Toolkit Displays HPM Parameter Reference Dictionary C 11 8 97 COMDAUGH COMDAUGH Type Lock Default PtRes Range Logical HPMM Communications Daughter Card Present Flag View HPM Off No daughter card present On Daughter card present COMDAY Type Lock Default PtRes Range Integer Creation Day of HPMM Communications Personality View N A HPM 1 31 COMFWREV Type Lock Default PtRes Range String_2 HPMM Communications Firmware Revision View HPM Hexadecimal characters 00 FF COMDGAVG HPM Box Type Lock Default PtRes Range Real Average Diagnostic cycle time in minutes in the Comm CPU View 0 0 HPM COMDGMAX HPM Box Type Lock Default PtRes Range Real Maximum Diagnostic cy
196. efault 1 0 second PtRes HPM Range 0 0 to 60 0 seconds Helpful Hint PULSEWTH change requires DODSTN Tagname ONPULSE or OFFPULSE When On is to be written to the DigOut module a pulse of the specified width is generated When Off is to be written no pulse is generated PV Analgin PI Type Real Process Variable PV is the PV s current value after the PV is selected from one Lock Oper of the following possible sources a field device an operator or a program See Default NaN PVSRCOPT and PVSOURCE PtRes HPM Range PVEXEUHI to PVEXEULO NaN Helpful Hint PV change by a program requires PVSRCOPT All and PVSOURCE Sub PV change by an operator requires PYVSRCOPT All and PVSOURCE Man PV DevCtl DigComp Type E SD_ENM PVSTATES Current State PV is the PV s current state after the PV is selected Lock Oper from one of the following possible sources a field device an Default BADPVTXT operator a program or the output of the PV s data point See PtRes HPM PVSRCOPT and PVSOURCE Range 0 PVSTATES 0 Defined by STATETXT 0 1 PVSTATES 1 Defined by STATETXT 1 2 PVSTATES 2 Defined by BADPVTXT 3 PVSTATES 3 Defined by MOVPVTXT 4 PVSTATES 4 Defined by STATETXT 2 Helpful Hint PV change by a program requires PVSRCOPT All and PVSOURCE Sub PV change by an operator requires PYVSRCOPT All and PVSOURCE Man PV Digln Type E SD_ENM STATETXT Current State Indicates
197. ence Dictionary T 6 8 97 TSTS TSTS FlowComp Type Lock Default PtRes Range E PVVALST Temperature Input Value Status Status of the T input value View Normal HPM 0 Bad Value is bad and replaced with NaN 1 Uncertn Status of the value is uncertain 2 Normal Value is good TSUNICHG Type Lock Default PtRes Range Time Time Stamp Unit Change Specifies the CL Unit Change time stamp CL View object header 0 HPM N A TVPROC RegCtl Type Lock Default PtRes Range E TVPROC Target Value Processor State Oper Off HPM 0 Off No target value processing 1 Preset Set up setpoint target value and ramp time 2 Run Perform ramping function Helpful Hint _TVPROC applies only if SPOPT TV HPM Parameter Reference Dictionary T 7 8 97 HPM Parameter Reference Dictionary T 8 8 97 UCNRECHN U UCNRECHN HPM Box NIM Type Lock Default PtRes Range E RECCHN UCN Receive Channel Indicates the channel to which the node is listening View ChannelA HPM NIM 0 ChannelA 1 ChannelB UCNSCANT HPM Box Type Lock Default PtRes Range Real Peer to Peer Scan Period in seconds Eng PB 0 5 HPM 0 5 1 0 UCNSFREV Type Lock Default PtRes Integer UCN Software Revision View N A HPM UCNSFVER Type Lock Default PtRes Integer UCN Software Version View N A HPM UCNWRTLK HPM Box Type Lock Default PtRes Range
198. ength can be mapped to the Array point from the HPM box When EXTDATA IO_STR only 64 characters of string data are available i e one 64 character string two 32 character strings four 16 character strings or eight 8 character strings NTIME HPM Box Type Integer Number of Times in HPM Box Data Point Lock PtBld Default 0 PtRes HPM Range 0 to 4 096 HPM Parameter Reference Dictionary N 24 8 97 NTIME NTIME Array Type Lock Default PtRes Range Integer Number of Times in Array Point Time Array Defines the number of Times the PtBld Array point has mapped from the HPM box 0 HPM 0 to 240 NTIMER HPM Box Type Lock Default PtRes Range Integer Number of Timer Points in the HPM Box Data Point View 64 HPM 64 NTRAAVG NIM HPM Box Type Lock Default PtRes Range Real Average number of UCN Transactions Average number of UCN View transactions requests and responses per second between this node and all other 0 nodes HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays NTRAMAX NIM HPM Box Type Lock Default PtRes Range Real Maximum number of UCN Transactions Maximum number of UCN View transactions requests and responses per second between this node and all other 0 nodes HPM N A Helpful Hint This statistic can be viewed on the Toolkit Displays HPM Parameter Reference Dictionary N 25 8 97 NTRQUAVG NT
199. ept that RHMUX does not support SENSRTYP of RTD DISOE Sequence of Events SI Serial Interface AO_16 Analog Output 16 DO_32 Digital Output 32 HPM Parameter Reference Dictionary P 15 8 97 PNTNODTY PNTNODTY Type Lock Default PtRes Range E UCNNDTY Point s Node Type Defines the type of node on the UCN View N A NIM NIM Network Interface Module HPM High Performance Process Manager NotConfg Node not configured PNTSTATE Type Lock Default PtRes Range E PNTSTATE Point s Overall State Defines the state of the data point which is based on View the state of the HPMM and the IOP Card in which it resides N A NIM Failed NIM cannot communicate with point s HPMM IOP Idle Point s HPMM or IOP is in the Idle State OK Point s HPMM or IOP is the Run State and is OK UNCERTN Point s HPMM or JOP state is uncertain PNTTYPE Type Lock Default PtRes Range E PNTTYPE Point Type Defines the type of point in the HPM PtBld Null HPM 0 Null Not configured 1 AnalgIn Analog Input 2 AnalgOut Analog Output 4 DigIn Digital Input 5 DigOut Digital Output 6 DigCom Digital Composite 8 RegPV Regulatory PV 9 RegCtl Regulatory Control 10 Logic Logic 11 Array Array 12 Flag Flag 13 Numeric Numeric 14 ProcModl Process Module 22 Timer Timer 28 DevCtl Device Control HPM Parameter Reference Dictionary P 16 8 97 POSITION POSITION HPM Box Ty
200. er Than or Equal To algorithm LT2 Less Than algorithm LE2 Less Than or Equal To algorithm EQ2 Equal To algorithm NE2 Not Equal To algorithm IN_SET Compares the input to values in the INSET array PIDEADBD 1 12 DevCtl Type Lock Default PtRes Range Real Primary Input Gate Deadband The deadband for primary input gates that is in an Array configured for an arithmetic algorithm 1 12 Supr 1 0 HPM gt 0 PIDFORM Type Lock Default PtRes Range E PIDFORM PID Controller Form Defines the type of Pid controller form Refer to the Eng PB HPM Control Functions and Algorithms manual for a detailed description Interact HPM 0 Interact Proportional Integral x Derivative 1 Ideal Proportional Integral Derivative PIDSTN 1 6 Type Lock Default PtRes Range Ent Prm PV Input Connection Destination Defines the parameter in the data point that View is to receive the value provided by the respective input connection There can be Based on up to six input connection destinations for a RegPV point PVALGID PVEQN amp N HPM 1 8 character valid parameter name HPM Parameter Reference Dictionary P 5 8 97 PINN PINN 1 12 DevCtl Type Lock Default PtRes Range Real Primary Input Constants Numeric The numeric constant for arithmetic Supr comparisons of primary input gates using XX algorithms 0 0 HPM lt gt NaN PISO 1 12 DevCtl
201. ere nn 1 80 h RegCtl slot Tagname PV i RegPV slot Tagname PV j Box Flag slot Tagname PVFL k Box Numerics slot Tagname NN where nnnnn 1 16 384 1 Box FL nnnn for a box flag that resides in the same box where nnnnn 1 16 384 m NMhhBxx FL nnnn for a box flag that resides in a different HPM box on the same UCN hh is the NIM UCN address xx is the HPM box number and nnnn 1 4095 data access limit Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as DI Digital Input mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name LMREV DevCtl Type Lock Default PtRes Range E POLARITY Local Manual Polarity Indicates whether point processing inverts the local Engr PB manual input value Direct HPM Direct Value is not inverted Reverse Value is inverted HPM Parameter Reference Dictionary L 3 8 97 LMSRC LMSRC DevCtl PosProp PIDPosPr Type Lock Default PtRes Range Universal Local Manual Source The input connection for the local manual input Ent Prm Only inputs with logical data types are valid Null null Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabe
202. etermined by executed CNTLLOCK Auto HPM 0 Auto Normal mode of sequence operation Sequence runs from beginning to end without operator intervention 1 SemiAuto Sequence stops at all PAUSE statements in the sequence Operator action is required to restart the sequence 2 SnglStep Sequence is executed one step at a time and operator action is required to resume execution This mode is normally used for debugging SEQNAME ProcMod Type Lock Default PtRes Range String _8 Sequence Name Defines the name of the CL sequence that currently resides in View the process module Blank HPM N A SEQOBUJSZ ProcMod Type Lock Default PtRes Range Integer Sequence Program Size Indicates the number of memory blocks used by the View sequence currently loaded in this process module 0 HPM gt 0 SEQPR ProcMod Type Lock Default PtRes Range E ALPRIOR Sequence Priority Defines the alarm priority for Process Module points Note Engr that even when the Sequence priority is Journal the alarm indicators still appear Low on the Group and Detail displays NIM Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated JnlPrint Alarm is historized and reported to the printer but not an
203. eviation Low Alarm Priority Defines the priority of the deviation low alarm Engr Low NIM JniPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated DEVLOTP RegCtl Type Lock Default PtRes Range Real Deviation Low Alarm Trip Point Defines the lower limit for the deviation Supr NaN HPM gt 0 0 NaN Helpful Hint Alarm occurs when the PV is lower than SP DEVLOTP HPM Parameter Reference Dictionary D 8 8 97 DHTIMMAX DHTIMMAX 1 5 NIM PSDP Type Real Maximum Time to Complete a Data Handler Request Specifies the Lock View maximum time to complete a Data Handler request in msec Default 90 PtRes NIM Range N A DIAGCMD ProcMod Type E DIAGCMD Diagnostic Command Lock Oper Default N A PtRes HPM Range Helpful Hint DIAGCMD resets the ProcMod overrun statistics and AVGPU and MAXPU values DISP_SIM HPM Box Type Logical Simulation Indicator Display
204. ew Default PtRes HPM Range Notload Loaded Loading Unlding LOCALMAN AnalgOut RegCtl Type Logical Local Manual Flag Indicates whether the associated hardware output of this Lock View point is being controlled by a manually operated analog display Default Off PtRes HPM Range Off Output is not being controlled by an Analog Display On Output is being controlled by an Analog Display LOCALMAN DigComp DevCtl Type Logical Local Manual Flag When On indicates that the output s is being locally Lock Prog controlled and not by the HPM When this flag is on it usually indicates that Default Off the hand off auto switch is not in the auto position PtRes HPM Range Off On LOCPRIM 1 4 Type Local Primary Returns the tag name of a primary point in the same HPM that Lock View is storing to this point s parameters Default PtRes HPM The parameter index indicates the parameter being pushed to by the primary as follows depending on the algorithm configured in the Regulatory Control point 1 SP or X1 2 Ratio or X2 3 X3 4 X4 Range HPM Parameter Reference Dictionary L 6 8 97 LODSTN LODSTN 1 12 Logic Type Blind Record Logic Output Connection Destination Specifies up to 12 destinations to which in an Array the current values of the logic slot outputs are supplied The destinations can be 1 12 specified using the Tagname Parameter format or the hardware reference addres
205. ew Flag is is set to ON when the PV is bad Off HPM Off PV is not bad On PV is bad BADPVPR Type Lock Default PtRes Range E ALPRIOR Bad PV Alarm Priority Defines the priority of the bad PV alarm Engr Low NIM Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated HPM Parameter Reference Dictionary B 5 8 97 BADPVTXT BADPVTXT DevCtl DigComp NIM Type Lock Default PtRes Range String _8 Bad PV State Descriptor Defines the state descriptor that is displayed when the PtBld digital composite or device control point state is indeterminate or bad The bad BAD state can result when the PV input signals from the process are in an NIM inconsistent state e g for a valve the limit switches indicating open and closed are on at the same time This state descriptor is configured on a per point basis and is valid only when the PVTXTOPT parameter is On The permissible charac
206. ew milliseconds that it takes to receive a response to this node s UCN store Default NaN request PtRes HPM Range N A Helpful Hint This statistic can be viewed on the Toolkit Displays SRSPTAVG NIM HPM Box Type Real Average UCN Store Response Trip Time tThe average time in milliseconds Lock View that it takes this node to respond to UCN store requests from other nodes Default NaN PtRes HPM Range N A Helpful Hint This statistic can be viewed on the Toolkit Displays SRSPTMAX NIM HPM Box Type Real Maximum UCN Store Response Trip Time The maximum time in Lock View milliseconds that it takes this node to respond to UCN store requests from Default NaN other nodes PtRes HPM Range N A Helpful Hint This statistic can be viewed on the Toolkit Displays HPM Parameter Reference Dictionary S 21 8 97 SSTEP SSTEP 1 2 ProcMod Type Lock Default PtRes Range String_8 Subroutine Step Name Indicates the current step of the subroutine executing in View this Process Module A value of means that no subroutine is executing Spaces SSTEP 1 and SSTEP 2 display the step name of the first and second level HPM subroutines called from the main sequence N A SSTMT 1 2 ProcMod Type Lock Default PtRes Range Integer Subroutine Statement Number This parameter points to the statement number View in the NIM sequence library of the current subroutine A value of 0 indica
207. f HPMM is idle with soft failure s OK HPMM is running with no errors Softfail HPMM is running with soft failure s Fail HPMM has failed Poweron HPMM is in Power On state startup condition from power loss Alive HPMM has passed self diagnostics and is ready to accept personality Alivesf HPMM diagnostics have soft failure Loading HPMM is loading personality Notconfg HPMM is not configured on network Unavail HPMM is unavailable on network for communications Test HPMM is in Test mode Testsf HPMM is in Test mode with a soft failure s Standby StandbySF Upgrade UpgradeSF HPM Parameter Reference Dictionary P 19 8 97 PRVCOMFL PRVCOMFL Type E PMMHFST Previous HPMM Communications Board Failure Lock View Default PtRes HPM Range NULL Unknown Error PWRDWYN Power is Off LR_PAR Local Ram Parity Error LR_LRAM Local Ram Error LR_CK Local Ram Check LR_EXC Local Ram Exception LR_HREV Local Ram Hardware Revision M M_HREV Memory Board Hardware Revision LR_TMR Local Ram Timer Error LR_PTRN Local Ram Pattern Check Error LR_BYTE Local Ram Byte Error LR_ADCD Local Ram Address Decode Test LR_ADDL Local Ram Additional Checks LR_CLRR Local Ram Scrub Incomplete SR_PAR Shared Ram Parity SR_PTRN Shared Ram Pattern SR_ADCD Shared Ram Address Decode Test SR_ADDL Shared Ram Additional Checks GR_PAR Global Ram Parity GR_PTRN Global Ram Pattern Check Error GR_BYTE
208. f Logic Output Connections Indicates the number of output Lock View Logic connections from this logic slot PtBld DevCtl Default N A PtRes HPM Range 9 to 12 Logic 0 to 2 DevCtl HPM Parameter Reference Dictionary N 16 8 97 NOOVRRUN NOOVRRUN ProcMOD Type Integer Number of Overruns lIndicates the number of times the point has overrun its Lock View CNFPU allocation since the last reset Default 0 PtRes HPM Range NOOVRRUN ProcMod Type Integer Number of Overruns Specifies the number of times the point has overrun its Lock View CNFPU allocation since the last reset Default 0 PtRes HPM Range 0 4 NOPGATE DevCtl Type Integer Number of Primary Gates Indicates the number of primary gates configured for Lock PtBld a particular Device Control slot Default 0 PtRes HPM Range 0to4 NOPINPTS RegPV Type Integer Number of PV Input Connections Defines the number of PV input Lock View connections to this algorithm Default Based on PVALGID PVEQN N PtRes HPM Range 0to6 HPM Parameter Reference Dictionary N 17 8 97 NOPTS NOPTS 0 64 Type Integer Number of Points Per Cycle Defines Lock View Default 0 Index 0 used for total count PtRes HPM Index 1 64 used for per cycle count Range Helpful Hint The total count may not be equal to the sum of all cycles because most points are in more than one cycle NORMCYCL Type Integer Normal Execution Cycl
209. f PNTFORM Componnt STATETXT 2 for State 2 applies only if NOSTATES 3 for digital composite or device control points HPM Parameter Reference Dictionary S 24 8 97 STATMENT STATMENT ProcMod Type Integer Statement Indicates the current statement of the sequence executing in this Lock View process module A statement number of 0 indicates that no statement is being Default 0 executed PtRes HPM Range 1 to 255 STATTIMO0 2 DevCtl DigComp Type Time State Time The amount of time based on the PV that has accumulated for Duration States 0 1 and 2 since the most recent reset of maintenance statistics Lock View Default 0 PtRes HPM Range 9 4000 Days 1 second resolution STDBYMAN AnalgOut DigOut RegCtl Type Logical Standby Manual Flag Indicates whether the associated hardware output is Lock View connected to a standby manual device It is not an indication of whether or not Default Off the output is isolated from the process PtRes HPM Range Off Output is not connected to standby manual device On Output is connected to standby manual device STDBYSTS 1 168 Type Logical Standby Status Flag Returns blind record of STDBYMAN status Lock View Default PtRes HPM Range Off No Standby Manual present On Standby Manual is activated STCHGOPT DevCtl DigComp Type E STCHGOP State Change Option State0 passed through before entering a new state If Lock Eng
210. f the process module point can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed PRMDESC 1 12 Logic Type Lock Default PtRes Range E PMMLGPM Parameter Descriptor Assignment Defines up to 12 logic slot parameters Eng PB to which custom generic descriptors entered through parameters N A GENDESC 1 12 are to be assigned NIM L1 L12 Logic slot inputs FL1 FL12 Logic slot flags NNI1 NN8 Logic slot numerics SO1 S024 Logic slot outputs PROCMOD ProcMod Type Lock Default PtRes Range E PROCMOD Process Module Operating State Represents the operational condition of a Determined by process module Refer to the HPM Control Functions and Algorithms CNTLLOCK manual for a state diagram parameter Off HPM 0 Off Off 2 Norm Normal 4 Hold Hold 5 Shdn Shutdown 6 Emsd Emergency Shutdown 7 Strt Start 8 Stop Stop HPM Parameter Reference Dictionary P 18 8 97 PRPMMSTS PRPMMSTS Type Lock Default PtRes Range E NODESTA Previous HPMM Status View HPM Offnet HPMM is offnet with no communications possible Confgmis HPMM is in configuration mismatch Idle HPMM is idle Idles
211. ference temperature input and is in the same Supr Engineering Unit as the T measured actual temperature input 1 0 HPM N A Real Deadtime Ratio Supr 1 0 HPM 0 01 to 100 0 RTHILM Pid Type Lock Default PtRes Range Real Ratio High Limit Supr 100 0 HPM RTLOLM to 100 0 NaN Helpful Hint Entering NaN forces RTHILM to its extreme value 100 0 RTLOLM Pid Type Lock Default PtRes Range Real Ratio Low Limit Supr 0 01 HPM 0 01 to RTHILM NaN Helpful Hint Entering NaN forces RTLOLM to its extreme value 0 01 RUNSTATE ProcMod Type Lock Default PtRes Range Logical Run State Indicates that the point is in the RUN sequence execution state View Off HPM Off Process Module point is not in the RUN state On Process Module point is in the RUN state HPM Parameter Reference Dictionary R 9 8 97 RV RV Timer Type Lock Default PtRes Range Integer Remaining Time Indicates the amount of time remaining in seconds or View minutes that the timer is to run 0 HPM gt 0 RX FlowComp Type Lock Default PtRes Range Real Reference Steam Compressibility Defines the reference steam compressibility Supr and is in the same engineering units as the X measured actual steam 1 0 compressibility HPM Anything except NaN HPM Parameter Reference Dictionary R 10 8 97 SOBOXCLR S SOBOXCLR S1BOXCLR S2BOXCLR Type Lock
212. ff to On Default Off PtRes HPM Range Off On RESETVAL DigIn Type Integer Accumulator Reset Value Value that is preset in the accumulator Value can Lock Oper then be incremented or decremented depending on the COUNTDWN parameter Default 0 PtRes HPM Range 0 32767 RESETVAL Totalizr Type Real Reset Value Value used for presetting the value to be totaled Lock Oper Default 0 0 PtRes HPM Range N A RESTART ProcMod Type E RESTART Process Module Restart State Indicates the type of restart last performed by Lock View the process module This value will be set to a value other than None until Default None the first preemption point PtRes HPM Helpful Hint RESTART can be used to determine if the startup was caused by failover Following failover RESTART takes on the value Failover This value remains until the first preemption point after which it returns to None Range 0 None Has not been restarted 1 Failover Running for the first time after a failover 3 Warm Running for the first cycle after a warm start 4 Cold Running for the first cycle after a cold start or a power up to Run 5 PTACTVN Running for the first cycle following the transition from Off state to Run state RFB PidErfb Type Real Reset Feedback Input in Percent Indicates the PV value of another data point Lock View that is receiving its setpoint from this data point Default N A PtRes HPM
213. fg Not Configured 1 LLAI Low Level Analog Input 2 HLAI High Level Analog Input 3 DI Digital Input 4 DO Digital Output 5 AO Analog Output 7 LLMUX Low Level Analog Input Multiplexer also includes RHMUX Remote Hardened Analog Multiplexer 14 STIM Smart Transmitter Interface Module 17 PI Pulse Input DISOE Digital Input Sequence of Events SI Serial Interface AO 16 Analog Output DO 32 Digital Output IONTOKEN HPM Box Type Integer IOP Next Token Holder Lock View Default N A PtRes HPM NOTE This parameter is available to the nodes on the LCN but cannot be accessed on the UCN either by HPM CL programs or print connections Range 0 or 128 to 255 lIOPDESC 1 40 Type String 8 IOP Description Provides an 8 character description of the IOP Lock View Default Spaces PtRes HPM Helpful Hint An 8 character string is read from the IOP s EPROM and stored in the HPMM The text string appears on the IOP Detail Display Even if the IOP fails an operator can identify the IOP FTA for maintenance Not all IOPs have this feature yet Range 8 characters HPM Parameter Reference Dictionary 1 14 8 97 IOPIDAY IOPIDAY HPM Box Type Lock Default PtRes Range Integer HPMM TO Link Personality Creation Date Day View 0 HPM IOPIMON HPM Box Type Lock Default PtRes Range Integer HPMM I O Link Personality Creation Date Month View 0 HPM N A IO
214. fies the Allen Bradley PLC scan frequency 0 Lock Eng indicates that the point is to be scanned as fast as possible 1 255 indicates the Default NaN number of seconds for the polling period 256 scan once Note that the report PtRes HPM by exception feature can work with any scan rate selection Refer to the APM HPM Serial Interface Options manual for more information Range 0 256 Use of this parameter is only required to configure Serial Interface mapping to from an Allen Bradley programmable logic controller device This parameter should be set to NAN if it is not being used HPM Parameter Reference Dictionary A 1 8 97 ABHEMSD ABHEMSD ProcMod Type Lock Default PtRes Range Logical Abnormal Handler Emergency Shutdown Enable Flag Indicates if the View Emergency Shutdown abnormal handler sequence is currently enabled Off HPM On Emergency Shutdown abnormal handler is enabled Off Emergency Shutdown abnormal handler not enabled ABHHOLD ProcMod Type Lock Default PtRes Range Logical Abnormal Handler Hold Enable Flag Indicates if the Hold abnormal handler View sequence is currently enabled Off HPM On Hold abnormal handler is enabled Off Hold abnormal handler not enabled ABHRSTR ProcMod Type Lock Default PtRes Range Logical Abnormal Handler Restart Enable Flag Indicates if the Restart abnormal handler View sequence is currently enabled Off HPM On Restart
215. fines the PV state descriptor that is to be Eng PB used and displayed when inputs D2 and D1 are both Off 00 MovPV HPM 0 PVState0 STATETXT 0 descriptor 1 PVStatel STATETXT 1 descriptor 2 BadPV BADPVTXT descriptor 3 MovPV MOVPVTXT descriptor 4 PVState2 STATETXT 2 descriptor Helpful Hint D2D1_00 configuration requires NODINPTS 2 Option PVState2 cannot be selected unless NOSTATES 3 STATETXT 0 2 is configured for each DigComp or DevCtl point BADPVTXT and MOVPVTXT are configured during Box Data Point configuration for all DigComp or DevCtl points in this box D2D1_ 01 DigComp DevCtl Type Lock Default PtRes Range E PVSTATS D2D1 Zero_One PV State Defines the PV state descriptor that is to be used Eng PB and displayed when input D2 is Off and input D1 is On 01 PVStatel HPM 0 PVState0 STATETXT 0 descriptor 1 PVStatel STATETXT 1 descriptor 2 BadPV BADPVTXT descriptor 3 MovPV MOVPVTXT descriptor 4 PVState2 STATETXT 2 descriptor Helpful Hint D2D1_01 configuration requires NODINPTS 2 Option PVState2 cannot be specified unless NOSTATES 3 STATETXT 0 2 is configured for each DigComp or DevCtl tag name BADPVTXT and MOVPVTXT are configured during Box Data Point configuration for all DigComp or DevCtl points in the box HPM Parameter Reference Dictionary D 2 8 97 D2D1_10 D2D1_10 DigComp DevCtl Type E PVSTATS D2D1 One_Zero PV State Defines the PV
216. for a box flag that resides in the same box where nnnn 1 16 384 g NMhhBxx FL nnnn for a box flag that resides in a different HPM box on the same UCN hh is the NIM UCN address xx is the HPM box number and nnnn 1 4095 Data access limit Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as DI Digital Input mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name OPHITP RegCtl Type Real Output High Alarm Trip Point The Regulatory Control Output High alarm is Lock Supr set when the output value OP exceeds the high alarm limit specified by Default NaN OPHITP The alarm is removed when OP returns to normal A suitable dead PtRes HPM band is provided by OPALDB See also OPHIPR and the drawing with OPLAFL Available on Release 510 and later software Range OPLOTP to OPHILM NaN Helpful Hint The Regulatory Control Output High alarm is only available for points configured as full The alarm is disabled if OPHITP is not configured OPINO Type Real Input Coordinate Number 0 in Percent Defines the OPINO coordinate when Lock View output characterization has been selected OPCHAR is On This coordinate is Default 6 9 fixed at 6 9 PtRes HPM Range N A HPM Parameter Reference Dictionary O
217. for the slidewire 1 HPM 1 16 SNAME 1 2 ProcMod Type Lock Default PtRes Range String_8 Subroutine Name Indicates the name of the subroutine currently used by the View process module A value of means that no subroutine is executing Spaces SNAME 1 and SNAME 2 display the name of the first and second level HPM subroutines called from the main sequence N A SO DigOut Type Lock Default PtRes Range Logical Status Output tThe output from a DigOut point Oper Off HPM Off Field contact is to be de energized On Field contact is to be energized Helpful Hint Only the HPMM Cont_Ctl access level can write to this parameter SO Timer Type Lock Default PtRes Range Logical Status Output of Timer Indicates whether the PV elapsed time has reached View the SP preset time Off HPM On PV has reached the SP Off PV has not reached the SP O 1 24 Logic Type Lock Default PtRes Range Logical Logic Block Status Output Indicates the output state of the logic block View Off HPM Off Output is false On Output is true HPM Parameter Reference Dictionary S 16 8 97 S O 0 2 O 0 2 DevCtl DigComp Type Logical Status output array lIndicates the current output state of the Digital Composite Lock View slot Default Off s 0 for state 0 PtRes HPM s 1 for state 1 Range Off s 2 for state 2 On SOAKT1 12
218. gCtl Type Prm ID Control Input Connection Destination Defines the parameter name PV SP Lock PtBld etc in the RegCtl point that is to receive the value fetched using the Default Based on Tagname Parameter or the hardware reference address specified in parameter CTLALGID CISRC Control Input Connection Source CTLEQN N PtRes HPM Range N A Helpful Hint 1 CIDSTN must contain a legitimate parameter of one to eight characters 2 Default to PV SP or some other parameter depends on parameters CTLALGID CTLEQN and M CISRC 1 CISRC 4 RegCtl Type Ent Prm Control Input Connection Source Defines the Tagname Parameter of the Lock PtBld parameter whose value is to be obtained and then stored in one of up to four Default null null RegCtl algorithm inputs Refer to the HPM Control Functions and Algorithms PtRes HPM manual for a detailed description Range Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name CLBACK ProcMod Type Integer Number of Back
219. ge number of UCN Lock View parameter responses per second issued from this node to node n Default 0 PtRes HPM Range N A NOTE The node address n is an odd number 1 3 5 63 Using an even number results in a Parameter_Invalid error Using n 0 returns average total number of parameter responses to all other nodes NPRSPMAX 0 64 NIM HPM Box Type Real Maximum number of UCN Parameter Responses Maximum number of Lock View UCN parameter responses per second issued from this node to node n Default 0 PtRes HPM Range N A NOTE The node address n is an odd number 1 3 5 63 Using an even number results in a Parameter_Invalid error Using n 0 returns maximum total number of parameter responses to all other nodes NPVSLOT HPM Box Type Integer Number of Regulatory PV Slots Refer to the HPM Control Functions and Lock PtBld Algorithms manual for a detailed description of HPM processing capacity Default 0 PtRes HPM Range 0 to 125 HPM Parameter Reference Dictionary N 22 8 97 NRMATRFL NRMATREL DigComp DevCtl RegCtl Type Lock Default PtRes Range Logical Normal Mode Attribute Flag indicates if this point is in the configured View Normal Mode attribute N A HPM ON point is in the configrured Normal mode attribute Off point is not in the configured Normal Mode attribute or Normal Mode attribute is not configured Helpful Hint If Normal mode attri
220. gic Supr slot The numerics can be used as reference values for the comparison logic NaN algorithms or they can be used as source parameters for the output connections HPM when writing predefined analog constants to other points The values of the N A numerics can be changed from the Universal Station by other device control logic slots or by user written programs NN 1 80 ProcMod Type Lock Default PtRes Range Real Numeric Variables Each process module in the HPM has 80 numerics that can Determined be used for implementing batch operations by SPLOCK parameter NaN HPM N A NN 1 16 384 HPM Box Type Lock Default PtRes Range Real Numeric Value This is an array of up to 16 384 numeric variables The upper Oper bound of this array is determined by the NNUMERIC parameter Numerics NaN NN 1 to NN 2047 are taggable Numerics NN 1 to NN 4095 are accessible HPM from the LCN by using hardware form Box NN Numerics 4096 through 16 384 are accessible only through Array points N A HPM Parameter Reference Dictionary N 9 8 97 NNDESC NNDESC Array Type Lock Default PtRes Range String_64 NN Array Descriptor Describes NN data for the Array point PtBld Spaces HPM N A NNINSET 1 10 DevCtl Type Lock Default PtRes Range Integer Numeric 1 10 A set of 10 integers that are used by the primary input gate in an Array IN_SET algorithm 1 10
221. han the absolute value of PVEUHI PVEULO gt 0 0 NaN For RegPV points RegCtl points and points in a HLAI or LLAI the maximum rate of change is one step away from PVEXEUHI to PVEXEULO in eight seconds therefore the maximum rate of change is PVEXEUHI PVEXEULO 7 5 units minute For SENSRTYP RTD the maximum is 800 180 7 5 which is 7350 PVROCPFL RegCtl RegPV Type Lock Default PtRes Range Logical PV Positive Rate of Change Alarm Flag Indicates that the positive View rate of change of the PV has exceeded the value established by the PVROCPTP off parameter HPM Off No PV positive rate of change alarm On PV positive rate of change alarm HPM Parameter Reference Dictionary P 41 8 97 PVROCPPR PVROCPPR RegCtl RegPV Type Lock Default PtRes Range E ALPRIOR PYV Positive Rate of Change Alarm Priority Defines the priority of the Engr positive rate of change PV alarm for this point Low NIM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported
222. haracter or the last character and consecutive underscores are not allowed Embedded space characters are not allowed ACTPRIM 1 40 HPM Box Type Lock Default PtRes Range E ACTPRIM Acting Primary I O module Specifies the acting primary I O module View nn 1 40 corresponds to the 40 logical I O modules Applies to primary IOP only HPM 0 IOM_A The A module is the acting primary 1 IOM_B The B module is the acting primary ADVDEVFL Type Lock Default PtRes Range Logical Advisory Deviation Alarm Flag Indicates whether an advisory alarm has been View detected Off HPM Off Alarm has not been detected On Alarm has been detected PV ADVSP is greater than ADVDEVTP Helpful Hint ADVDEVEFL is never On unless SPOPT Asp HPM Parameter Reference Dictionary A 3 8 97 ADVDEVPR ADVDEVPR Type E ALPRIOR Advisory Deviation Alarm Priority Determines the priority of the advisory Lock Engr deviation alarm Default Low PtRes NIM Range JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historiz
223. has store access SPLOCK Array Type E ACCLVL Setpoint Lock Indicates the access lock for array point parameters FL NN Lock Engr STRn and TIME Default Operator PtRes HPM Range 0 Operator Operator and higher keylock positions allow store access 1 Supervis Supervisor and higher keylock positions allow store access 2 Engineer Engineer and higher keylock positions allow store access 3 Program Only the program has store access SPLOCK Totalizer Type Setpoint Lock Stores to AVTV PVTV parameters are checked against the Lock Engr access lock specified by SPLOCK Default PtRes HPM Range 0 Operator Operator and higher keylock positions allow store access 1 Supervis Supervisor and higher keylock positions allow store access 2 Engineer Engineer and higher keylock positions allow store access 3 Program Only the program has store access HPM Parameter Reference Dictionary S 19 8 97 SPLOFL SPLOFL RegCtl Type Logical Setpoint Low Limit Violation Flag lIndicates that the SP has exceeded the Lock View lower limit established by SPLOLM Default Off PtRes HPM Range Off Low limit is not exceeded On Low limit is exceeded SPLOLM RegCtl Type Real Setpoint Low Limit Defines the lower limit for the SP Lock Supr Default NaN PtRes HPM Range SPEULO to SPHILM NaN Helpful Hint 1 Entering NaN disableslimit checking by forcing SPLOLM to its extreme value SPEULO 2 S
224. he full Multiply value output is accumulated HPM 0 Add Scaled Feedforward Feedback 1 Multiply Feedback x Scaled Biased Feedforward FL i Array Type Lock Default PtRes Range Logical Array Point Flag Variables The flags are mapped from either the HPM Determined by box defined by FLSTIX and NFLAG parameters or from a serial interface SPLOCK IOP connected device when EXTDATA IO_FL mapping is defined by IOPNUM FTANUM DEVADDR FLSTIX and NFLAG parameters N A HPM 1 lt is Array parameter NFLAG HPM Parameter Reference Dictionary F 2 8 97 FL FL 1 12 DevCtl Logic Type Logical Logic Slot Flags Twelve flags FL 1 to FL 12 are provided for each logic Lock View FL1 FLS5 slot The states of flags FL 1 to FL 6 are controlled by the HPM and cannot Prog FL6 be changed by the user FL 7 FL 12 are assigned by the user for controlling Oper FL7 the path of the logic in the respective logic slot Refer to the HPM Control FL12 Functions and Algorithms manual for a detailed description Default FL2 On rest Off These flags are local to the logic slot and are different than the 127 flags PtRes HPM provided with each process module and the 1023 flags provided in each HPM box Range Off Flag is off On Flag is set FL 1 127 ProcMod Type Logical Local Flag Variables Each process module in the HPM has 127 local flags that Lock Determined can be used for implementing batch opera
225. he thermocouple PtRes HPM range option and temperature scale The tables below show the default values in degrees C For other engineering units these values are appropriately converted Note that PVEXEULO cannot be written with NaN NaN is the default value only Range lt PVEULO NaN Defaults for Extended Range PV Parameters When SENSRTYP THERMCPL PVTEMP Degrees C TCRNGOPT NORMAL TCRNGOPT EXTENDED PVCHAR PVEXEULO PVEXEUHI PVEXEULO PVEXEUHI Btherm 1820 Etherm 1000 Jtherm 1200 Ktherm 1370 Rtherm 1700 RPtherm 1770 Stherm 1700 Ttherm 400 HPM Parameter Reference Dictionary P 33 8 97 PVEXEULO PVEXEULO continued Defaults for Extended Range PV Parameters When SENSRTYP RTD PVTEMP Degrees C PVCHAR PVEXEULO PVEXEUHI PtDinRTD 180 800 PtuisRTD 180 650 NickIRTD 45 315 CopprRTD 20 250 PVEXHIFL Type Lock Default PtRes Range Logical PV Extended High Range Violation Indicates that the PV has exceeded the View extended high range alarm trip point Off HPM Off Extended high range not exceeded On Extended high range exceeded PVEXLOFL Type Lock Default PtRes Range Logical PV Extended Low Range Violation Indicates that the PV has exceeded the View extended low range alarm trip point Off HPM Off Extended low range not exceeded On Extended low range exceeded PVFL 0 2 DevCtl DigComp Type Lock Default PtRes Range Logical PV Flag lIndicates
226. hen the delay timer expires future state changes are immediately alarmed If the PV is in the opposite state a second COS alarm is produced and the delay timer is restarted Range 9 to 60 seconds DLYTIME 1 24 Logic Type Real Alarm Delay in Seconds for Logic Block Lock Supr Default 1 second PtRes HPM Range 1 8000 seconds HPM Parameter Reference Dictionary D 11 8 97 DODSTN DODSTN 1 3 DigComp DevCtl Type Lock Default PtRes Range Universal Digital Composite and Device Control Output Connection Destination Ent Prm Specifies up to three output connection destinations that are to receive the OP PtBld output from this point The destination can be specified using the null null Tagname Parameter format or the hardware reference address format Refer to HPM the HPM Control Functions and Algorithms manual for a detailed description Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible output connection destinations are
227. hich the generic descriptor is attached is defined PtRes NIM by the PRMDESC n parameter and the corresponding descriptors are defined by Range 90 to 12 the GENDESC n parameters This allows the user to customize the descriptors used for displaying the logic slot on the Universal Station displays NODESTAT HPM Box Type E NODESTA HPM Node Status Lock View Default N A PtRes HPM Range OffNet HPM is not running on UCN OK HPM is configured and running NODESTAT NIM Type E NODESTA NIM s Node Status Lock View Default N A PtRes NIM Range OffNet NIM is not running on UCN OK NIM is configured and running NODESTS NIM Type E DSPSTAT NIM Node Summary Status Indicates the current overall status of the NIM Lock View Default N A PtRes NIM Range OffNet NIM cannot communicate with HPMM OK NIM is performing normally HPM Parameter Reference Dictionary N 13 8 97 NODESTS NODESTS HPM Box Type Lock Default PtRes Range E DSPSTAT HPM Node Summary Status Indicates the current overall status of the HPM View on the UCN N A HPM 0 OK HPM is performing normally 1 IOIDL At least one IOP has entered the idle state 2 IDLE HPMM has entered the idle state 3 PF_IOIDL Partial failure in one or more idle IOPs 4 PF_IDLE Partial failure in HPMM that is in idle state 5 PartFail Partial failure in HPMM that is in run state 6 Fail HPMM has sent a failed message to the NIM
228. historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated Helpful Hint PVHHPR configuration requires PVHHTP NaN PVHHTP Analgin RegPV Type Lock Default PtRes Range Real PV High High Alarm Trip Point Defines the PV high high alarm trip point Supr for this point NaN HPM PVHITP to PVEXEUHI NaN Helpful Hint PVHHTP configuration requires PVHITP NaN HPM Parameter Reference Dictionary P 35 8 97 PVHHTP PVHHTP RegCtl RegPV Type Lock Default PtRes Range Real PV High High Alarm Trip Point Defines the PV high high alarm trip point Supr for this point NaN HPM PVHITP to PVEUHI NaN Helpful Hint PVHHTP configuration requires PVHITP NaN PVHIFL RegCtl RegPV Type Lock Default PtRes Range Logical PV High Alarm Flag lIndicates that the PV has exceeded the alarm trip point View established by parameter PVHITP Off HPM Off No PV High alarm On High PV alarm PVHIPR RegCtl RegPV Type Lock Default PtRes Range E ALPRIOR PV High Alarm Priority Defines the priority of the PV high alarm for this Engr point
229. hm the value of B2 should be the same as C4 0 0 HPM N A B1 B2 B3 MulDiv Type Lock Default PtRes Range Real Bias for Inputs for X1 X2 and X3 Supr 0 0 HPM HPM Parameter Reference Dictionary B 1 8 97 BADCTLFL BADCTLFL Type Lock Default PtRes Range Logical Bad Control Alarm Flag lIndicates whether a bad control alarm has been View detected Off HPM Off Bad control alarm not present On Bad control alarm present BADCTLOP Type Lock Default PtRes Range E BADCTLO Bad Control Option Indicates if the mode sheds to manual when bad PV or CV Engr occurs for regulatory control points It also shows the value of the output No_Shed HPM 0 No_Shed The point holds its output and mode resuming control after initialization upon recovery 1 ShedHold The mode sheds to manual the mode attribute goes to operator while the output is held and external mode switching is disabled 2 ShedLow The mode sheds to manual the mode attribute goes to operator while the output goes to 6 9 and external mode switching is disabled 3 ShedHigh The mode sheds to manual the mode attribute goes to operator while the output goes to 106 9 and external mode switching is disabled 4 ShedSafe The mode sheds to manual the mode attribute goes to operator while the output goes to SafeOP and external mode switching is disabled If SafeOP is NaN the output is held as if the Bad Control Option
230. ics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed LOGMIX Logic Type Lock Default PtRes Range E LOGMIX Logic Mix Defines the number of input connections logic blocks and output PtBld connections this logic slot contains 12_24 4 HPM Input Connections Number of Output Connections LISRC 1 LISRC 12 Logic Blocks LOSRC 1 LOSRC 12 12_24 4 12 24 4 12_16_8 12 16 8 12_8_12 12 8 12 LOSRC 1 2 DevCtl Type Lock Default PtRes Range E PMDVPRM Device Control Output Connection Source Defines the Device Control in an Array parameter that is to provide its value to the output connection specified by 1 2 parameter LODSTN n Device Control Output Connection Destination PtBld FL1 HPM FL1 FL12 Local flag either a 1 On or a 0 Off D1 D2 Digital PV inputs either a 1 On or a 0 Off SIO Safety interlocks either a 1 On or a 0 Off 10 I1 I2 Interlocks either a 1 On or a 0 Off PO P1 P2 Permissives either a 1 On or a 0 Off PISO1 PISO12 Primary Input Gate Values logical SISO1 SISO12 Secondary Input Gate Values logical PGSO1 PGS0O4 Primary Gate Output Values logical SGSO1 SGSO2 Secondary Gate Output Values logical L1 L12 Logic input value to device con
231. ific Gravity Input Indicates the value of the measured or calculated specific View gravity or molecular weight 1 0 HPM N A GAINOPT Pid Type Lock Default PtRes Range E GAINOPT Gain K Option Eng PB Lin HPM 0 Lin Applies linear gain with overall gain K KLIN 1 Gap Reduces the sensitivity of control action when the PV is within a narrow band around the setpoint If the PV is outside the gap overall gain K KLIN If SP GAPLO lt PV lt SP GAPHI K KLIN times KGAP 2 Nonlin Makes control action proportional to the error PV SP squared with overall gain K KLIN times KNL where KNL NLFM plus NLGAIN times PV SP 100 3 Ext Applies external gain Overall gain K KLIN times KEXT where KEXT is the positive external gain modifier GAPHI Pid Type Lock Default PtRes Range Real Gap High Limit Defines the upper limit of the gap in the same engineering Supr units as the PV 0 0 HPM gt 0 0 GAPLO Pid Type Lock Default PtRes Range Real Gap Low Limit Defines the bottom limit of the gap in the same engineering Supr units as the PV 0 0 HPM gt 0 0 HPM Parameter Reference Dictionary G 1 8 97 GENDESC GENDESC 1 12 Type String 8 Generic Descriptors Define up to 12 generic descriptors that can be assigned to Lock PtBld logic slot parameters As an example six descriptors could be assigned to six Default Blanks logic slot inputs t
232. imeout condition occurred on WAIT statement 169 An attempt was made to start a sequence that has not been loaded 170 Communication error in READ WRITE statement 171 Communication error detected during I O Link access This error is also generated for all post store problems 172 Range Error 173 An attempt was made to write to a point that was not in the proper mode 174 Interlock error 175 255 Not used SEQEXEC ProcMod Type Lock Default PtRes Range E SEQEXEC Sequence Execution State Indicates the current execution state of the View sequence program that is executing in the process module Refer to the HPM NL Control Functions and Algorithms manual for a detailed description of the HPM execution states 0 NL Not Loaded 1 DLL Down line loading is in progress 2 Loaded Sequence has been loaded into the process module 3 End Sequence has stopped because it has run to completion 4 Pause Sequence has stopped because of a PAUSE statement or after each step is executed while in the SnglStep sequence execution mode 5 Fail Sequence has stopped because a sequence failure was detected 6 Error Sequence has stopped because a sequence error was detected 7 Run Sequence is running in the process module HPM Parameter Reference Dictionary S 8 8 97 SEQMODE SEQMODE ProcMod Type Lock Default PtRes Range E SEQMODE Sequence Execution Mode Defines the manner in which the sequence is D
233. int in Engr the AM or CM that is to be notified when an event is detected by this point Null NIM Tag name of the data point can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed EIPPCODE configuration requires PNTTYPE DigIn DigComp Logic Flag or DevCtl and EVTOPT Eip or Eip_Soe For HPM Box Flag points this parameter applies only to slots 1 through 128 EQUOBJNM Type Lock Default PtRes Range String Equipment List Object Name Specifies the Equipment List Object Name CL View object header Blank HPM N A HPM Parameter Reference Dictionary E 1 8 97 ERRCODE ERRCODE Array Type Lock Default PtRes Range String 8 View Spaces HPM N A Serial Interface Serial Link Communication Error Code When the BADPVFL parameter ON this parameter provides additional information if initialized by the serial interface FTA driver program SI Array Point Error Code Values HPM HPM Idle When the HPMM status is IDLE Array point configuration may or may not be loaded to the SI IOP Iop Comm When the HPMM status is RUN Array point configuration is NOT loaded to the SI IOP SI TOP No_FTA Appears when the power
234. isition DataAcq 3 3 The parameters of the Data Acquisition PV algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP BADPVFL F BADPVPR F CONCUT F CNFMU CNFPU EUDESC HIGHAL F HIGHALPR F KEYWORD LASTPV MODNUM NAME NODENUM NODETYP NOPINPTS NORMCYCL NTWKNUM OVERVAL F P1 PISTS PERIOD PFDLYFL PIDSTN PISRC PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PV PVALDB F PVALDBEU F PVALGID PVAUTO PVAUTOST PVCALC PVCLAMP PVEUHI PVEULO PVEXEUHI PVEXEULO PVEXHIFL PVEXLOFL PVFORMAT 3 4 Flow Compensation FlowComp PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVINIT PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPVFL PVROCPPR F PVROVPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F SCHSTS SLOTNUM STSMSG TF UNIT USERID The parameters of the Flow Compensation PV algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP BADPVEL F BADPVPR F C C1 C2 CNFMU CNFPU COMPHILM COMPLOLM COMPTERM CONTCUT F EUDESC F FSTS G GSTS HIGHAL F HIGHALPR F KEYWORD HPM Parameter Reference Dictionary LASTPV MODNUM NAM
235. l Raw State of Field Contacts Indicates the current state of the field contacts Lock View Default Off PtRes HPM Range Off Open contacts On Closed contacts HPM Parameter Reference Dictionary P 39 8 97 PVRAW PVRAW PI Type Lock Default PtRes Range Real PV Raw Value Indicates the raw input value of the PV in pulses per second View NaN HPM N A PVRAW STI Type Lock Default PtRes Range Real PV Raw Value Indicates the raw input value of the PV in of span based on View the transmitter PV after PV characterization PVCHAR and DAMPING have NaN been performed The span of the PV is determined by using LRV as a 0 point HPM and URV as a 100 point N A PVRAWHI Type Lock Default PtRes Range Real PV Raw High Range Defines the high end of the normal operating range for Eng PB the raw PV value PVRAW For a slidewire input the units are ratio for a NaN 0_100_MV input the units are in millivolts HPM PVRAWLO to 100 for a 0_100_mv input microvolts PVRAWLO to 1 for a slidewire input ratio PVRAWLO Type Lock Default PtRes Range Real PV Raw Low Range Defines the low end of the normal operating range for the Eng PB raw PV value PVRAW NaN HPM 0 PVRAWHI 0 to 100 microvolts for a 0_100 mv input or 0 to 1 ratio for a slidewire input PVROCNEFL RegCtl RegPV Type Lock Default PtRes Range Logical PV Negative Rate of Change Alarm Flag
236. larm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated HPM Parameter Reference Dictionary 0 6 8 97 OPHISRC OPHISRC Type Universal Output High Flag Input Source Defines the input connection that fetches the Ent Prm OPHIFL parameter to determine windup state Lock PtBld Default Null PtRes HPM Range Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible input connection sources are a DigIn slot Tagname PVFL b Logic slot Tagname SO nn where nn 1 24 c Logic slot Tagname Fl nn where nn 1 12 d ProcMod slot Tagname Fl nnn where nnn 1 127 e Box Flag slot Tagname PVFL f Box FL nnnn
237. liary A B Data 1 Specifies the Allen Bradley PLC family type 2 0 3 0 Lock Eng or 5 0 Refer to the APM HPM Serial Interface Options manual when Default NaN configuring for diagnostics PtRes HPM Range N A Use of this parameter is only required to configure Serial Interface mapping to from an Allen Bradley programmable logic controller device This parameter should be set to NAN if it is not being used AB_DATA2 SI Array Type Real Auxiliary A B Data 2 Specifies the Allen Bradley PLC File Number in Lock Eng decimal from which data is read into the Array point for PLC 3 or PLC 5 Default NaN controllers Must be NaN for PLC 2 PtRes HPM Range 0 999 NaN Use of this parameter is only required to configure Serial Interface mapping to from an Allen Bradley programmable logic controller device This parameter should be set to NAN if it is not being used AB_DATAS3 SI Array Type Real Auxiliary A B Data 3 Specifies the data type for Allen Bradley PLC 2 or PLC 5 Lock Eng controllers or section ID for PLC 3 controllers Refer to the APM HPM Serial Default NaN Interface Options manual for additional information PtRes HPM Range 0 13 Use of this parameter is only required to configure Serial Interface mapping to from an Allen Bradley programmable logic controller device This parameter should be set to NAN if it is not being used AB_DATA4 SI Array Type Real Auxiliary A B Data 4 Speci
238. lization of Pid type Eng PB algorithm points connected to this ORSel algorithm applies an override offset On equal to Gain times Error PV SP HPM Off No override offset is applied On Offset of Gain times Error is applied HPM Parameter Reference Dictionary 0 12 8 97 OROPT OROPT DevCtl DigComp Type Lock Default PtRes Range Logical Override Option Allows the operator to bypass permissive and override Eng PB interlocks by setting BYPASS On Off HPM On Override option enabled Off Override option disabled OROPT ORSel Type Lock Default PtRes Range Logical Override Option Defines whether the operator can put the point in a bypass Eng PB state where any of the X1 X4 inputs can be bypassed Also when on the Off feedback value is propagated to nonselected primaries of the override selector HPM algorithm Refer to the HPM Control Functions and Algorithms manual for a detailed description Off No override On Inputs can be overridden OUTO 12 GenLin Type Lock Default PtRes Range Real Output Coordinates 0 12 Define the output value at the respective coordinates Supr NaN HPM Any value but NaN OVERFLOW Type Lock Default PtRes Range Logical Accumulation Overflow Flag Indicates whether the accumulated value has View overflowed Off HPM Off No overflow On Overflow HPM Parameter Reference Dictionary 0 13 8 97 OVERLAP OVERLAP A
239. llowed 1 Eip Process special is triggered in AM CM 2 Eip_Soe Eip and Soe are both allowed 3 Soe Point notifies Sequence of Events Processing Helpful Hint EVTOPT configuration requires DITYPE Status or Latched If DITYPE Latched EVTOPT cannot EIPSOE or SOE EXTDATA Array Type Lock Default PtRes Range E EXTDATA External Data Option Indicates if either the Array point flags numerics or PtBld strings are mapped from a serial interface None HPM None None of the flags numerics or strings are mapped from a serial interface IO_FL IO flags are mapped from a serial interface IO_NN IO numerics are mapped from a serial interface IO_STR IO strings are mapped from a serial interface UCN_FL Reserved for future use UCN_NN Reserved for future use UCN_STR Reserved for future use Helpful Hint You can map either flags numerics or strings from the Serial Interface to a single Array point HPM Parameter Reference Dictionary E 5 8 97 EXTSWOPT EXTSWOPT Type E EXTSWOPT External Mode Switching Option External mode switching is typically used Lock Eng PB to establish mode interlocks or under certain process conditions to restrict the Default None use of a mode that invokes a higher level of control Refer to the HPM PtRes HPM Control Functions and Algorithms manual for a detailed description of external mode switching Range 0 None No external mode switching is allowed
240. lly this is the primary NIM even though the secondary NIM 0 can also be the syncher The syncher function performs periodic time HPM NIM synchronization on the UCN 0 1 to 64 0 specifies No Syncher Node UTSTBCRV HPM Box NIM Type Lock Default PtRes Range String_2 TBC Revision The token bus controller revision number in hexidecimal View format N A HPM NIM 5 to 15 UTSTIME HPM Box NIM Type Lock Default PtRes Range Time Current Time in LCN Node ldentifies the current time of day for this LCN View node and is useful if there are multiple LCNs or UCNs N A HPM NIM N A UTSTIMST HPM Box NIM Type Lock Default PtRes Range E UCNTMST Timesynch State of the UCN Node The state of time synchronization View for each UCN node 0 HPM NIM 0 Initial Waiting for the first complete synch operation 1 Failed The maximum amount of time has elapsed and no synch operation has occurred or the NIM does not have a functioning EPNI board 2 Degraded In nonsyncher NIMs and HPMMs an excessive amount of time has elapsed without a complete synch operation In HPMMs the drift limit between the LCN and HPMM clock has been exceeded 3 LCN_Bad Synch operations are taking place on a regular basis but the NIM s clock is not synched with the LCN 4 LCN_OK Synch operations are occurring regularly and the NIM s clock is properly synched with the LCN 5 OK Synch operations are working in
241. m Lock View percent of time the HPM Control Processor is not busy Default NaN PtRes HPM Range 0 100 Helpful Hint This statistic can be viewed on the Toolkit Displays CTLDAY Type Integer Creation Day of HPMM Control Personality Lock View Default N A PtRes HPM Range 1 31 CTLDGAVG 1 2 HPM Box Type Average Diagnostic cycle time in minutes in the Control CPU Lock e Default 0 0 PtRes HPM Range N A HPM Parameter Reference Dictionary C 21 8 97 CTLDGMAX CTLDGMAX 1 2 HPM Box Type Lock Default PtRes Range Real Maximum Diagnostic cycle time in minutes in the Control CPU View 0 0 HPM N A CTLEQN AutoMan Type Lock Default PtRes Range E ALGOEQN Control Equation Type Eng PB EqA HPM 0 EqA CV X1 B BD 1 EqB CV X1 K X2 BI CTLEQN ORSel Type Lock Default PtRes Range E ALGOEQN Control Equation Type Defines whether the highest or the lowest input is PtBld to be selected EgA HPM 0 EgA Selects the highest input 1 EqB Selects the lowest input CTLEQN Pid Type Lock Default PtRes Range E ALGOEQN Control Equation Type Defines how Proportional P or gain Integral 1 PtBid or reset and Derivative D action is applied to a PID type algorithm s EqA calculated Error PV SP HPM 0 EqA P I and D act on Error 1 EqB P and I act on Error D acts on PV 2 EqC I acts o
242. mitter database and stored in the STI database If this data is not desired the data can be restored by using the checkpoint restore or load IDF functions Range O None A command has not been issued by the STI point 1 DnLoadDb Loads the transmitter parameters from the STI point data base into the transmitter 2 UpLoadDb Loads the transmitter data base from the transmitter into the STI point 3 Set_LRV Sets the Lower Range Value 4 Set_URV Sets the Upper Range Value 5 Cor_LRV Corrects the Lower Range Value 6 Cor_URV Corrects the Upper Range Value 7 Cor_Inpt Corrects the zero point for the PV value 8 RstCor Sets all input calibration parameters to their default values Helpful Hint If PV or PV_SV has been entered for the DECONF parameter the only command supported is DnLoadDB HPM Parameter Reference Dictionary C 14 8 97 COMMAND COMMAND Timer Type E COMMAND Timer Commands Allow the operator to control the operation of the timer Lock Oper data point Default None PtRes HPM Range O None No effect on the timer 1 Start Starts the timer 2 Stop Stops the timer 3 Reset Resets the timer to zero 4 RestStrt Resets the timer then starts the timer COMMAND Totalizr Type E COMMAND Totalizer Commands Allow the operator to control the operation of the Lock Oper totalizer Default None PtRes HPM Range O None No effect on totalizer 1 Start Starts the totalizer 2 Stop Stops the totalizer
243. n Default PtRes HPM Range Off No calibration in progress On Calibration in progress ARWNET RegCtl Type E WINDUP Windup Status of the Input Indicates the windup status for the SP or another Lock View initializable input Default Normal PtRes HPM Range Normal Free to move in either direction 1 Hi Free to move in the lower direction 2 Lo Free to move in the higher direction 3 HiLo Not free to move in any direction ARWOP RegCti Type E WINDUP Windup Status of the Output Indicates the output OP windup status Lock View Default Normal PtRes HPM Range 0 Normal Free to move in either direction 1 Hi Free to move in the lower direction 2 Lo Free to move in the higher direction 3 HiLo Not free to move in any direction ASSOCDSP Type String 8 Associated Display Specifies a user configured schematic that is associated Lock Engr with this point Available on Release 510 and later software Default Blank PtRes NIM Range N A Helpful Hint The specified associated display can be called from a Point Detail Display or from any summary display or the Group display when the point is selected ASPPROC RegCtl Type E ASPPROC Advisory SP Processor State Lock Supr Default Disable PtRes HPM Range 0 Disable Disallow advisory deviation alarming 1 Enable Allow advisory deviation alarming Helpful Hint ASPPROC change requires SPOPT Asp HPM Parameter Referenc
244. n Defines the type of remote cascade mode to be used Eng PB Refer to the HPM Control Functions and Algorithms manual for a detailed None description HPM 0 None Only local cascade mode is allowed 2 Ddc In cascade mode AM point provides the output OP for this data point RCASOPT Pid Type Lock Default PtRes Range E RCASOPT Remote Cascade Option Defines the type of remote cascade mode to be used Eng PB Refer to the HPM Control Functions and Algorithms manual for a detailed None description HPM 0 None Local cascade is the only valid cascade 1 Spe AM writes to SP within SP limits 2 Ddc AM writes to OP No OP limits 3 Rsp AM writes to SP when this point is in Auto and is being initialized by its secondary SP limits are applied 4 DdcRsp AM does Ddc and Rsp functions MODE for a point cannot be changed to Cascade by the operator or program if a parameter RCASOPT is configured to Ddc Spc or DdcRsp b the AM strategy has not yet stored to MODE SP or OP Even if PVTRACK Track PV tracking is not performed in auto mode with INITMAN On if RCASOPT Rsp HPM Parameter Reference Dictionary R 3 8 97 RCASOPT RCASOPT RegCtl Type _E RCASOPT Remote Cascade Option Defines the type of remote cascade mode to be used Lock Eng PB Refer to the HPM Control Functions and Algorithms manual for a detailed Default None description PtRes HPM Range O None Only local cascade mode is allowe
245. n Error P and D act on PV 3 EqD Integral only control CTLEQN Switch Type Lock Default PtRes Range E ALGOEQN Control Equation Type Defines whether the operator the user written Eng PB program or the logic slot controls the selection of one of the four inputs EqA X1 X4 as the input to this algorithm HPM 0 EqA Operator controls switch position 1 EqB Program or logic point controls switch position HPM Parameter Reference Dictionary C 22 8 97 CTLHOUR CTLHOUR HPM Box Type Lock Default PtRes Range Integer HPMM Control Personality Creation Date Hour View 0 HPM N A CTLMIN HPM Box Type Lock Default PtRes Range Integer HPMM Control Personality Creation Date Minute View 0 HPM N A CTLMONTH Type Lock Default PtRes Range Integer Creation Month of HPMM Control Personality View N A HPM 1 12 CTLNAME Type Lock Default PtRes Range String_8 HPMM Control Personality Name View N A HPM N A CTLOPT HPM Box Type Lock Default PtRes Range Logical HPMM Control Processor Option PtBld On HPM On All point types can be configured Off DigComp Logic RegCtl or RegPV points cannot be configured only I O points can be configured This usually means that the control processor hardware is missing from the HPM HPM Parameter Reference Dictionary C 23 8 97 CTLREDUN CTLREDUN Type Logical HPMM Control Redundancy
246. n for the smart transmitter Lock Supr View User can also implement PV filtering by using this parameter or the TF Default 0 0 parameter however DAMPING is the preferred parameter If DAMPING has PtRes HPM been configured at the transmitter using the Universal Station the STI IOP adjusts the entered value to one of the values in the range shown below for the appropriate transmitter type For Multivariable transmitters with SENSRTYP SFM the IOP will not adjust the damping value Any real number in the range of damping specified by the transmitter user manual can be used It can be changed only when the STI point execution state PTEXECST is Inactive Range Transmitter Type Spt Stt Sfm 0 0 0 0 0 0 0 16 0 30 0 5 0 32 0 70 1 0 0 48 1 5 2 0 1 00 3 10 3 0 2 0 6 3 4 0 4 0 12 7 5 0 8 00 25 5 10 0 16 0 51 1 50 0 32 0 102 3 100 NaN NaN NaN DATE HPM Box Type Time Current Date Time Value of the LCN date in the HPM Lock View Default N A PtRes HPM Range N A DAY HPM Box Type Integer Current Day Value of the LCN date in the HPM Lock View Default N A PtRes HPM Range 1 to 31 DB_VALID 1 40 HPM Box Type E DBVALID Database Valid Indicates if the database is valid The IOP cannot be set to Lock Engr RUN unless the database is valid Default Invalid PtRes HPM Range Valid Database is valid Invalid Database is not valid HPM Parameter Reference Dictionary D 4 8 97 DEADBAND
247. nal Reset Feedback Gain Supr 0 0 HPM 0 0 to 1 0 K1 PIDPosPr Type Lock Default PtRes Range Real Gain Constant Supr 1 0 HPM 0 0 to 10 0 HPM Parameter Reference Dictionary K 1 8 97 K1 K2 K1 K2 RatioCtl Type Lock Default PtRes Range Real K1 Ratio Scale Factor K2 Scale Factor for X2 Input When used in Supr conjunction with the Calcultr algorithm K1 must be equal to C1 and K2 must 1 0 be equal to C2 HPM N A K1 K3 MulDiv Type Lock Default PtRes Range Real Gain Constants for X1 X3 Inputs Supr 1 0 HPM K1 K4 RegCtl Summer Type Lock Default PtRes Range Real Gain Constants for X1 X4 Inputs Supr 1 0 HPM K1 K4 IncrSum Type Lock Default PtRes Range Real Gain Constants for X1 X4 Inputs Supr 1 0 HPM gt 0 0 KEXT Pid Type Lock Default PtRes Range Real External Gain Modifier Defines the external gain modification factor It can be Prog entered by a user written program or it can be an input from another data point 1 0 HPM 0 0 to 240 0 KEYWORD Type Lock Default PtRes Range String_8 Keyword Descriptor An eight character descriptor that is used to describe an PtBld important aspect of this particular data point For example in Figure N 1 see Blank NAME the keyword for the data point is REFLUX NIM Alphabetics A Z upper case only Numerics 0 9 an all numeric keyword is not
248. nce Dictionary S 2 8 97 S1SEGID S2SEGID S1SEGID S2SEGID RampSoak Type E CURSEGID Mark 1 and Mark 2 Segment Identifiers Refer to the HPM Control Lock Supr Functions and Algorithms manual for detailed information Default Ramp1 PtRes HPM Range 0O Ramp1 1 Soak1 2 Ramp2 3 Soak2 and 20 Ramp11 21 Soak11 22 Ramp12 23 Soak12 SAFEOP Type Lock Default PtRes Range Real Safe Operation For Safety Shutdown Defines the safe output value OP for a Engr point when the SHUTDOWN parameter is set to On N A HPM 6 9 to 106 9 NaN SAFOPCMD PosProp PIDPosPr Type Lock Default PtRes Range E SFOPCMD Safe OP Command Defines the Safe OP state for position proportional and Engr PID position proportional Idle HPM 0 IDLE Output does not change 1 RAISE Output is raised 2 LOWER Output is lowered SCANPER HPM Box Type Lock Default PtRes Range Real SI Data Scan Period Defines the period that the HPMM Control Processor PtBld scans serial interface data that is mapped to the Array point 1 0 HPM 25 seconds 5 seconds 1 0 seconds SCANPRI Array Type Lock Default PtRes Range E SCANPRI SI Data FTA Scan Priority Indicates which scan priority the serial interface PtBld FTA is using when reading data from the serial link Low HPM Low Scan at low priority High Scan at high priority HPM Parameter Reference Dictionary S 3 8 97 SCANRATE SCANRA
249. nge E RECCHN HPMM Active Receive Channel View N A HPM ChannelA ChannelB HPM Parameter Reference Dictionary P 13 8 97 PMMSFST PMMSFST 1 96 Type Lock Default PtRes Range Logical HPMM Soft Failure View HPM Off On PMMSTS HPM Box Type Lock Default PtRes Range E NODESTA HPMM Primary Status View N A HPM 0 OffNet NIM cannot communicate with the HPMM 1 ConfgMs Configuration mismatch detected 2 Idle Event reports but no point processing 3 IdleSF Soft failure occurred in Idle state 4 OK HPMM is operating normally 5 SoftFail Soft failure while HPMM is running 6 Fail HPMM can be accessed but CPU is halted box hard failure has been detected 10 Alive No event reports or point processing 11 AliveSF Soft failure during Idle state 12 Test HPMM is in the test mode 13 TestSF Soft failure has been detected while the HPMM is in the test mode 15 Loading Personality or data base is loading 16 S_Idle Idle in Simulation Mode 17 S_IdleSf IdleSF in Simulation Mode 18 S_OK OK in Simulation Mode 19 S_SFFail SoftFail in Simulation Mode 20 S_Pause HPM is in the Simulation Pause state Standby StandbySF Upgrade UpgradeSF Helpful Hint Loading the HPMM s operating personality software requires PMMSTS Alive Loading the HPMM s database requires PMMSTS Idle Use parameter PMMCMD s Shutdown and Idle command requests respectively PNAMIOPA Type Lock Default
250. nge Logical IOP Synchronization When this parameter is Off inactive the backup request View line from the IOP s partner is not asserted When this parameter is On active On the backup request line from the IOP s partner is asserted HPM On Active Off Inactive SYNCHSTS 1 40 HPM Box Type Lock Default PtRes Range E SYNCHST __ Primary secondary Database Synchronization Status It is set to WARNING View when a database inconsistency is first detected but the secondary appears None capable of providing backup It changes to FAIL when the HPMM has tried HPM to resync but does not succeed or a secondary failure prevents synchronization nn 1 40 corresponds to the 40 logical I O modules Applies to primary IOP only 0 OK the secondary is synchronized with the primary and can provide backup if necessary 1 WARNING database inconsistency detected but secondary can probably provide backup 2 FAIL HPMM has tried to resynchronize but has not succeeded or secondary has also failed HPM Parameter Reference Dictionary S 35 8 97 HPM Parameter Reference Dictionary S 36 8 97 ote T FlowComp Type Lock Default PtRes Range Real Temperature Input lIndicates the measured actual temperature View 1 0 HPM gt 0 0 TO FlowComp Type Lock Default PtRes Range T1 Type Lock Default PtRes Range T2 Type Lock Default PtRes Range Real Zero Referen
251. nknown Error POWERDWN Power is Off INVPRGEX Invalid Program Execution EPROMERR EPROM Error PSDLYFL Type Logical Poststore Delayed Flag Set when poststore data is older than 1 second Lock View Default Off PtRes HPM Range Off RAMCNTER Ram Contents Error RAMADRER Ram Address Error DPAERROR Physical Address Error DSAERROR Soft Address Error RXBUFOFL Receive Buffer Overflow IOLJABER IOL Jabber Circuit saw too much traffic BADPGJMP Bad Program Jump ADCINCMP A D Incomplete ADOUTOVF A D Output Overflow ADOUTUDF A D Output Underflow ADCCALER A D Calibration Error BADDCLTC Bad DC LTC DMT_TMOT Dead Man Time Out MLTOUTFL Multiple Output Failure DATBUSFL Data Bus Failure BADDARNG Bad D A Range MSTRTMOT Master Time Out 68 K CTRCKTFL Counter Circuit Failure On poststore data is older than 1 second PSTS FlowComp Type E PVVALST Pressure Input Value Status Status of the P input value Lock View Default Normal PtRes HPM Range 0 Bad Value is bad and replaced with NaN 1 Uncertn Status of the value is uncertain 2 Normal Value is good HPM Parameter Reference Dictionary P 22 8 97 PTDESC PTDESC Type Lock Default PtRes Range String_24 Point Descriptor A 24 character descriptor which is used to describe the point PtBld and appears on the Group and Detail Displays for the point Refer to Blank Figure N 1 NIM Permissible character set consists
252. nnn 1 16 384 g NMhhBxx FL nnnn for a box flag that resides in a different HPM box on the same UCN hh is the UCN number xx is the HPM box number of the destination parameter and nnnn 1 4095 data access limit Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as DI Digital Input mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name LOENBL 1 2 DevCtl Type Lock Default PtRes Range E PMDVPRM Device Control Output Enable Allows the respective output connection in an Array defined by LODSTN to write the value of the specified Device Control 1 2 parameter to the destination The logic output is allowed when the enable PtBld function selected from the list below is On If the FL1 parameter is FL2 specified and the output data type is logical output occurs only during HPM change normally it is continuous FL1 FL12 Local flag either a 1 On or a 0 Off D1 D2 Digital PV inputs either a 1 On or a 0 Off SIO Safety interlocks either a 1 On or a 0 Off 10 I1 I2 Interlocks either a 1 On or a 0 Off PO P1 P2 Permissives either a 1 On or a 0 Off PISO1 PISO12 Primary Input Gate Values logical SISO1 SISO12 Secondary Input Gate Values logical
253. no database the points need to be reloaded from checkpoint or the points must be reconfigured If the database is to be reconfigured the HPMM must be in Idle and the point execution state must be Inactive This allows the point build operation to override the database that already exists there Range 0 None No command request has been issued 1 Run To Run state for processing points 2 Idle To Idle state for reloading the database 3 RsIoLCom Reset I O Link communication error count 0 4 ShutDown To Alive state for reloading personality 5 RsUcnLsb Reset the Local Statistics Block to zeroes 6 SelChnA Select Input Output Link Channel A 7 SelChnB Select Input Output Link Channel B 8 Warmstrt Warm Start 9 Coldstrt Cold Start 10 SwapPri Switchover to the redundant HPMM PMMCOMER HPM Box Type E SIOMCOMM HPMM O Link Communication Error Status Lock View Default N A PtRes HPM Range 0 None No communication errors 1 InvAlert Invalid Alert message bit problem 2 InvDest Invalid Destination 3 InvChCnt Invalid Character Count 4 InvSource Invalid Source 5 InvCmd Invalid Command 6 Checksum Data record Checksum Error 7 No_Resp No Response 8 ChTimOut Channel Time Out 9 MsgOvRun Message Overrun 10 GapError Message gap is too long 11 LpBckErr Loop Back Error 12 NTH_0 Next Token Holder equals zero 13 TknRecov Token Recovery in progress 14 RpIBufOv Reply Buffer Overflow HPM
254. nunciated Printer Alarm is reported to the printer but not historized and not annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated SEQPRGSZ HPM Box Type Lock Default PtRes Range Integer Sequence Program Size Gives total HPM memory available for sequence View program in blocks N A HPM N A HPM Parameter Reference Dictionary S 9 8 97 SEQPROC SEQPROC HPM Box Type Lock Default PtRes Range E SEQPROC Sequence Processing Rate Specifies the number of processing units per Process PtBld Module data points that can be processed each quarter second cycle 1_PU HPM 1_PU One PU per Process Module point is allocated per scan 200 points can be processed per scan 2_PU Two PUs per Process Module point are allocated per scan 100 points can be processed per scan SEQSLTSZ ProcMod Type Lock Default PtRes Range Integer Sequence Slot Size Defines the size of the program memory allocated for this PtBld process module in terms of blocks Each block is 32 words long The actual 0 size is limited by the available memory HPM gt 0 SERIALNO STI Type Lock Default PtRes Range String_8 Serial Number PROM Number of the Smart Transmitter View Blank HPM N A SGALGID 1 2 DevCtl Type Lock Default PtRes Range E GTALGID Secondary Gate ID
255. nutes The timer View starts at 0 and is incremented towards the preset time established by the SP 0 parameter HPM 0 to 32000 PVALDB RegCtl RegPV Type Lock Default PtRes Range E PVALDB PV Alarm Deadband Alarm deadband is used to prevent excessive recurrence of Eng PB alarms by adjusting the percent of Engineering Unit range at which the alarm One returns to normal HPM 0 Half 1 2 of 1 of Engineering Unit range 1 One 1 of Engineering Unit range 2 Two 2 of Engineering Unit range 3 Three 3 of Engineering Unit range 4 Four 4 of Engineering Unit range 5 Five 5 of Engineering Unit range 6 EU Specify deadband in Engineering Units HPM Parameter Reference Dictionary P 26 8 97 PVALDBEU PVALDBEU RegCtl RegPV Type Real EU value of alarm deadband Lock Eng PB Default NaN PtRes HPM Range gt 90 0 PVALGID Type E PMMPVAG PV Algorithm Identifier Defines which PV algorithm is to be used for a Lock PtBld RegPV point Default Null PtRes HPM Range 0 Null No algorithm configured 1 DataAcq Data Acquisition 2 FlowComp Flow Compensation 3 MidOf3 Middle Of 3 Selector 4 HiLoAvg High Low Average Selector 5 Summer Summer 6 VdtLdLag Variable Dead Time with Lead Lag 7 TotaLizr Totalizer 8 GenLin General Linearization 9 Calcultr Calculator PVAUTO Analgin PI Type Real PV Auto Value Value of the PV after PVCALC is range checked filtered and Lock Vie
256. o Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated JniPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated Helpful Hint Access to ALPRIOR is by schematic or CL No value is actually read from ALPRIOR on a read and no value is actually stored to ALPRIOR on a write Values are copied to and from the separate alarm priorities Reference See Engineer s Reference Manual in the Alarm Management section for more information on what should happen under different possible alarm actions ANAME 1 3 ProcMod Type String 8 Abnormal Sequence Name Indicates the name of the abnormal handler currently Lock View being executed by the process module A value of means that an abnormal Default Spaces handler is not executing ANAME 1 returns the abnormal handler name while PtRes HPM both ANAME 2 and ANAME 3 return the names of the two abnormal subroutine levels being executed Range N A HPM Parameter Reference Dictionary A 6 8 97 AOCALIB AOCALIB 1 168 Type Logical AO Calibration In Progress Flag Shows which AO modules are in the process Lock Eng PB of calibratio
257. obal Ram Parity Gr_Ptrn Global Ram Pattern Check Error Gr_Byte Global Ram Byte Error Gr_Adcd Global Ram Address Decode Test Gr_Addl Global Ram Additional Checks Gr_Clrr Global Ram Scrub Incomplete 31_Nr IOL Processor No Response or Failure 31_Aliv IOL Processor Transmitter Not Alive 31_Iltn IOL Processor Illegal Transition Nmi_Unk Unknown NMI Request Baducnn UCN Address Parity or Duplicate Address Nr No Response From Other Processor Mrft Memory Reference Table Pattern Build Fail Nomtos No MTOS Readout Llc_Comm LLC Communication Fatal Error Uendrv UCN Driver Fatal Error Rd_Hrev Redundancy Card Version Revision Mismatch Sw_Error Software Error Md_Hrev Modem Card Version Revision Mismatch Da_Ptrn Daughter Card Pattern Test Da_Byte Daughter Card Byte Write Test Da_Adcd Daughter Card Address Decode Da_Addl Daughter Card Additional Test Da_Clrr Daughter Card Scrub Incomplete Rd_Snps Redundancy Card 96 Kw Snapshot Error Rd_Bslk Redundancy Card Bus Lock Fail HPM Parameter Reference Dictionary C 25 8 97 CURCTLFL CURCTLFL Type Lock Default PtRes Range E PMMHEST Current HPMM Control Failure View HPM Null Unknown Error Pwrdwn Power Down Lr_Par Parity Error Lr_Lram Local Ram Error Lr_Ck Local Ram Check Lr_Exc Local Ram Exception Lr_Hrev Local Ram Hardware Revision Mm_Hrev Memory Board Hardware Revision Lr_Tmr Local Ram Timer Error Lr_
258. of all characters on the Engineer s Keyboard Basically this set consists of alphabetics A Z numerics 0 9 and the following special characters space amp 3 gt lt 7_ 8 PTEXECST Type Lock Default PtRes Range E PTEXECST Point Execution State Defines the current execution state of the point Supr Inactive HPM 0 Inactive Point is not scanned or processed 1 Active Point is scanned and processed PTINAL RegCtl RegPV Type Lock Default PtRes Range Logical Point in Alarm Indicator Indicates when an alarm condition has been detected at View this point Off HPM Off Point is not in alarm On Point is in alarm PTORST RegCtl Type Lock Default PtRes Range E ORSTATUS Point Override Status Indicates the override status of the point Prog NotCon HPM 0 NotCon Not connected to ORSel algorithm Also indicates that point has been returned from inactive to active status or it is undergoing a cold restart or it is being initialized 1 Sel Selected as a part of ORSel strategy 2 NotSel Not selected as a part of ORSel strategy HPM Parameter Reference Dictionary P 23 8 97 PTSTSIOL PTSTSIOL Type Lock Default PtRes Range E NODESTA Redundant Partner Status as Seen From the IOL View HPM OffNet NIM cannot communicate with the HPMM ConfgMis Configuration mismatch detected Idle Event reports but no point processing Idlesf Soft failure
259. og Cont HPMMCc Prog PtBld Eng PB Engr PtBld PtBld PtBld View Read Only The Analog Input address AlmmSss Parameter is not supported because the Analog Input point does not have a useable default database HPM Parameter Reference Dictionary 1 3 8 97 1 4 Default The default for the parameter is the default value assigned by the system The system automatically enters the default value for a parameter when a range or a selection is not entered for a parameter during point building The default values are also shown on the configuration forms and parameter entry displays PtRes This defines where the parameter physically resides The following residency locations are used in the parameter definitions PtRes Definition HPM High Performance Process Manager NIM Network Interface Module SI Serial Interface Range This defines the range of the value that can be entered for this parameter Integers that precede HPM resident enumeration parameters are sometimes needed by advanced CL users These integers specify the member s position within the set that is the ordinal CL programs external to the UCN such as AM CL will see the same enumeration strings but in some cases with different ordinal values Helpful Hint Some parameter definitions contain a Helpful Hint box at the end of the definition This box contains additional information about the parameter such as prerequisites etc 1 4 PARAMETERS PER POINT TYPE AND ALGO
260. ommanded output state i e On Run etc Output state change requires MODE Man SHUTDOWN Off and REDTAG Off OP DigOut Type Real Pulsed Digital Output OP is the percent on time for the pulsed output It can Lock Prog be written to by only the controlling slot in the HPMM such as from the Default 0 0 PosProp RegCtl algorithm Output change requires DOTYPE Pwm OP PtRes HPM DigOut has the same access level requirement as OFFPULSE and ONPULSE Range 9 0to 100 0 the writing entity must have an HPMM access level of Cont_Ctrl continuous control For Status Outputs use SO For direct action pulse on time is calculated as follows Pulse On Time OP PERIOD 100 For reverse action Pulse On Time 100 OP PERIOD 100 Refer to PERIOD parameter for length of period OP RegCtl Type Real Regulatory Control Output OP is derived from CV the variable Lock Oper calculated by the control algorithm OP is checked for minimum Default 6 9 of full scale output change output rate of change and output high and low limits PtRes HPM If any of the limits is exceeded OP is adjusted or clamped as applicable Range 6 9 to 106 9 OP remains in percent of full scale if it is going to a final control element through an IOP Card If OP is going to a secondary data point its value is converted to the engineering units of the receiving data point s setpoint SP Helpful Hint OP change requires MODE
261. on internally set to NULL for two state devices Statetxt 3 NONE not configurable OPHAFL RegCtl Type Lock Default PtRes Range Logical Output High Alarm Flag Indicates when a Regulatory Control Output High View alarm has been detected at this data point This flag is set when the output value Off OP exceeds OPHITP and is reset when OP is below OPHITP minus the HPM deadband Available on Release 510 and later software Off OP High alarm is off On OP High alarm is on Helpful Hint Refer to the diagram with OPLAFL HPM Parameter Reference Dictionary 0 5 8 97 OPHIFL OPHIFL RegCtl Type Lock Default PtRes Range Logical Output High Limit Flag Indicates whether the OP value has reached its upper Prog limit specified by OPHILM If this parameter is set by a program it will Off inhibit raise commands HPM Off On OP value has reached its upper limit OPHILM Type Lock Default PtRes Range Real Output High Limit in Percent Supr 105 0 HPM OPLOLM to 106 9 NaN OPHIPR RegCtl Type Lock Default PtRes Range E Alprior Output High Alarm Priority Specifies the priority of the Regulatory Control EngPB Output High alarm Available on Release 510 and later software Low NIM JniPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy A
262. ons and Algorithms manual EqA for more information HPM 0 EqA Lead Lag 1 EqB Fixed dead time 2 EqC Variable dead time 3 EqD Variable dead time with two lags HPM Parameter Reference Dictionary P 32 8 97 PVEUHI PVEUHI Type Real PV High Range in Engineering Units Note that PVEUHI cannot be written Lock Eng PB with NaN NaN is the default value only Default NaN PtRes HPM Range PVEULO to PVEXEUHI NaN Helpful Hint For Smartline transmitters refer to Table A 3 in the PM APM Smartline Transmitter Integration Manual PM12 410 PVEULO Type Real PV Low Range in Engineering Units Note that PVEULO cannot be written Lock Eng PB with NaN NaN is the default value only Default NaN PtRes HPM Range PVEXEULO to PVEUHI NaN Helpful Hint For Smartline transmitters refer to Table A 3 in the PM APM Smartline Transmitter Integration Manual PM12 410 PVEXEUHI Type Real PV Extended Engineering Unit Range High Both PVEXEUHI and Lock Engr PVEXEULO are used to clamp or detect a bad PV value Refer to parameter Default NaN PVEXEULO Note that PVEXEUHI cannot be written with NaN NaN is the PtRes HPM default value only Range gt PVEUHI NaN PVEXEULO Type Real PV Extended Engineering Unit Low Range For the LLAI IOP with Lock Engr Thermocouple and RTD sensor types extended PV range parameters are VIEW Default NaN ONLY Their values are defaulted based on the sensor types t
263. or LR_ADCD Local Ram Address Decode Test LR_ADDL Local Ram Additional Checks LR_CLRR Local Ram Scrub Incomplete SR_PAR Shared Ram Parity SR_PTRN Shared Ram Pattern SR_ADCD Shared Ram Address Decode Test SR_ADDL Shared Ram Additional Checks GR_PAR Global Ram Parity GR_PTRN Global Ram Pattern Check Error GR_BYTE Global Ram Byte Error GR_ADCD Global Ram Address Decode Test GR_ADDL Global Ram Additional Checks GR_CLRR Global Ram Scrub Incomplete 31_NR IOL Processor No Response or Failure 31_ALIV IOL Processor Transmitter Not Alive 31_ILTN IOL Processor Illegal Transition NMI_UNK Unknown NMI Request BADUCNN UCN Address Parity or Duplicate Address NR No Response From Other Processor MRFT Memory Reference Table Pattern Build Fail NOMTOS No MTOS Readout LLC_COMM LLC Communication Fatal Error UCNDRV UCN Driver Fatal Error RD_HREV Redundancy Card Version Revision Mismatch SW_ERROR Software Error MD_HREV Modem Card Version Revision Mismatch DA_PTRN Daughter Card Pattern Test DA_BYTE Daughter Card Byte Write Test DA_ADCD Daughter Card Address Decode DA_ADDL Daughter Card Additional Tests DA_CLRR Daughter Card Scrub Incomplete RD_SNPS Redundancy Card 96 Kw Snapshot Error RD_BSLK Redundancy Card Bus Lock Fail HPM Parameter Reference Dictionary P 21 8 97 PRVIOLFL PRVIOLFL Type E IOMHF Previous IOL Failure Lock View Default PtRes HPM Range UNKNOWN U
264. or the ST3000 Smart Pressure Transmitters Spt_Dp Spt_Gp and Spt_Ap Xmtr Range URL In H20 400 inH2O 400 0 600 inH20 600 0 780 mmHga 400 0 100 PSI 2768 0 200 PSI 5536 13 500 PSI A 13840 34 1500 PSI 41521 0 2000 PSI 55361 35 3000 PSI 83042 02 6000 PSI 166084 0 10000 PSI 276806 7 For the STT3000 Smart Temperature Transmitter STT Sensor Type URL PVCHAR in Degrees C except where noted Linear mV 1000 mV Thermocouples B 1820 E 1000 J 1200 K 1370 NiNiMoTC 1300 N 1300 R 1760 S 1760 T 400 W5W26TC 2300 W3W25TC 2300 HPM Parameter Reference Dictionary U 3 8 97 URL STI URL STI continued Range N A NaN URV STI Type Real Lock Supr View Default NaN PtRes HPM Range N A NaN RTDs Cul0RTD 250 Cu25RTD 250 DINRTD 850 JISRTD 640 NickIRTD 150 Pt200 850 Pt500 850 RHRad 1800 RTD ohms 4000 Q For the MagneW 3000 Magnetic Flowmeter Sfm nD2 4x106 URL in meters3 hour x 3600 x N 1 where D the detector diameter in millimeters as follows 2 5 5 10 15 25 40 50 80 100 150 200 300 350 400 500 600 or 700 N the number of dummy submerged detectors from 0 to 9 Upper Range Value Defines the upper end of the operating range for the PVRAW value Refer to the description of the STI_EU parameter for the URV engineering units Although the following maximum values can be entered values greater than the URL are not recommended and accuracy is not
265. outs that have occurred Default 90 during the current hour PtRes HPM In arrays 1 through 4 the counter is indexed by the cycle In array 0 the counter is totaled for all cycles Range gt 90 CRPPXORN 0 8 HPM Box Type Integer Current Period Point Processing Overruns Per Cycle A counter that Lock View accumulates and shows the number of HPMM point processing overruns that Default 0 have occurred during the current hour PtRes HPM In arrays 1 through 8 the counter is indexed by the cycle In array 0 the counter is totaled for all cycles Range gt 0 CRUCNORN HPM Box Type Integer Current Hour UCN Access Overruns Indicates the number of UCN access Lock View overruns that have occurred in the current hour Refer to the HPM Control Default 0 Functions and Algorithms manual for a detailed description of overrun handling PtRes HPM Range gt 0 HPM Parameter Reference Dictionary C 19 8 97 CTFLTIME CTFLTIME HPM Box Type Lock Default PtRes Range Time HPMM Control Failure Time defines View N A HPM Helpful Hint If a value of 0 is returned for the time from the UCN a parameter status of Parameter Invalid is returned on the LCN N A CTIDTXT HPM BOX Type Lock Default PtRes Range String_16 HPMM Control Functionality ID Text String defines View Blank HPM N A CTLACTN Type Lock Default PtRes Range E POLARITY Control Action Defines the di
266. ox lighted gt PVRAW On State 1 upper box lighted gt PVRAW Off HPM Parameter Reference Dictionary 1 4 upper or lower boxes on a Group or Detail Display for a digital input point 8 97 IOLASTS IOLASTS HPM Box Type Logical T O Link Cable A Status Lock View Default Off PtRes HPM Range Off I O Link cable A not in error On I O Link cable A in error IOLBSTS HPM Box Type Logical T O Link Cable B Status Lock View Default Off PtRes HPM Range Off I O Link cable B not in error On I O Link cable B in error IOLCHAER HPM Box Type Integer TO Link Channel A Error Count Lock View Default 0 PtRes HPM Range gt 00 IOLCHASL HPM Box Type Integer T O Link Channel A Silence Count Lock View Default 0 PtRes HPM Range gt 0 IOLCHBER HPM Box Type Integer TO Link Channel B Error Count Lock View Default 0 PtRes HPM Range gt 90 IOLCHBSL HPM Box Type Integer TO Link Channel B Silence Count Lock View Default 0 PtRes HPM Range gt 00 HPM Parameter Reference Dictionary l 5 8 97 IOLCHERT IOLCHERT HPM Box Type Lock Default PtRes Range Integer T O Link Channel Error Threshold Defines the acceptable number of I O Link EngOnly channel errors per minute before disabling the periodic I O Link channel swap 10 HPM gt 0 IOLCMD HPM Box Type Lock Default PtRes Range E SIOLCMD T O Link Command EngOnly None HPM 0 None
267. pe E POSITIN HPMM File Position Lock View Default N A PtRes HPM Range 0 Right HPMM cards are in card file slots 6 10 1 Left HPMM cards are in card file slots 1 5 2 File_1 HPMM cards are in card file 1 3 File_2 HPMM cards are in card file 2 4 Pref 5 Non_Pref 6 None 7 Unknown Not able to determine file position from hardware PR2PREFF HPM Box Type Real Peer to Peer Communication Efficiency in percent Indicates the rate of Lock View successful and on time UCN transactions from this node Default 100 PtRes HPM Range 0 100 PRGATREL DigComp DevCtl RegCtl Type Logical Program Mode Attribute Flag indicates if the point is in Program Mode Lock View attribute Default N A PtRes HPM Range On point is in Program mode attribute Off point is not in Program mode attribute HPM Parameter Reference Dictionary P 17 8 97 PRIMMOD PRIMMOD Type Lock Default PtRes Range Ent_Id Primary Module Point Identifier Typically used in Batch Processing this Engr parameter contains the tag name of an HPM point to which this data point is Null assigned Other points that belong to the Batch equipment unit should have NIM their PRIMMOD set to this same point Primmod is used to collect alarms and events from this point along with others related to the specified Primary Module point Information is collected into a common file accessible from the Event History Menu Tag name o
268. plicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP AVDELTHS AVSTS BADPVEL F BADPVPR F C1 C2 CJTACT COMMAND CONTCUT F DAMPING DECONF EUDESC HIGHAL F HIGHALPR F INPTDIR KEYWORD LASTPV LOCUTOFF LRL LRV MODNUM NAME NODENUM NODETYP NTWKNUM OTDENBLE OVERVAL F PIUOTDCF PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PTDESC PTEXECST PTINAL PV 2 2 Analog Output AO PVALDB F PVALDBEU F PVAUTO PVAUTOST PVCALC PVCHAR PVCLAMP PVEUHI PVEULO PVEXEUHI PVEXEULO PVEXHIFL PVEXLOFL PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVRAW PVRAWHI PVRAWLO PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F RJTEMP S1 SECVAR SENSRTYP SERIALNO SFSTS SLOTNUM SLWSRCID STATE STI_EU STISWVER STITAG TCRNGOPT TF TIMEBASE UNIT URL URV The parameters of the Analog Output Data point are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full ASSOCDSP CASREQ F EUDESC KEYWORD LOCALMAN MODATTR F MODE F MODEAPPL F MODEPERM F HPM Parameter Reference Dictionary MODNUM NAME NMODATTR F NMODE F NODENUM NODETYP NTWKNUM OP OPCHAR OPFINAL OPINO OPIN1 OPIN2 OPIN3 OPIN4 OPIN5 OPOUTO OPOUT1 2 1 OPOUT2 OP
269. qual with deadband Compare gt than with deadband Compare gt than or with deadband Compare lt than with deadband Compare lt than or with deadband Check for Bad Fixed size Pulse Pulse with minimum time limit Pulse with maximum time limit Either Direction Off On Delay On Off Delay Watchdog Timer Flip Flop Change Detect Discrepancy Gate with 3 inputs plus delay Inputs S1 S3 can be inverted as required HPM Parameter Reference Dictionary L 9 Logic Block Algorithm Identifier Defines the logic algorithm to be used for a particular logic block A different logic algorithm can be specified for each logic block within a logic slot Refer to the HPM Control Functions and Algorithms manual for a detailed description of each logic algorithm Input s S1 S2 S3 S1 S2 S3 S1 S1 S2 S3 S1 S2 S3 S1 S2 S1 S2 S3 S4 S1 S2 S3 S4 S1 S2 S3 R1 R2 DEADBAND R1 R2 DEADBAND R1 R2 DEADBAND R1 R2 DEADBAND R1 R2 DEADBAND R1 R2 DEADBAND R1 S1 DLYTIME S1 DLYTIME S1 DLYTIME S1 S1 DLYTIME S1 DLYTIME FL6 S1 S2 S3 S1 S2 S3 S1 S2 S3 DLYTIME 8 97 LOGICSRC LOGICSRC DigComp DevCtl Type Lock Default PtRes Range Ent_Id Logic Source Specifies the tag name of a point usually a logic slot that is PtBld controlling the interlock signals Null NIM Tag name can be up to sixteen characters and the permissible character set is as follows Alphabet
270. r PB command disagree alarming is not configured the point will wait for the Default O None number of seconds designated in the PAUSETIM parameter after StateO is PtRes 1 HPM commanded If alarming is configured the system will wait for the PV to go to StateO or when the feedback timer expires before starting the pause timer Range None State change option is not configured State0 State change option is configured STEP ProcMod Type String 8 Step Name Indicates the step name of the sequence executing in this process Lock View module Default Spaces PtRes HPM Range N A HPM Parameter Reference Dictionary S 25 8 97 STI_ Type Lock Default PtRes Range STI_EU EU STI E STLEU Smart Transmitter Engineering Units Specifies the units of measurement for Eng parameters LRL LRV URL and URV These units are used for display only InH20 HPM For multivariable Smart Transmitters with a SENSRTYP of SFM choose BLANK For multivariable slots with a SENSRTYP of SPT_DP SPT_AP SPT_GP or STT choose the preferred STI_EU engineering units When BLANK is selected the limit values URL LRL URV and LRV are displayed in the base engineering units specified in the transmitter user manual Helpful Hint Loading an invalid STI_EU type causes an error An attempt to correct it from the Detail Display is rejected as CONFIG MISMATCH To recover load the correct STILEU parameter from the PED or perform an UPLOAD
271. r Reference Dictionary M 6 8 97 MNFMDMTH MNFMDMTH HPM Box Type Lock Default PtRes Range Integer HPMM UCN Interface Card Manufacturing Date Month View 0 HPM 1 12 MNFMDSER HPM Box Type Lock Default PtRes Range String_24 HPMM UCN Interface Card Serial Number View 0 HPM N A MNFMDYR HPM Box Type Lock Default PtRes Range Integer HPMM UCN Interface Card Manufacturing Date Year View 0 HPM 0 99 MODATTR Type Lock Default PtRes Range E MODATTR Mode Attribute Defines whether the operator or the sequence program has the Oper authority to change certain parameters of this data point At the Universal Operator Station the mode attribute is displayed next to the mode of the data point If HPM the mode attribute is Program a P appears to the left of MODE If the attribute is operator blanks are displayed to the left of mode 0 Operator Operator can set Mode OP SP Ratio Bias 1 Program Program can set Mode OP SP Ratio Bias 2 Normal 3 None No mode attribute Helpful Hint MODATTR change requires SHUTDOWN Off and REDTAG Off When the normal mode button on the Operator s keyboard is pressed MODATTR NMODATTR unless NMODATTR None HPM Parameter Reference Dictionary M 7 8 97 MODE MODE AnalgOut Type E MODE Mode Defines the current mode of the data point Parameter MODATTR Lock Oper determines whether operator or the sequence
272. rameter is applicable when the PNTFORM Full AUXUNIT F ALENBST F ASSOCDSP BADPVFL F BADPVPR F CNFMU CNFPU CONTCUT F EUDES C HIGHAL F HIGHALPR F KEYWORD LASTPV MODNUM NAME NODENUM NODETYP NOPINPTS HPM Parameter Reference Dictionary NORMCYCL NTWKNUM OVERVAL F PFDLYFL PIDSTN PISRC PNTFORM PNTMODTY PNTNODTY PNTSTATE PNTTYPE PRIMMOD F PSDLYFL PTDESC PTEXECST PTINAL PV PVALDB F PVALDBEU F PVALGID PVAUTO PVAUTOST PVCALC PVCLAMP PVEQN PVEUHI PVEULO PVEXEUHI PVEXEULO PVEXHIFL 3 5 PVEXLOFL PVFORMAT PVHHFL PVHHPR F PVHHTP F PVHIFL PVHIPR F PVHITP F PVINIT PVLLFL PVLLPR F PVLLTP F PVLOFL PVLOPR F PVLOTP F PVP PVROCNFL PVROCNPR F PVROCNTP F PVROCPFL PVROCPPR F PVROCPTP F PVSGCHTP F PVSOURCE F PVSRCOPT F PVSTS PVTV F PVTVP F SCHSTS SELINP SLOTNUM STSMSG TF UNIT USERID 8 97 3 9 3 9 Multiply Divide MulDiv The parameters of the Multiply Divide control algorithm are listed below in alphabetical order F indicates that the parameter is applicable when the PNTFORM Full AUXUNIT F CTLALGID MODE OPHITP F PTEXECST ALENBST F CTLEQN MODEAPPL OPLAFL F PTINAL ARWNET CTRLINIT MODEPERM OPLOFL PTORST ARWOP CV MODNUM OPLOLM RARWSTS ASSOCDSP CVEUHI NAME OPLOPR F RATE1 AUTMODFL CVEULO NMODATTR OPLOTP F RCASOPT B ESWAUTO NMODE OPMCHLM REDTAG F B1 B2 B3 ESWCAS NOCINPTS OPRATRFL RINITREQ BADCTLFL ESWENBS
273. rect reverse action of this algorithm s output Eng PB Reverse HPM 0 Direct As PV increases output increases 1 Reverse As PV increases output decreases CTLALGID RegCtl Type Lock Default PtRes Range E PMMCTAL Control Algorithm Identifier Defines the algorithm that is to be used for PtBld this RegCtl point Null HPM 0 Null No algorithm selected 1 Pid Proportional Integral Derivative 2 PidFf PID with Feedforward 3 PidErfb PID with External Reset Feedback 7 RatioCtl Ratio Control 8 RampSoak Ramp Soak 9 AutoMan Auto Manual Station 10 IncrSum Incremental Summer 11 Switch Switch 12 ORSel Override Selector 13 PosProp Position Proportional 14 PIDPosProp PID with Position Proportional output HPM Parameter Reference Dictionary C 20 8 97 CTLCFAVG CTLCFAVG HPM Box Type Real Average HPM Control Processor CPU Free Percentage The average percent Lock View of time the HPM Control Processor is not busy Default NaN PtRes HPM Range 0 100 Helpful Hint This statistic can be viewed on the Toolkit Displays CTLCFMAX HPM Box Type Real Maximum HPM Control Processor CPU Free Percentage The maximum Lock View percent of time the HPM Control Processor is not busy Default NaN PtRes HPM Range 0 100 Helpful Hint This statistic can be viewed on the Toolkit Displays CTLCFMIN HPM Box Type Real Minimum HPM Control Processor CPU Free Percentage The minimu
274. rip Point When this parameter is set to NaN no Supr alarms are generated NaN HPM 2 SVEULO or NaN HPM Parameter Reference Dictionary S 33 8 97 SVHITPP SVHITPP DevCtl Type Lock Default PtRes Range Real SECVAR High Alarm Trip Point Percent The SECVAR High Trip Point in Supr terms of engineering units percent NaN HPM 0 to 100 SVP DevCtl Type Lock Default PtRes Range Real SECVAR in Percent of Engineering Range The percentage for this parameter is View calculated from the SECVAR parameter using both the SVEVHI and SVELVO NaN parameters HPM 0 to 100 SVPEAK DevCtl Type Lock Default PtRes Range Real Peak Value of SECVAR Indicates the highest value of the SECVAR parameter View since the device changed from state 0 NaN HPM Real or NaN SVSRC DevCtl Type Lock Default PtRes Range Universal SECVAR Input Connection Specifies input connection to which the current Ent Prm values of Device Control inputs are supplied The connection can be specified PtBld using the Tagname Parameter format or the hardware reference address format Null Refer to the HPM Control Functions and Algorithms manual for a detailed HPM description Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _
275. ror Nth_0 Next token holder equals zero Tknrecov Token recovery in progress Rplbufov Reply buffer overflow IOMFILE 1 168 HPM Box Type Lock Default PtRes Range Integer T O Module File Position for the Acting Primary Secondary View used for diagnostic displays N A nn 1 40 are file positions of the 40 acting primaries HPM nn 129 168 are file positions of the 40 acting secondaries 0 8 0 specifies Not Connected HPM Parameter Reference Dictionary 1 9 8 97 IOMFILEA IOMFILEA 1 40 HPM Box Type Lock Default PtRes Range Integer T O Module A File Position 1 40 specifies one of the 40 logical I O PtBld modules The corresponding IOP must be connected to FTA connector 0 in IOP data base A Applies to the primary IOP only per PKGOPT on GDF HPM 0 8 0 specifies Not Connected IOMFILEB 1 40 HPM Box Type Lock Default PtRes Range Integer T O Module B File Position 1 40 specifies one of the 40 logical I O PtBld modules The corresponding IOP must be connected to FTA connector 0 in IOP data base B Applies to the primary IOP only none on GDF HPM 0 8 0 specifies Not Connected IOMFWREV 1 168 Type Lock Default PtRes Range Ascii_2 IOP Card Firmware Revision Status View This is not the same as the external letter code on the card N A HPM X Y X Version Y Revision For Release 300 X 3 IOMHWREV 1 168 Type Lo
276. rray Type Lock Default PtRes Range Integer Overlapping Array Slot Number Indicates the Array slot number containing the View data being referenced by the slot currently being built 0 HPM 0 through the number of Array slots NARRSLOT OVERPHAS ProcMod Type Lock Default PtRes Range E JUMPDIR Override Current Phase Allows the operator to override the current phase of the ONPROC and __ sequence by skipping forward to the next phase or backward to the previous CNTLLOCK phase A phase can be overridden in this manner only when the sequence parameters execution state is PAUSE FAIL or ERROR Blank HPM 0 Forward Skip to next phase 1 Backward Go back to previous phase OVERSTAT ProcMod Type Lock Default PtRes Range E JUMPDIR Override Current Statement Allows the operator to override the current ONPROC and __ statement of the sequence by skipping forward to the next statement or backward CNTLLOCK tothe previous statement A statement can be overridden in this manner only parameters when the sequence execution state is PAUSE FAIL or ERROR Blank HPM 0 Forward Skip to next statement 1 Backward Go back to previous statement OVERSTEP ProcMod Type Lock Default PtRes Range E JUMPDIR Override Current Step Allows the operator to override the current step of the ONPROC sequence by skipping forward to the next step or backward to the previous step Blank A step
277. runs that have been detected in the last hour 0 HPM LSPPXORN is set equal to the contents of parameter CRPPXORN every hour on the hour gt 0 LSTWHNER ProcMod Type Lock Default PtRes Range Integer Last When Error The CL Fail Error code masked by the When Error clause View 0 HPM gt 0 LSUCNORN HPM Box Type Lock Default PtRes Range Integer Last Hour s UCN Access Overruns LSUCNORN is set equal to the contents of View parameter CRUCNORN the current hour s UCN Access Overruns every hour 0 on the hour HPM gt 0 HPM Parameter Reference Dictionary L 12 8 97 M IncrSum ORSel Switch Type Lock Default PtRes Range Integer Number of Inputs PtBld 2 HPM 2to4 MAINDAT DevCtl DigComp Type Lock Default PtRes Range Time Maintenance Reset Statistics Date The date and time of the reset of maintenance statistics that can also be written by the engineer Statistics can be reset by the Time of Point operator only when the device is red tagged while programs can reset them at any Build time Resetting is accomplished by setting the RESETFL to ON HPM Time Stamp DD MMM YY HH MM SS MAINTOPT DevCtl DigComp Type Lock Default PtRes Range Logical Maintenance Option Indicates if the maintenance statistics option is used PtBld Off HPM Off Maintenance statistics are not available On Maintenance statistics are available MANMOD
278. s Defines the number of inputs to this algorithm PtBld 1 HPM 1 to6 N HiLoAvg Summer Type Lock Default PtRes Range Integer Number of Inputs Defines the number of inputs to this algorithm PtBld 2 HPM 2 to 6 inputs NAME Type Lock Default PtRes Range String_16 Point Name lIdentifies this point to the system and on displays reports and PtBld logs Figure N 1 shows examples of the Group and Detail Displays on which N A the point name appears NIM Digital Input Digital Output Analog Output Flag and Numeric type data points do not have to be configured by using the point builder DEB All other types of data points have to be configured by using the DEB and require that a point name be specified during the point build process Point name can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric point name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed HPM Parameter Reference Dictionary N 1 8 97 NAME GROUP DISPLAY F 3HP POINT NAME FCIOOT1 EE U DESCRIPTOR LBS SEC REFLUX KEYWORD 50 7 5 9U 25 9 DETH REFLUX PUMP A CONTR POINT DESCRIPTOR DETAIL DISPLAY POINT DESCRIPTOR UNIT ID POINT NAME FC1 T1 DETH REFLUX PUMP A CONTF
279. s Lock PtBld format Refer to the HPM Control Functions and Algorithms manual for a Default null null detailed description PtRes HPM Range Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible output connection destinations are a DigOut slot tagname ONPULSE or OFFPULSE b DigOut slot Tagname SO c Logic slot Tagname Fl nn where nn 7 12 d ProcMod Tagname Fl nnn where nnn 1 127 e Flag slot Tagname PVFL f Box FL nnnn for a box flag that resides in the same HPM box where nnnn 1 16 384 g NMhhBxx FL nnnn for a box flag that resides in a different HPM box on the same UCN hh is the UCN number xx is the HPM box number of the destination parameter and nnnn 1 4095 data access limit Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as DO Digital Output mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parame
280. s are required blanks are not allowed For example unit 3 must be entered as 03 CL and Picture Editor An integer is returned This number is equivalent to the unit position in the Unit Names configuration list Range A Z 0 9 up to 100 unit IDs can be configured UPGRADE UCN Type E UPGRADE NMM Upgrade Status Lock Oper Default OK PtRes NM Range OK NMM has not been upgraded and is OK Upgrade NIM is upgraded and is questionable HPM Parameter Reference Dictionary U 2 8 97 URL STI Type Real Lock Eng View Default NaN PtRes HPM URL STI Upper Range Limit Indicates the upper range limit of the PV at the Smart Transmitter This limit is a fixed limit and cannot be changed Refer to the description of the STI_EU parameter for the URL engineering units During configuration the value entered for this parameter must agree with the URL value of the transmitter Although any value can be entered during configuration a database mismatch will occur when the point is put on process because the transmitter s URL value and the STI IOP s URL value are not the same If the values are not the same the STATE parameter value becomes DBChange and PVSTS becomes Bad Refer to URL in the PM APM Smartline Transmitter Integration Manual for more information The corresponding LRL parameter is not a configurable parameter at the Universal Station The upper range limits for the Smart Transmitters are as follows F
281. s inactive e the module is idle e there is a soft failure such that the channel is not working The output is connected to standby manual device Range Off No initialization request On Initialization request INITREQ 0 2 DigComp DevCtl Type Logical Initialization Request Flag When On indicates that CL programs or logic can Lock View not change the output to State i where i 0 1 or 2 Default On PtRes HPM Range Off On INITVAL Type Real Initialization Value Indicates the value to which the primary point is to be Lock View initialized Default N A PtRes HPM Range N A HPM Parameter Reference Dictionary l 3 8 97 STATE 1 BOX SS Upper STATETXT 1 STATE 0 BOX Lower STATETXT 0 INPTDIR Direct PV ON State 1 Box is lighted State 0 Box is extinguished PV OFF State 0 Box is lighted State 1 Box is extinguished Figure 1 INPTDIR vs Display Indicators INPTDIR DigIn INPTDIR Reverse PV OFF State 0 Box is lighted State 1 Box is extinguished PV ON State 1 Box is lighted State 0 Box is extinguished INPTDIR Type E POLARITY Digital Input Direction Defines the contact conditions required to light the Lock Eng PB Default Direct See Figure I 1 PtRes HPM Range 0 Direct State 0 lower box lighted gt PVRAW Off State 1 upper box lighted gt PVRAW On 1 Reverse State 0 lower b
282. s the PVHH value NoAlarm No alarm exists lowest level alarm AdvDev Advisory Deviation DevHi Deviation High DevLo Deviation Low PVRocN PV Rate Of Change Negative PVRocP PV Rate Of Change Positive PVHi PV High PVHH PV High High PVLo PV Low PVLL PV Low Low BadCtl Bad Control BadPV Bad PV highest level alarm BOC Bad Output alarm HIGHAL DevCtl DigComp DigIn Flag Logic Type Lock Default PtRes Range E ALMTYPE Highest Alarm Detected lIndicates the highest alarm currently detected at the View data point This parameter is used by the system to ensure that when two or NoAlarm more different types of alarms occur on a point at the same time the most NIM important or highest level alarm appears on the point s Group Detail and Alarm Summary displays NoAlarm No alarm has been detected OffNorm Current PV state is not the configured PVNORMAL state For a flag point the off normal state STATE is the alarmed state UnCEvt Uncertain event was detected Does not apply to a flag point CmdDis Command Disagree field device did not respond to commanded output state Does not apply to a flag point BadPV PV is bad C1 C4ALM 1 to 4 custom logic alarms Chngofst State has changed Cmdfail PV failed to change after OP changed SVHI SECVAR gt SVHITP SVHH SECVAR gt SVHHTP BadSV SECVAR is Bad OVRDIF2 Override Interlock 12 OVRDII Override Interlock I1 OVRDIO Overrid
283. s the number of control output PtBld connections from this RegCtl point 1 HPM 0to4 Helpful Hint Control output engineering ranges CVEULO CVEUHI must be entered for CTLALGID PidErfb and Rampsoak and must be entered for CTLALGID Pid PidFf and RatioCtl when NOCOPTS 0 For CTLALGID Pid PidFf and RatioCtl with NOCOPTS gt 0 the CV ranges are obtained from a secondary output connection NODEASSN HPM Box Type Lock Default PtRes Range E NODEASN Node Assignment Defines whether the NIM on this logical UCN or a NIM PtBld on another logical UCN is the primary NIM for this UCN node ThisNIM NIM ThisNIM The NIM on this logical UCN is responsible for parameter fetch stores alarming AM control strategy and checkpointing for this UCN node RemotNIM A NIM on another logical UCN is responsible for configuring checkpointing and restoring the database through this UCN node HPM Parameter Reference Dictionary N 11 8 97 NODECMD NODECMD HPM Box Type Lock Default PtRes Range E PMCMD Node Command Defines the command issued to the HPM Eng None HPM 0 None No request made to the HPM 1 Run HPM requested to go to the Run state 2 Idle HPM requested to go to an Idle state 3 Warmstrt Warm Start requested 4 Coldstrt Cold Start requested 5 Pause HPM requested to go to the Simul_Pause state 6 Resume HPM requested to go to the Simul_Run state NODECONF HPM Box T
284. sent by the smart transmitter to the STI point Pv_Sv_Db The use of Pv_Db and Pv_Sv_Db is recommended because they offer database HPM mismatch detection and on process mismatch recovery This parameter can be changed only when the STI point execution state PTEXECST is Inactive 0 Analog Not Supported 1 Pv Transmits only the PV 4 byte format 2 Pv_Sv Transmits the PV and the secondary variable SV 4 byte format 3 PV_Db Transmits the PV and the transmitter database 6 byte format 4 Pv_Sv_Db Transmits the PV SV and the transmitter database 6 byte format DELCV IncrSum Type Lock Default PtRes Range Real Delta CV in Engineering Units lIndicates the calculated change in the CV View output value in engineering units N A HPM N A DELCV Pid Type Lock Default PtRes Range Real Delta CV in Percent Indicates the calculated change in the CV output value in View percent N A HPM N A HPM Parameter Reference Dictionary D 6 8 97 DEV DEV RegCtl Type Lock Default PtRes Range Real Deviation Indicates the deviation PV SP in engineering units View N A HPM N A DEVADDR Array Type Lock Default PtRes Range Real Serial Link Device Address Indicates the serial link address of the device PtBld containing data NaN HPM N A DEVHIFL RegCtl Type Lock Default PtRes Range Logical Deviation High Alarm Flag Indicates whether the DEVHIT
285. splayed on the Array Point Detail 8 display Strings can be accessed by STR8 STR16 STR32 or STR64 regardless HPM of this value 8 16 32 64 STRLEN ProcMod Type Lock Default PtRes Range Integer Process Module String Length Indicates the displayed string length on the PtBld Process Module Detail display Strings can still be accessed by STR8 STR16 8 STR32 or STR64 regardless of this value HPM 8 16 32 64 STRSTIX Array Type Lock Default PtRes Range Real String Array Start Index Defines the string array start index in Box STR8 PtBld variables or the Serial Interface connected device 0 HPM 0 to Box parameter NSTRING When EXTDATA IO_STR 0 indicates no strings are configured 0 to 99 999 When EXTDATA IO_STR 0 can be a valid device index STRTFAIL 1 6 Type Lock Default PtRes Range String_2 Startup Failover Information View HPM Hexadecimal characters 00 to FF STSMSG Type Lock Default PtRes Range E MSGTXT Status Message A self defining enumeration of the MSGTXT parameter that Oper provides additional descriptive information regarding the red tag batch state or MSGTXT device state HPM MSGTXT 0 to MSGTXT 15 HPM Parameter Reference Dictionary S 30 8 97 SUMSLTSZ SUMSLTSZ HPM Box Type Lock Default PtRes Range Integer Total Configured Memory for Sequence Programs This parameter equals the View sum of all Process Module SEQS
286. state descriptor that is to be used Lock Eng PB and displayed when input D2 is On and input D1 is Off 10 Default PVState0 PtRes HPM Range 0 PVState0 STATETXT 0 descriptor 1 PVStatel STATETXT 1 descriptor 2 BadPV BADPVTXT descriptor 3 MovPV MOVPVTXT descriptor 4 PVState2 STATETXT 2 descriptor Helpful Hint D2D1_10 configuration requires NODINPTS 2 Option PVState2 cannot be specified unless NOSTATES 3 STATETXT 0 2 is configured for each DigComp or DevCtl point BADPVTXT and MOVPVTXT are configured during Box Data Point configuration for all DigComp or DevCtl points in the box D2D1_11 DigComp DevCtl Type E PVSTATS D2D1 One_One PV State Defines the PV state descriptor that is to be used Lock Eng PB and displayed when inputs D2 and D1 are both On 11 Default BadPV PtRes HPM Range 0 PVState0 STATETXT 0 descriptor 1 PVStatel STATETXT 1 descriptor 2 BadPV BADPVTXT descriptor 3 MovPV MOVPVTXT descriptor 4 PVState2 STATETXT 2 descriptor Helpful Hint D2D1_11 configuration requires NODINPTS 2 Option PVState2 cannot be specified unless NOSTATES 3 STATETXT 0 2 is configured for each DigComp or DevCtl point BADPVTXT and MOVPVTXT are configured during Box Data Point configuration for all DigComp or DevCtl points in the box HPM Parameter Reference Dictionary D 3 8 97 DAMPING DAMPING STI Type Real Damping Defines the first order PV filtering optio
287. t Low Group and Detail displays PtRes NIM Range Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated Reference See Engineer s Reference Manual in the Alarm Management section for more information on what should happen under different possible alarm actions ALPRIOR DigComp DigIn FL Type E ALPRIOR Composite Alarm Priority When read returns a value equal to the highest Lock Engr configured priority among all alarm parameters for the point When written sets Default Low all of the point s alarm priority parameters equal to the value being stored Note PtRes NIM that individual parameters such as BADPVPR etc can be stored individually If a point s separate alarm priorities are all set to the same priority ALPRIOR is compatible with R400 and earlier software Range Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported t
288. t is not in alarm On Point is in alarm BADOC1FL Type Lock Default PtRes Range Logical View OFF HPM Off On BADOC2FL Type Lock Default PtRes Range Logical View OFF HPM Off On BADOC3FL Type Lock Default PtRes Range Logical View OFF HPM Off On BADOC4FL Type Lock Default PtRes Range HPM Parameter Reference Dictionary Logical View OFF HPM Off On Bad Output Connection Flag 1 ON indicates that the RegCtl point cannot drive Output 1 to an AO point if configured Bad Output Connection Flag 2 ON indicates that the RegCtl point cannot drive Output 2 to an AO point if configured Bad Output Connection Flag 3 ON indicates that the RegCtl point cannot drive Output 3 to an AO point if configured Bad Output Connection Flag 4 ON indicates that the RegCtl point cannot drive Output 4 to an AO point if configured B 3 8 97 BADOCPR BADOCPR RegCtl Type E ALPRIOR Bad Output Connection BADOC Alarm Priority Indicates the priority of the Lock Engr Bad Output Connection BADOC alarm Default Low PtRes NIM Range NoAction JniPrint Printer Journal Low High Emergncy Helpful Hint The value of this parameter can be changed on the Point Detail display with Engineering keylevel access BADOCOPT RegCtl Type Logical Bad Output Connection Alarm Option BADOC ON indicates that the Bad Lock Eng Pb Output Connection
289. tRes Range Logical Forced Input Request Flag Defines whether the operator a user written Oper program or an input connection has requested that an input be used as the forced Off input for this algorithm HPM Off No request to force an input On Request has been made to force an input Helpful Hint FORCE change requires FRCPERM On FRCPERM HiLoAvg Type Lock Default PtRes Range Logical Forced Input Permissive Defines whether an operator or a user written program Eng PB can force select an input FRCPERM must be On before the operator or a Off program can select an input to be used as a forced input to this algorithm HPM Off Forced selection function is disabled On Forced selection function is enabled FREQ6050 1 168 Type Lock Default PtRes Range E FRQ6050 Frequency 60 50Hz Defines the 60 50 Hz frequency configuration needed for a Eng PB Low Level AI Mux or STI Temperature Transmitter For the STI if a 60Hz mismatch occurs between this parameter and the transmitter s internal 60 Hz 50 HPM Hz frequency parameter a database download from the STI IOP to the transmitter 0 60 Hz will clear this condition 1 50 Hz FRQUTAVG NIM HPM Box Type Lock Default PtRes Range Real Average UCN Fetch Request Trip Time The average time in milliseconds it View takes to receive a response to this node s UCN fetch requests NaN HPM N A Helpful Hint This statistic can b
290. tRes HPM Range Hexadecimal characters 00 to FF LOADPCKT Type Integer Current Personality Image Packet Being Loaded to This Node Lock View Default PtRes HPM Range LOADSCOP NIM Type E LOADSCP Load Scope Defines the scope of the point build procedure for NIM and Lock PtBld HPM configuration The point information is loaded to both the NIM and Default NIMAndPm HPM or to the NIM only A value of NIMONLY is typically used to PtRes NIM configure points into the NIM only during installation of a new system without HPMs NOTE When points are built to a NIM and the NIM is restarted with no database the points need to be reloaded from checkpoint or the points must be reconfigured If the database is to be reconfigured the HPMM must be in Idle and the point execution state must be Inactive This allows the point build operation to override the database that already exists there NOTE To delete active entities from the HPM database the point must be put to the inactive state An alternative is to delete the entity in the NIM only by changing the LOADSCOP parameter for the NIM to NimOnly and deleting the point Be sure to restore LOADSCOP to NimAndPM after deleting points Range NimOnly Configured data is to be loaded into the NIM only NimAndPm Configured data is to be loaded into the NIM and HPM HPM Parameter Reference Dictionary L 5 8 97 LOADSTAT LOADSTAT Type E LOADSTAT Load Status Lock Vi
291. tRes HPM Range None No destination SIO Output goes to Safety Interlock 10 11 I2 Output goes to Interlocks P0 P1 P2 Output goes to Permissives SOCMD0 SOCMD1 SOCMD2 Output is commanded to go to SOCMD0 1 or 2 OPCMD Output is commanded to go to OPCMD SG1 SG2 Output goes to Secondary gates or 2 PG1 PG2 PG3 PG4 Output goes to Primary gates 1 2 3 or 4 SIM_TXT NIM Type String 8 Simulation Indicator see also DISP_SIM Lock View Default N A PtRes HPM Range N A SIOCONF DigComp DevCtl Type Logical Safety Override Interlock Alarm Confirmation Flag Indicates that the safety Lock Oper override interlock alarm needs to be confirmed Default Off PtRes HPM Range N A HPM Parameter Reference Dictionary S 14 8 97 SISO SISO 1 12 DevCtl Type Lock Default PtRes Range Logical Status Output for Secondary Input Gates Indicates the output value of the in an Array secondary input gate 1 12 View Off HPM Off On SLOTNUM Type Lock Default PtRes Range Integer Slot Number Defines the slot number where this point resides For IOP point PtBld types AnalgIn AnalgOut DigIn DigOut it defines the hardware subslot on N A the module IOP card in which the point resides refer to description of NIM MODNUM parameter For control points DigComp DevCtl Array Logic RegPV RegCtl Flag Numeric Timer and ProcMod it defines the software slot in
292. te A permissive interlock PO P2 is provided for each state STATE0 STATE2 The permissive interlocks themselves never cause the outputs to change PO P2 can be changed by a logic block or a program when the point is active and the mode attribute is Program Refer to the HPM Control Functions and Algorithms manual for a detailed description Off Respective state is locked out On Respective state is permitted to be used P1 P6 RegPV Type Lock Default PtRes Range Real PV Inputs 1 6 Indicates the current values at the inputs to the RegPV View algorithm For Totalizers P2 is the floating point input of AV NaN HPM N A NaN HPM Parameter Reference Dictionary P 1 8 97 P1STS P1STS P6STS Type Lock Default PtRes Range E PVVALST P1 P6 Status Indicate the status of the up to six inputs at the RegPV View algorithm Bad HPM 0 Bad Value is bad and replaced with NaN 1 Uncertn Status of the value is uncertain 2 Normal Value is good PAUSETIM DevCtl DigComp Type Lock Default PtRes Range Integer State 0 Pause Time The amount of time to pause in State 0 on an OP state Supr change if the STCHGOPT parameter equals STATEO 0 HPM 0 to 1000 seconds PERIOD ProcMod Timer Type Lock Default PtRes Range Real Period Defines the processing period in seconds View 1 seconds HPM 1 seconds PERIOD DevCtl DigComp Logic RegCtl RegPV Type Lock
293. tely indicates whether View input 1 and input 2 are on or off Off HPM Off No input present On Input is present D1_0 DigComp DevCtl Type Lock Default PtRes Range E PVSTATS Digital Input 1 Equal to A PV State of 0 Defines the PV state that View corresponds to input D1 Off D1_0 true only if INPTDIR Direct and the PVState0 field contact feeding D1 is open or INPTDIR Reverse and contact is cleared HPM 0 PVState0 STATETXT 0 describes D1 0 1 PVStatel STATETXT 1 describes D1 0 Helpful Hint Applies only if NODINPTS 1 D1_0 is always the opposite state of D1_1 D1_1 DigComp DevCtl Type Lock Default PtRes Range E PVSTATS Digital Input 1 Equals A PV State of 1 D1_1 defines the PV state that Eng PB corresponds to D1 Input 1 status On D1_1 true only if INPTDIR PVStatel Direct and the field contact feeding D1 is closed or INPDIR Reverse and HPM contact is open 0 PVState0 STATETXT 0 describes D1 1 1 PVStatel STATETXT 1 describes D1 1 Helpful Hint D1_1 Digital Input 1 Equal To A PV State Of 1 applies only if NODINPTS 1 D1_1 is always the opposite state of D1_0 and vice versa HPM Parameter Reference Dictionary D 1 8 97 D2 D2 VdtLdLag Type Real Bias for Input P2 Lock Supr Default 0 0 PtRes HPM Range gt 90 0 D2D1_ 00 DigComp DevCtl Type Lock Default PtRes Range E PVSTATS D2_D1 Zero_Zero PV State De
294. ter Parameter name can be up to eight characters and must be a legitimate parameter name HPM Parameter Reference Dictionary L 7 8 97 LODSTN 1 2 LODSTN 1 2 DevCtl Type Lock Default PtRes Range Blind Record Device Control Output Connection Destination Specifies up to 2 destinations in an Array to which the current values of the Device Control slot outputs are supplied The 1 2 destinations can be specified using the Tagname Parameter format or the PtBld hardware reference address format Refer to the HPM Control Functions and Null Algorithms manual for a detailed description HPM Use Tagname Parameter for tagged points where Tagname can be up to 16 characters and the permissible character set is as follows Alphabetics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible output connection destinations are a DigOut slot tagname ONPULSE or OFFPULSE b DigOut slot Tagname SO c Logic slot Tagname Fl nn where nn 7 12 d ProcMod Tagname Fl nnn where nnn 1 127 e Flag slot Tagname PVFL f Box FL nnnn for a box flag that resides in the same HPM box where n
295. ter Reference Dictionary P 37 8 97 PVLOPR PVLOPR RegCtl RegPV Type Lock Default PtRes Range E ALPRIOR PV Low Alarm Priority Defines the priority of the PV low alarm for this Engr point Low NIM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated Helpful Hint PVLOPR configuration requires PVLOTP NaN PVLOTP RegCtl RegPV Type Lock Default PtRes Range Real PV Low Alarm Trip Point Defines the trip point for the PV low alarm for this Supr point NaN HPM PVLLTP to PVHITP NaN PVNORMAL DevCtl DigIn DigComp Type Lock Default PtRes Range E STATETXT PYV Normal State Defines the normal state of the PV using the appropriate Supr STATETXT descriptor Engr to change to from NONE N A HPM STATETXT 0 descriptor Defaulted to Off for PV State 0 STATETXT 1 descriptor Defaulted to On for PV State 1 STATETXT 2 descriptor Defaulted to State
296. ter set for the up to eight character descriptor is as follows Alphabetics A Z upper case only Numerics 0 9 Underscore _ BADSVEL DevCtl Type Lock Default PtRes Range Logical Bad SV Alarm Flag Indicates a bad secondary value alarm View Off HPM Off Good data being read On SV parameter BAD or NaN BADSVPR DevCtl Type Lock Default PtRes Range E ALPRIOR Bad SV Alarm Priority Indicates the alarm priority for the secondary value Engr Low NIM JnlPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated BCAMODEFL RegCtl Type Lock Default PtRes Range Logical Backup Cascade Mode Flag Indicates if the mode of the point is Backup View Cascade N A HPM Off point is not in Backup Cascade mode On point is in Backup Cascade mode HPM Parameter Reference Dictionary B 6 8 97 BCOMOPT BCOMPOPT FlowComp Type Bad Compensation Input Option
297. tes 0 that no subroutine is executing The array index indicates nesting level HPM 0 to 255 STO_OP1 3 DevCtl Digcomp Type Lock Default PtRes Range Logical State 0 Outputs 1 through 3 Defines the value On or Off that is to be Eng PB written to output number 1 2 and 3 when the OP is in State 0 Off HPM Off On ST1_OP1 3 DevCtl Digcomp Type Lock Default PtRes Range Logical State 1 Outputs 1 2 and 3 Defines the value On or Off that is to be written Eng PB to output number 1 2 and 3 when the OP is in State 1 Off HPM Off On ST2_OP1 3 DevCtl Digcomp Type Lock Default PtRes Range Logical State 2 Outputs 1 2 and 3 Defines the value On or Off that is to be written Eng PB to output number 1 2 and 3 when the OP is in State 2 Off HPM Off On HPM Parameter Reference Dictionary S 22 8 97 STARTFL STARTFL Type Lock Default PtRes Range Logical Start Command Flag Starts DigIn accumulator RegPV totalizer or Box Prog Timer when flag transitions from Off to On Off HPM Off No effect on accumulator totalizer On Allows the accumulator totalizer to begin counting up down STATE STI Type Lock Default PtRes Range E STATE Current State Indicates the current state of the STI point View N A HPM 2 Loading Indicates that database loading between the STI point and the transmitter is occurring 3 Loadcomp Indi
298. the database BYPASS DevCtl DigComp Type Logical Interlock Bypass Allows bypassing the permissive and override interlocks Lock Oper when ON The Safety Override Interlock SIO is not affected Only applies if Default Off Override Option OROPT is selected PtRes HPM Range Off Interlocks not bypassed On Interlocks bypassed BYPASS ORSel Type Logical Override Input Bypass Enable Allows the operator to select the bypass function Lock Oper for the X1 X4 inputs Default Off PtRes HPM Range Off Bypass of inputs is not allowed On Bypass of inputs is allowed BYPASSX1 BYPASSX4 ORSel Type Logical Bypass X1 X4 Input Refer to the HPM Control Functions and Algorithms Lock Oper manual for a detailed description BYPASSXn being On does not bypass X1 X4 unless BYPASS On Default BYPASSX1 Off BYPASSX2 X4 On PtRes HPM Range Off On HPM Parameter Reference Dictionary B 9 8 97 HPM Parameter Reference Dictionary B 10 8 97 C C FlowComp Summer Totalizer and VdtLdLg Type Real Scale Factor Value in C is used in the calculation of PVCALC Refer to the Lock Supr HPM Control Functions and Algorithms manual for the equation Default 1 0 PtRes HPM Range Anything except NaN C1 C2 FlowComp Type Real Correction Constants Values in C1 and C2 are used in the calculation of Lock Supr PVCALLC and serve as factors in compensating for assumed design conditions Default 1 0
299. the PMM The processing capacity of the HPM depends on the number and mix of configured control points Refer to the HPM Control Functions and Algorithms manual for a detailed description of how to determine the processing capacity of the HPM based on the number of control points being used For multivariable Smartline transmitters note that although the transmitter is connected to only one slot you must allocate adjacent slots for the other PVs AnalgIn 1 16 for HLAI and STI 1 32 for LLMUX and RHMUX AnalgIn 1 8 for LLAD Array 1 500 but lt the value of NARRSLOT DevCtl 1 400 but lt the value of NDEVSLOT DigComp 1 999 but lt the value of NDCSLOT DigIn 1 32 DigOut 1 16 or 1 32 Flag HPM Box Flag 1 2047 LLMUX 1 32 Logic 1 400 but lt the value of NUOGSLOT Numeric HPM Box Numeric 1 2047 ProcMod 1 250 but lt the value of NPMSLOT PI 1 8 RegCtl 1 250 but lt the value of NCTLSLOT RegPV 1 125 lt the value of NPVSLOT Timer HPM box Timer 1 64 AnalgOut 1 8 or 1 16 HPM Parameter Reference Dictionary S 15 8 97 SLOTOSF SLOTOSF 1 168 Type Lock Default PtRes Range String_96 Slot 0 Soft Failures Returns blind record of box soft failures present at a View module address HPM Hexadecimal Characters 00 to FF SLWSRCID Analgin Type Lock Default PtRes Range Integer Slidewire Voltage Source Identifier Defines the slot number of the voltage Eng PB source
300. the current state of the PV input to this Lock Oper data point Not appropriate if DITYPE ACCUM Default Off PtRes HPM Range STATETXT 0 or STATETXT 1 Helpful Hint PV is derived from the open or closed state of field contacts and from the configured direct or reverse input direction INPTDIR PV change by a program requires DITYPE Latched or status PVSRCOPT All and PVSOURCE Sub PV change by an operator requires DITYPE Latched or status PVSRCOPT All and PVSOURCE Man HPM Parameter Reference Dictionary P 25 8 97 PV PV Flag Type Lock Default PtRes Range E SD_ENM STATETXT Current State Indicates the current state of the flag data point and Oper it is derived from PVFL STATETXT 1 is the alarmed state Blank HPM STATETXT 0 or STATETXT 1 PV Numeric Type Lock Default PtRes Range Real Process Variable Indicates the value of the numeric This value maps into Oper parameter NN n in the HPM box where n SLOTNUM NaN HPM N A PV RegCtl RegPV Type Lock Default PtRes Range Real Process Variable Indicates the current value of the PV after the PV is selected View for from one of the following possible sources a field device an operator or a RegCtl program See PVSRCOPT and PVSOURCE Oper for RegPV NaN HPM N A PV Timer Type Lock Default PtRes Range Integer Current Value Indicates the current time in seconds or mi
301. the mode to which this point sheds when it sheds from the Lock Engr Cas mode Default Man PtRes HPM Range 1 Man Manual 3 Auto Automatic applies to only Pid PosProp and RatioCtl algorithms 4 Beas Backup Cascade Helpful Hint 1 SHEDMODE configuration requires RCASOPT Spc or Ddc for Pid algorithm 2 SHEDMODE configuration requires RCASOPT Ddc for the following algorithms AutoMan IncrSum ORSel Switch 3 SHEDMODE configuration requires RCASOPT Spc for the following algorithms PosProp RatioCtl SHEDTIME RegCtl Type Integer Remote Cascade Shed Time Defines the amount of time between successive Lock Eng PB updates of the SP or OP value from the AM If the update is not received within Default 0 the specified time the AM or the NIM is assumed to have failed and the backup PtRes HPM control strategy is substituted by means of changing the mode to a preconfigured backup mode Range 0 to 1000 seconds Helpful Hint SHEDTIME configuration requires RCASOPT Spc Ddc or DdcRsp which indicates that the SP or OP value is provided by the AM To disable mode shed use the default value of 0 for this parameter SHUTDOWN RegCtl Type Logical Shutdown Command Flag tThis optional parameter allows the user to Lock Prog implement safety interlocks that can effectively shutdown a single control loop Default Off When the SHUTDOWN flag is set to On by a user written program or logic PtRes HP
302. then the HPMM database remains unchanged SCHSTS Type Logical Schedule Status Indicates the status of the schedule configuration option Lock View processing for example before after relationship Default OK PtRes HPM Range OK the point is correctly assigned to the desired scan cycle or before after another point with the same status Incomplete the point did not complete loading to the point where the proper scan cycle or before after point could be determined error the point could not be placed on the desired scan cycle or before after the desired point Alarm the schedule configuration of the point was violated after the configuration of the point was complete and its status was Ok HPM Parameter Reference Dictionary S 4 8 97 SEALOPT SEALOPT DevCtl DigComp Type Lock Default PtRes Range E SEALOPT Seal in Circuit Option Configures the seal in circuit option Eng PB None HPM 0 None Sealin is not configured 1 Sealin Sealin is configured SECOND HPM Box Type Lock Default PtRes Range Integer Current Second View N A HPM 0 to 59 SECSYNC Type Lock Default PtRes Range E SECSYNC Secondary Synchronization Status View HPM Synched Modules are synchronized NoSynch Modules are out of synchronization SECVAR DevCtl Type Lock Default PtRes Range Real Secondary Variable The analog feedback normally the motor current or flow Vie
303. tics A Z uppercase only Numerics 0 9 an all numeric tag name is not allowed Underscore _ cannot be used as the first character or the last character and consecutive underscores are not allowed Embedded space characters are not allowed An is used to default to this point s tag name Parameter name can be up to eight characters and must be a legitimate parameter name Some possible input connection sources are a DigIn slot Tagname PVFL b Logic slot Tagname SO nn where nn 1 24 c Logic slot Tagname Fl nn where nn 1 12 d ProcMod slot Tagname Fl nnn where nnn 1 127 e Box Flag slot Tagname PVFL f Box FL nnnn for a box flag that resides in the same box where nnnn 1 16 384 g NMhhBxx FL nnnn for a box flag that resides in a different HPM box on the same UCN hh is the NIM UCN address xx is the HPM box number and nnnn 1 4095 data access limit Use the hardware reference address MTmmSss Parameter for untagged or tagged points where MT is the IOP type such as DI Digital Input mm is the IOP Card number 1 40 The letter S is a constant ss is the slot number on the IOP Card refer to SLOTNUM parameter Parameter name can be up to eight characters and must be a legitimate parameter name LOADFAIL Type Lock Default PtRes Range Node Load Failure Information HPM Parameter Reference Dictionary L 4 8 97 LOADFLAG LOADFLAG Type String 2 Load Flag Lock View Default P
304. tions These flags are local to the by SPLOCK process module and are different than the 12 logic slot flags and the 1023 flags provided in each HPM box Default Off PtRes HPM Range Off Flag is off On Flag is set FL 1 16 384 HPM Box Type Logical Box Flag Variables Each HPM box has a set of 16 384 local flag variables that Lock Oper can be used by process modules in this HPM to implement batch operations Default Off The first 2047 box flags are taggable These flags are local to the HPM box and PtRes HPM are different than the 12 logic slot flags and the 127 flags provided in each process module The LCN index limit is 4095 there is no index limit for the UCN Array points can be used to address flags with an index greater than 4095 Range Off Flag is off On Flag is set Helpful Hint For the first 128 flags the On state is alarmed FLDESC Array Type String 64 FL Array Descriptor Describes FL data for the Array point Lock PtBld Default Spaces PtRes HPM Range N A FLSTIX Array Type Real Flag Array Start Index Defines the flag array start index in Box FL variables or Lock PtBld serial interface connected devices Default 0 0 PtRes HPM Range 0 to 99 999 When EXTDATA IO_FL 0 can be a valid device index 0 to 16 384 When EXTDATA IO_FL 0 indicates that no flags are configured HPM Parameter Reference Dictionary F 3 8 97 FORCE FORCE HiLoAvg Type Lock Default P
305. to FTA connector Default 0 in IOP database B Applies to primary IOP only none on GDF PtRes HPM Range 0 15 0 specifies Not Connected IOMCHAER 1 168 Type Integer IOP Channel A Error Count for a specific IOP Lock View Default N A PtRes HPM Range 0 255 lIOMCHASL 1 168 Type Integer IOP Channel A Silence Count for a specific IOP Lock View Default N A PtRes HPM Range 0 255 IOMCHBER 1 168 Type Integer IOP Channel B Error Count for a specific IOP Lock View Default N A PtRes HPM Range 0 255 HPM Parameter Reference Dictionary 1 8 8 97 IOMCHBSL IOMCHBSL 1 168 Type Lock Default PtRes Range Integer IOP Channel B Silence Count for a specific IOP View N A HPM 0 255 IOMCMD HPM Box Type Lock Default PtRes Range E IOMCMD IOP Module Command Indicates IO module state or whether to swap Oper redundant pairs None HPM IOMCOMER 1 168 Type Lock Default PtRes Range E IOMCOMMIOP IOP Communications Error Status for a specific IOP View N A HPM None No error Invalert Invalid alert message bit problem Invdest Invalid destination Invehent Invalid character count message corrupted Invsourc Invalid source Invemd Invalid command Checksum Checksum error No_resp No response Chtimout Channel time out Msgovrun Message overrun Gaperror Gap error message gap too long Lpbckerr Loopback er
306. to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated Helpful Hint PVROCPPR configuration requires PVROCPTP NaN PVROCPTP RegCtl RegPV Type Lock Default PtRes Range Real Supr PV Positive Rate of Change Trip Point Defines the positive PV rate of change NaN limit in engineering units minute for this point for example 25 degrees per HPM minute The PV value is checked every four seconds The rate of change alarm trips if the PV rate of change value is exceeded for two successive scans The alarm is reset if the PV rate of change falls below the rate of change value for two successive scans The maximum rate of change value must be less than the absolute value of PVEUHI PVEULO gt 0 0 NaN For RegPV points RegCtl points and points in HLAI or LLAI the maximum rate of change is one step away from PVEXEUHI to PVEXEULO in eight seconds therefore the maximum rate of change is PVEXEUHI PVEXEULO 7 5 units minute Example for SENSRTYP RTD the maximum is 800 180 7 5 which 7350 PVSGCHTP RegCtl RegPV Type Lock Default PtRes Range Real PV Significant Change Alarm Trip Point Defines the alarm trip point for an Supr increment of change that occurs between configured PVHITP and PVHHTP or NaN PVLOTP and PVLLTP alarms For example consider a temperature point with HPM limits of PVHITP 800 degrees PVHHTP 850 and
307. trip point PVLLPR RegCtl RegPV Type E ALPRIOR PYV Low Low Alarm Priority Determines the priority of the PV low low alarm Lock Engr for this data point Default Low PtRes NIM Range JniPrint Alarm is historized and reported to the printer but not annunciated Printer Alarm is reported to the printer but not historized and not annunciated Emergncy Alarm is historized annunciated and reported to all alarm summary displays High Alarm is historized reported to Area Alarm Summary Display and Unit Alarm Summary Display Low Alarm is historized reported to the Unit Alarm Summary Display and annunciated Journal Alarm is historized but not reported to Universal Stations and not annunciated NoAction Alarm is not reported to the system and not annunciated PVLLTP Analgin RegPV PI Type Real PV Low Low Alarm Trip Point Defines the trip point for the PV low low Lock Supr alarm for this point Default NaN PtRes HPM Range _PVEXEULO to PVLOTP NaN PVLLTP RegCtl Type Real PV Low Low Alarm Trip Point Defines the trip point for the PV low low Lock Supr alarm for this point Default NaN PtRes HPM Range PVEULO to PVLOTP NaN PVLOFL RegCtl RegPV Type Logical PV Low Alarm Flag Indicates that the PV has exceeded the alarm trip point Lock View established by parameter PVLOTP Default Off PtRes HPM Range Off PV gt Low alarm trip point On PV lt Low alarm trip point HPM Parame
308. trol slot either logical or real NN1 NN8 Local numerics real PINN1 PINN12 Numeric constant for arithmetic comparisons real SECVAR Secondary variable input value real HPM Parameter Reference Dictionary L 10 8 97 LOSRC 1 12 LOSRC 1 12 Logic Type Lock Default PtRes Range E PMMLGPM Logic Output Connection Source Defines the logic slot parameter that is Eng PB to provide its value to the output connection specified by parameter FL1 LODSTN n Logic Output Connection Destination HPM FL1 FL12 Local flag either a 1 On or a 0 Off SO1 8024 Logic block output logical 1 or 0 L1 L12 Input to the logic slot logical or real value NNI1 NN8 Local numeric data type of Real LOWERTIM Type Lock Default PtRes Range Real Lower Output Pulse Time In Seconds Indicates the lower output pulse time View in seconds This value is clamped to MAXPULSE or CYCLETIM whichever N A is lower If LOWERTIM is smaller than RP MINPULSE no pulse is issued HPM N A LOWRDSTN Type Lock Default PtRes Range Universal Lower OP Pulse Destination Defines the destination of the Lower output Ent Prm pulse LOWRDSTN must point to parameter ONPULSE or parameter PtBld OFFPULSE of a DigOut point Null HPM ONPULSE OFFPULSE LOWRRATE Type Lock Default PtRes Range Real Lower OP Stroke Rate in Percent Second Supr 100 0 sec HPM gt 0 0 percent second LRL
309. tus of the steam quality factor input Lock View Default Normal PtRes HPM Range 0 Bad Value is bad and replaced by NaN 1 Uncertn Status of the value is uncertain 2 Normal Value is good HPM Parameter Reference Dictionary Q 1 8 97 HPM Parameter Reference Dictionary Q 2 8 97 R1 R R1 1 24 R2 1 24 Logic Type Lock Default PtRes Range E PMMLGPM PtBld Ll HPM Real Inputs 1 amp 2 Defines the sources that provide the input values for the R1 and R2 inputs of certain logic blocks 32 47 L1 L12 Values from Input Connections 48 51 NN1 NN8 Local Numerics RAISDSTN Type Lock Default PtRes Range Universal Ent Prm PtBld Null HPM ONPULSE OFFPULSE RAISETIM Type Lock Default PtRes Range Real View N A HPM N A NaN RAISRATE Type Lock Default PtRes Range RAMPTIME Type Lock Default PtRes Range HPM Parameter Reference Dictionary Real Supr 100 0 per sec HPM Raise Output Pulse Destination Defines the destination of the Raise output pulse RAISDSTN must point to parameters ONPULSE or OFFPULSE of a DigOut data point Raise Output Pulse Time Indicates the Raise output pulse time in seconds It is clamped to MAXPULSE or CYCLETIM whichever is lower If the value of RAISETIM is smaller than MINPULSE no pulse is issued Raise OP Stroke Rate in Percent Second gt 0 0 per second Real Oper 0 0 HPM gt
310. umber of UCN Parameter Accesses per Second Maximum View number of UCN parameter accesses per second between this node and all other 0 nodes including both requests and responses HPM N A NPMSLOT HPM Box Type Lock Default PtRes Range Integer Number of Process Module Slots Refer to the HPM Control Functions and PtBld Algorithms manual for a detailed description of HPM processing capacity 0 HPM 0 to 250 NPRQUAVG 0 64 NIM HPM Box Type Lock Default PtRes Range Real Average number of UCN Parameter Requests A verage number of UCN View parameter requests per second issued from this node to node n 0 HPM N A NOTE The node address n is an odd number 1 3 5 63 Using an even number results in a Parameter_Invalid error Using n 0 returns average total number of parameter requests to all other nodes NPRQUMAX 0 64 NIM HPM Box Type Lock Default PtRes Range Real Maximum number of UCN Parameter Requests Maximum number of UCN View parameter requests per second issued from this node to node n 0 HPM N A NOTE The node address n is an odd number 1 3 5 63 Using an even number results in a Parameter_Invalid error Using n 0 returns maximum total number of parameter requests to all other nodes HPM Parameter Reference Dictionary N 21 8 97 NPRSPAVG NPRSPAVG 0 64 NIM HPM Box Type Real Average number of UCN Parameter Responses A vera
311. ure input and it is in the same Lock Supr Engineering Unit as the P measured or actual gage pressure input Default 1 0 PtRes HPM Range N A RP Type Real Minimum Pulse Time Ratio Lock Supr Default 1 0 PtRes HPM Range 9 01 to 100 0 RQ FlowComp Type Real Reference Steam Quality Factor Defines the reference steam quality factor Lock Supr which is in the same units as the Q measured actual steam quality input Default 1 0 PtRes HPM Range N A RSPBGP RampSoak Type Real Ramp Soak Percent Bar Graph Parameter If in a ramp sequence the value of Lock View the next soak percent is displayed If in a soak sequence the value of parameter Default N A REMSOAKT as a percent of total soak time is displayed PtRes HPM Range gt 90 0 RSTROPT ProcMod Type E RSTROPT Restart Option Defines how the sequence program is to be started following Lock Eng an Idle to Run or power up to Run transition or a warm restart Default Off PtRes HPM Range 0 Off Sequence is waiting for the operator command to start 1 Restart Sequence is to be restarted from the beginning 2 Stop Sequence positions to beginning of the last preemption following a Warm Cold or Power Up Restart and waits for the operator to start HPM Parameter Reference Dictionary R 8 8 97 RT FlowComp Type Lock Default PtRes Range RT Type Lock Default PtRes Range Real Reference Temperature RT is the re
312. value else Eng PB 0 HPM 0 to 999 seconds 0 indicates command fail alarming is disabled CMDHWREV Type Lock Default PtRes Range String_2 HPMM Communications Daughter Card Revision View HPM Hexadecimal characters 00 FF HPM Parameter Reference Dictionary C 7 8 97 CMFLTIME CMFLTIME HPM BOX Type Time HPMM Communications Failure Time Lock View Default N A PtRes HPM Helpful Hint If a value of 0 is returned for the time from the UCN a parameter status of Parameter Invalid is returned on the LCN Range CMIDTXT HPM BOX Type String 16 HPMM Communications Identification Text String Lock View Default Blank PtRes HPM Range Hexadecimal characters 00 FF CMPLTIME Type Time Compile Time Specifies the sequence compile time CL object header Lock View Default 0 PtRes HPM Range CNFERRFL Type Logical Configuration Error Flag this flag is set if any configuration requirement is Lock View violated Default Off PtRes HPM Range Off On CNFERRPR Type E ALPRIOR Configuration Error Priority Lock Eng PB Default Low PtRes HPM Range Low HPM Parameter Reference Dictionary C 8 8 97 CNFLUA CNFLUA n Type Real Configured Link Units on Link A Lock View n 1 64 for per cycle totals Default 0 0 n 257 320 for per cycle non SI IOP loading PtRes HPM n 513 576 for per cycle SI array slot loading Range CNFLUB n Type Real Configure
313. w 0 0 HPM Real Numbers including NaN SECVAR STI Type Lock Default PtRes Range Real Secondary Variable Displays the value of the secondary variable of the smart View transmitter as follows NaN Pressure transmitter temperature of the transmitter HPM Temperature transmitter cold junction temperature Flow transmitter totalized value N A NaN SEGTOT GenLin Type Lock Default PtRes Range Integer Total Number of Segments Defines the total number of segments in the curve Supr 1 HPM 1 to 12 HPM Parameter Reference Dictionary S 5 8 97 SEGTYPE SEGTYPE RampSoak Type Lock Default PtRes Range E SEGTYPE Segment Type Indicates the current segment being executed by the RegCtl View point N A HPM 0 Ramp Ramp segment 1 Soak Soak segment SELINP HiLoAvg MidOf3 Type Lock Default PtRes Range E PINP Selected Input lIndicates the selected input for the algorithm View SelectP1 HPM 1 SelectP1 HiLoAvg and MidOf3 algorithms 2 SelectP2 HiLoAvg and MidOf3 algorithms 3 SelectP3 HiLoAvg and MidOf3 algorithms 4 SelectP4 Only HiLoAvg algorithm 5 SelectP5 Only HiLoAvg algorithm 6 SelectP6 Only HiLoAvg algorithm SELXINP ORSel Switch Type Lock Default PtRes Range E XINP Selected X Input For the ORSel algorithm this parameter indicates the View inputs to the algorithm that have not been bypassed by the BYPASS1 for O
314. w Normal HPM 0 Bad Value is bad and replaced with NaN 1 Uncertn Status of the value is uncertain 2 Normal Value is good HPM Parameter Reference Dictionary X 2 8 97 YEAR Y YEAR HPM Box Type Integer Current Year The value of the LCN date in the HPM Lock View Default NIA PtRes HPM Range 1979 to 2115 HPM Parameter Reference Dictionary Y 1 8 97 HPM Parameter Reference Dictionary Y 2 8 97 FAX Transmittal FAX No 602 313 4842 TO Andrea Simmons Total FAX pages including this page Reader Comments Title of Document HPM Parameter Reference Dictionary Document Number HP09 540 Issue Date 8 97 Comments FROM Name Date Title Company Address City State ZIP Telephone FAX You may also call 800 822 7673 available in the 48 contiguous states except Arizona in Arizona dial 602 313 5558 or write to Honeywell Inc Industrial Automation and Control Automation College 2820 West Kelton Lane Phoenix AZ 85023 3028 Honeywell Industrial Automation and Control Helping You Control Your World Automation College 2820 W Kelton Lane Phoenix AZ 85023 3028
315. w clamped Default NaN PtRes HPM Range N A PVAUTO DevCtl DigComp Type E PVSTATES Current PV State Indicates the current PV state based on the states of the Lock View inputs to the point Default BADPVTXT PtRes HPM Range O STATETXT O 1 STATETXT 1 2 BADPVTXT 3 MOVPVTXT 4 STATETXT 2 only if NOSTATES is 3 PVAUTO DigIn Type E STATETXT Current PV State Indicates the current PV state that corresponds to the field Lock View contact input after direct reverse correction Default N A PtRes HPM Range STATETXT 0 or STATETXT 1 HPM Parameter Reference Dictionary P 27 8 97 PVAUTO PVAUTO RegCtl Type Lock Default PtRes Range Real PV Auto Value Fetched Using Control Input Connection Indicates the current View value of the PV when the RegCtl point is in the Auto mode NaN HPM N A PVAUTO RegCtl RegPV Type Lock Default PtRes Range Real PV Auto Value Indicates the current value of the PV after the algorithm View calculation is performed the range is checked and the PV is filtered and clamped NaN HPM N A PVAUTOST RegCtl RegPV Type Lock Default PtRes Range E PVVALST PV Auto Value Status Indicates the current status of the PV AUTO value View Bad HPM 0 Bad All inputs or result in PVCALC is bad 1 Uncertn Final result in PVCALC is an uncertain value 2 Normal Final result in PVCALC is a normal value PVCALC Analgin PI T
316. w the low alarm limit specified by Default NaN OPLOTP The alarm is removed when OP returns to normal A suitable dead PtRes HPM band is provided by OPALDB See also OPLOPR Available on Release 510 and later software Range _OPLOLM to OPHITP NaN Helpful Hint The Regulatory Control Output Low alarm is only available for points configured as full The alarm is disabled if OPLOTP is not configured HPM Parameter Reference Dictionary O 10 8 97 OPMCHLM OPMCHLM Type Real Output Minimum Change in Percent Lock Supr Default 0 0 PtRes HPM Range gt 0 0 NaN OP changes only if new output old output is greater than the percentage in parameter OPMCHLM Entering NaN disables limit checking by forcing OPMCHLM to its extreme value 0 0 OPOUTO Type Real Output Coordinate Number 0 in Percent Defines the OPOUTO coordinate when Lock View output characterization has been selected OPCHAR On This coordinate is Default 6 9 fixed at a value of 6 9 PtRes HPM Range N A OPOUT1 4 Type Real Output Coordinates Number 1 2 3 or 4 in Percent Define the OPOUT1 Lock Supr OPOUT4 coordinates when output characterization has been selected OPCHAR Default N A is On PtRes HPM Range previous coordinate lt next coordinate OPOUTS5 Type Real Output Coordinate Number 5 in Percent Defines the OPOUTS coordinate when Lock View output characterization has been selected OPCHAR On This coor
317. ward Branches Specifies how many backward brances may Lock Engr occur when executing GOTO WHEN ERROR amp REPEAT before preemption Default 0 occurs 0 preempt every backward branch PtRes HPM Range 0 240 HPM Parameter Reference Dictionary C 5 8 97 CLPZMXC CLPZMXC UCN Type Lock Default PtRes Range Logical Overall Cable Status for UCN Cable A View N A NIM Off Cable A status is OK On Cable A status is not OK CLPZMXP UCN Type Lock Default PtRes Range Logical Overall Cable Status for UCN Cable B View N A NIM Off Cable B status is OK On Cable B status is not OK CMD RegCtl Type Lock Default PtRes Range Logical Command Fail Alarm Flag Indicates if the PV failed to move after the output Configurable command within the allowed command fail time Command Fail Alarm priority Off is determined by CMDDISPR APM Off PV moved after the output command On PV did not move after the output command CMDDISFL DevCtl DigComp Type Lock Default PtRes Range Logical Command Disagree Alarm Flag Indicates whether a field device did not go to View the commanded state within the allowed feedback time Off HPM Off No command disagree alarm On Command disagree alarm has been detected by this point HPM Parameter Reference Dictionary C 6 8 97 CMDDISPR CMDDISPR DevCtl DigComp Type Lock Default PtRes Range E ALPRIOR Command Dis
318. wo descriptors to the logic block flags which will describe the PtRes NIM current state of the logic slot based on the inputs and two descriptors to the SO outputs from the logic slot Refer to the description of the PRMDESC parameter and to the HPM Control Functions and Algorithms manual for a detailed description Range Permissible character set for the eight character generic descriptors consists of all characters on the Engineer s Keyboard Basically this set consists of alphabetics A Z numerics 0 9 and the following special characters space amp 4 3 gt lt 7_ 68 GENDESC nn Type String 72 Generic Descriptor Used as additional display text to help the operator Lock View diagnose potential problems with the IOP Itis primarily used with Default Blanks diagnostic displays PtRes HPM nn 1 40 specifies one of the 40 acting primaries nn 129 168 specifies one of the 40 acting secondaries GISRC 1 4 RegCtl RegPV Type General Input Source Specifies the Tag Parameter source of General Input Lock Connection Default PtRes HPM Range GIDSTN 1 4 RegCtl RegPV Type Parameter Destination General Input Connection Specifies the Lock RegPV RegCtl parameter destination of the General Input Connection Default PtRes HPM Range GIENBL 1 4 RegCtl RegPV Type General Input Connection Enable Flag Lock Default PtRes HPM Range HPM Parameter Reference Dictionary
319. ype Lock Default PtRes Range E PMCONF Node Configuration for the HPM Currently not used This parameter must View always be set to manual Manual HPM Manual Auto NODENUM NIM Type Lock Default PtRes Range Integer Node Number Defines the address of the NIM on the UCN PtBld N A NIM 1 to 64 NOTE The node number assigned to the NIM should be the lowest node number on the UCN see Timesync NODENUM HPM Box Type Lock Default PtRes Range Integer Node Number Defines the address of the HPMs on the UCN NODENUM PtBld assigned for any HPM must be odd whether PKGOPT equals N A Option nonredundant or Option 2 redundant Because of this restriction NIM and because the NIM takes up one odd address and the next even address the 1 to 64 maximum number of HPM s that can be on the UCN is 31 The primary HPMM is assigned an odd address the associated secondary redundant HPMM is assigned the next even address HPM Parameter Reference Dictionary N 12 8 97 NODEOPER NODEOPER Type E PRIMSEC Node Operating Mode Lock View Default PtRes NIM Range Primary HPM NIM is the acting primary node Secndry HPM NIM is the acting secondary NODESC Logic Type Integer Number of Generic Descriptors Defines the number of user defined generic Lock PTBLD descriptors that are to be used on this logic slot For each descriptor the Default 0 parameter in the logic slot to w
320. ype Lock Default PtRes Range Real Calculated PV PVCALC is the PV value in Engineering Units after the raw View PV PVRAW input to this data point has been characterized The value of NaN PVRAW is the PV value provided by the Field Termination Assembly FTA HPM PVEXEUHI to PVEXEULO NaN PVCALC RegPV Type Lock Default PtRes Range Real Calculated PV Indicates the value of the PV after the PV has been calculated by View the PV algorithm NaN HPM N A NaN HPM Parameter Reference Dictionary P 28 8 97 PVCHAR Type E VALCHAR PV Characterization Option Defines the display characterization to be used Lock PtBld for characterizing the input PV value Characterization is based on the field Default Linear sensor type PtRes HPM HLAI LLMUX RHMUX amp LLAI PV Characterization Valid normal Valid extended range range PVEULO PVEXEULO X Allowable Sensor Type PVEUHI PVEXEUHI SENSRTYP in Degrees C in Degrees C when TCRNGOPT when TCRNGOPT Range Normal for Extended for SENSRTYP SENSRTYP Thermcpl Thermcpl 0 Jtherm 200 to 1200 N A xX 100 to 750 200 to 1200 X 100 to 750 200 to 1200 1 Ktherm 0 to 1100 200 to 1370 X 0 to 1100 200 to 1370 xX 0 to 1100 200 to 1370 2 Etherm 200 to 1000 N A X 150 to 500 200 to 1000 X 150 to 500 200 to 1000 3 Ttherm 230 to 400 N A xX 200 to 300 230 to 400 X 200 to 300 230 to 400 4 Btherm 100 to 1820 N A X 600 to 1650
321. zr Type Logical Accumulated Value 2nd Deviation Flag Indicates whether PVCALC is greater Lock View than AVTV minus AVDEV2TP PVCALC gt AVTV AVDEV2TP This is Default N A the second slowdown or near target flag PtRes HPM Range Off PVCALC is not gt AVTV AVDEV2TP On PVCALC is gt AVTV AVDEV2TP AVDEV2TP Totalizr Type Real Accumulated Value 2nd Deviation Trip Point deviation from AVTV Lock Supr Default NaN PtRes HPM Range gt 0 0 NaN AVGPU ProcMod Type Real Average PUs Specifies the average PUs used for point processing Lock View Default 0 PtRes HPM Range N A AVGTF NIM HPM Box Type Lock Default PtRes Range Real Average Statistics Single Lag Filter Time Constant Defines the filter time in Engineer the single lag filter used to calculate average values of the performance statistics 1 00 Minutes HPM 0 0 1440 0 0 no filter HPM Parameter Reference Dictionary A 10 8 97 AVSTS AVSTS PI Type E PVVALST Value Status of AV Lock View Default Bad PtRes HPM Range 0 Bad 2 Normal AVTV DigIn Type Integer Accumulator Target Value Specifies the target value of the accumulator Lock Oper AVTV appears on a group or detail display as the SP value Default 0 PtRes HPM Range 0 to 32767 AVTV Totalizr Type Real Accumulator Target Value Specifies the target value of the totalizer AVTV Lock Oper appears on a group or detail display as the SP v
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