syslib-rm030 - Literature Library
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1. Ciji 0 00 CV Output A 40 00 P_Fanout Analog Fanout P_Fanout Input CV Indicator Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Response Based On Gain and Offset CV Limit Indicator CV Input 29 Analog Fanout P_Fanout 30 The following table shows the functions included on the Operator tab Table 6 Operator Tab Description Function Action Click to release Operator mode lock Security Manual Device E Operation Code B a Click to lock in Operator mode jz Click to request Program mode D Click to request Operator mode A CV1 CV8 Click to navigate to the input object None Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Analog Fanout P_Fanout Maintenance Tab Maintenance personnel use the information and controls on the Maintenance tab to make adjustments to device parameters troubleshoot and temporarily work around device problems and disable the device for routine maintenance The Maintenance tab shows the following information e Current mode Program Operator or Maintenance e Requested Modes indicator This display highlights all of the modes that have been requested The leftmost highlighted mode is the active mode EIS P_Fanout Analog Fanout Mode Indicator Maintenance Mode tenet ele ro O S lt kare and Release Indicat2. Engineering Cfg_Desc on the Faceplate title bar Configuration Code E Label Type the label to show on the Cfg_Label Graphic Symbol Rockwell Automation Publication SYSLIB RM030C EN P August 2014 33 Analog Fanout P_Fanout Table 8 Engineering Tab Page 1 Description Function Tag Action Type the tag name to show on the Faceplate and Tooltip IMPORTANT Pausing the mouse over this field displays a tool tip with the configured Logix tag path Units Type the units that are used with the CV Clamp Limits Minimum Maximum Type values to set the limits to use to clamp the CV Display Limits Minimum Maximum Type values to set the limits to display for the CV Clear Program Commands on Receipt Check to use edge triggered Program commands default Clear the checkbox to use Level triggered Program commands On Bad Input CV Hold Last Good Value Click to hold last good value On Bad Input CV Copy Bad Values to Outputs Click to pass through the bad value Mode Configuration Display requests Program Default mode used when there are no mode Operator Security Engineering Configuration Code E Configuration Parameters Cfg_Tag Cfg_CV_EU e Cfg_CVMin e Cfg_CVMax e Cfg_CVEUMin e Cfg_CVEUMax Cfg_PCmdClear Cfg_ShedHold This display lets you select the default mode for the object by selectin
3. used if Cfg_UseFixedInit 1 Cfg_UseFixedInit BOOL 0 1 Use Cfg_FixedInitVal to initialize primary 0 Use Inp_CV1InitVal Cfg_ShedHold BOOL 0 1 Hold Output on Inf NaN Input 0 Copy Inf NaN through Cfg_SetTrack BOOL 1 This parameter is used to set up bumpless behavior of setting parameters when switching modes When this parameter is 1 and in Program mode the operator settings track the program settings In Operator mode the program settings track the operator settings Simulation inputs match the output values transitions are bumpless When this parameter is 0 the operator settings and program settings are not modified by this instruction In this case when the mode is changed the effective value of the setting can change depending on the program set and operator set values Cfg_HasCVNav BOOL 0 1 Tells HMI to enable navigation to a connected input CV object 12 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Table 3 P_Fanout Input Parameters Analog Fanout P_Fanout Input Parameter Data Alias For Default Description Type Cfg_HasNav INT 0 Set bits indicate which Navigation buttons are enabled Bit 0 CV1 Output Navigation Bit 1 CV2 Output Navigation Bit 2 CV3 Output Navigation Bit 3 CV4 Output Navigation Bit 4 CV5 Output Navigation Bit 5 CV6 Output Navigation Bit 6 CV7 Output Navigation Bit 7 CV8 Output
4. Cfg_CV5Ratio Cfg_CV Ratio Cfg_CV7Ratio Cfg_CV8Ratio Cfg_CV10ffset REAL 100 0 Configuration for CV1 CV8 offsets These parameters are used to calculate the corresponding output when the offset Cfg_CV20ffset 100 0 source for the output is configuration For example Cfg_CV10ffset is used to Cfg_CV30ffset 0 0 calculate Out_CV1 when Cfg_CV10ffsetSrc 0 Cfg_CV40ffset Cfg_WV50ffset Cfg_CV60ffset Cfg_CV70ffset Cfg_CV80ffset The selected offset is stored in output parameters and the instruction uses the output parameters for the calculations for example Out_CV1 Inp_CV Val_CV1Ratio Val_CV10ffset Rockwell Automation Publication SYSLIB RM030C EN P August 2014 13 Analog Fanout P_Fanout Table 3 P_Fanout Input Parameters Input Parameter Data Alias For Default Description Type Cfg_CV1Min REAL 0 0 Output CV1 CV8 minimum in engineering units for clamping Cfg_CV2Min Cfg_CV3Min Cfg_CV4Min Cfg_CV5Min Cfg_CV6Min Cfg_CV7Min Cfg_CV8Min Cfg_CV1Max REAL 100 0 Output CV1 CV8 maximum in engineering units for clamping Cfg_CV2Max Cfg_CV3Max Cfg_CV4Max Cfg_CV5Max Cfg_CV6Max Cfg_CV7Max Cfg_CV8Max Cfg_CV1TakeupRate REAL 1 0 Rate in engineering units second which CV1 CV8 bias is taken up after the Cfg__CVZTakeupRate corresponding Inp_CVnInitReq clears to 0 Cfg_CV3TakeupRate Cfg_CV4TakeupRate Cfg_CV5TakeupRate Cf
5. Tag Description Click the appropriate icon at the top of the faceplate to access a specific tab Maintenance Exit I ii NE E 7 i Operator Engineering Help Rockwell Automation Publication SYSLIB RM030C EN P August 2014 27 Analog Fanout P_Fanout 28 The faceplate provides the means for operators maintenance personnel engineers and others to interact with the P_Fanout instruction instance including viewing its status and values and manipulating it through its commands and settings When a given input is restricted via FactoryTalk View security the required user security code letter is shown in the tables that follow Operator Tab The Faceplate initially opens to the Operator Home tab From here an operator can monitor the device status and manually operate the device when it is in Operator mode If outputs 6 7 and 8 are not used by the instruction in other words if Cfg_HasCV6 Cfg_HasCV8 are 0 the global object opens a smaller faceplate that displays the information for up to five outputs The Operator tab shows the following information e Current mode Operator Program or Maintenance e Bar graph for the Input CV Rockwell Automation Publication SYSLIB RMO30C EN P August 2014 Mode Indicator P_Fanout Analog Fanout Operator 50 00 Initialize 0 00 0 00 Initialize 0 00 T Maximum CV Clamp Value CV Output Value Minimum CV Clamp Value 8 es
6. are used by program logic operators and maintenance personnel to establish runtime setpoints thresholds and so forth Table 3 P_Fanout Input Parameters Input Parameter Data Alias For Default Description Type Enableln BOOL 1 Ladder Diagram If the rung in condition is true the instruction s Logic routine executes If the rung in condition is false the instruction s EnablelnFalse routine executes Function Block Diagram If true or not connected the instruction s Logic routine executes If the parameter is exposed as a pin and wired and the pin is false the instruction s EnablelnFalse routine executes Structured Text No effect The instruction s Logic routine executes Inp_CV REAL 0 0 Input CV from Upstream block s output engineering units Inp_CV1InitVal REAL 0 0 Initialization value from downstream block 1 8 in the associated CV engineering units Inp_CV2InitVal Inp_CV3InitVal Inp_CV4InitVal Inp_CV5InitVal Inp_CV6lnitVal Inp_CV7InitVal Inp_CV8initVal Inp_CV1InitReq BOOL 0 Initialization request from downstream block 1 8 When these parameters are set to 1 the corresponding CV output is set to the value of the corresponding Inp_CV2InitReq initialization input For example if Inp_CV1InitReq is 1 Out_CV1 is set to inp CV3initRe Inp_CV1InitiVal p a When all configured CVs have their initialization request set Out_CVInitReq is set Inp_CV4lnitReq to 1 and
7. August 2014 Analog Fanout P_Fanout e Provides for initialization of the primary when all secondaries have requested initialization The initialization value sent to the primary can be a fixed configured value or a calculated value based on the CV1 Output 1 requested initialization value accounting for the CV1 gain and offset Thus CV 1 is the priority output TIP If you are using the P_Fanout Add On Instruction in a split range strategy its default configuration use CV1 for the safe part of the range for example a chilled water valve and CV2 for the unsafe part of the range for example a steam valve If both CV1 and CV2 request initialization the loop primary is initialized based on the requested value from CV1 and set to a value in the cooling range For example a P_Fanout Add On Instruction is configured to use input range 0 50 as 100 0 open on the cooling valve on CV1 and input range 50 100 as 0 100 on the heating valve on CV2 If both valves request initialization the P_Fanout Add On Instruction uses the CV1 initialization value and requests the primary to initialize in the 0 50 range the cooling side If the heating valve is used as CV1 the initialization is always in the heating range of the primary CV In many split range applications itis a requirement to initialize or fail in the cooling range for example 0 50 output for 100 0 cooling and always 0 heating The
8. gain offset and clamping limits The global objects and faceplate shown below are examples of the graphical interface tools for this Add On Instruction Faceplate P_Fanout Analog Fanout Initialize 50 00 Initialize 0 00 Input CV 40 00 P_Fanout Add On Instruction P_Fanout IS Analog Fanout Global Objects np LCV Out_CV1 np_CV 1 Inital Out_CV 2 np_CV2InitVal Out_CV3 Sree np_CV3InitVal Out CVA C4 g np_CV4lnit al Out_CV5 np_CV5lnit al Out_CV6 np_CVblnit al Out_CV7 np_CV Init al Out_CVB np_CValnit al Out_CVinit al np_CV1InitReq Out_CVinitReg np_CV2InitReq Val_InpCV D np_CV3lnitReq val CV SSSSSSSSSSSSSSSSSSSS np_CV4lnitReq Sts_Err f x S np_CV5lnitReq Sts_Maint L T np_CVblnitReq Sts_Prog np_CV7lnitReq Sts_Oper np_CV lnitReq x Rockwell Automation Publication SYSLIB RM030C EN P August 2014 7 Analog Fanout P_Fanout Guidelines Use this instruction in these situations You want to fan the output of a PID loop or a P_AOut Analog Output Add On Instruction used as a manual loading station to multiple valves drives or other devices You have 2 8 devices driven by the loop or output You have valves drives or other output devices that react over different ranges of the PID or P_AOut output such as a Split Range control strategy You want to initialize the primary output signal when all of the secondaries are requesting initialization Do not use this instruction i
9. 10ffset is used to calculate Out_CV1 when i Cfg_CV10ffsetSrc 1 and the mode is Program PSet_CV40ffset The selected offset is stored in output parameters and the instruction uses the output parameters for the calculations for example Out_CV1 Inp_CV PSet_CV50ffset Val_CV1Ratio Val_CV10ffset PSet_CV60ffset PSet_CV70ffset PSet_CV80ffset PSet_Owner DINT 0 Program owner request ID non zero or release zero OSet_CVRoCLim REAL 0 0 Operator setting for Input CV rate of change limit increasing or decreasing in engineering units second OSet_CV1Ratio REAL 2 0 Operator setting for CV1 CV8 ratios These parameters are used to calculate the corresponding output when the mode OSet_CV2Ratio 2 0 is Operator and the ratio source for the output is set to use the setting parameters OSet CV3Ratio 1 0 For example OSet_CV1Ratio is used to calculate Out_CV1 when Cfg_CV1RatioSrc 1 and the mode is Operator OSet_CV4Ratio The selected ratio is stored in output parameters and the instruction uses the l output parameters for the calculations for example Out_CV1 Inp_CV OSet_CV5Ratio Val_CV1Ratio Val_CV10ffset OSet_CV6Ratio OSet_CV7Ratio OSet_CV8Ratio OSet_CV10ffset REAL 100 0 Operator setting for CV1 CV8 offsets These parameters are used to calculate the corresponding output when the mode OSet_CV20fiset 100 0 is Operator and the offset source for the output is set to use the setting parameters OSet CV30ffset 0 0 F
10. 20 Analog Fanout Label for graphic symbol displayed on HMI This string appears on the graphic symbol Cfg_NavTag STRING_20 8 G Tag names for destinations of Navigation buttons 0 7 outputs Cfg_Tag STRING_20 P_Fanout Tagname for display on HMI This string is shown in the title bar of the faceplate Rockwell Automation Publication SYSLIB RM030C EN P August 2014 19 Analog Fanout P_Fanout Operations 20 This section describes the primary operations for Add On Instructions Modes The P_Fanout Add On Instruction uses the following standard modes implemented by using an embedded P_Mode Add On Instruction Graphic Symbol Description Operator mode Control of the device is owned by the Operator Operator Commands OCmd_ and Operator Settings OSet_ from the HMI are accepted Program mode Control of the device is owned by Program logic Program Commands PCmd_ and Program Settings PSet_ are accepted Maintenance mode Control of the device is owned by Maintenance Operator Commands and Settings from the HMI are accepted Maintenance mode supersedes Program and Operator modes even if the mode is locked No mode The device is disabled and has no owner because the Enableln input is false The main instruction Logic routine is not being scanned See Execution for more information on EnablelnFalse processing The Hand and Override Ovrd modes are not used These modes are typically used by the controlle
11. 25 Using Display Elements 26 Faceplate esnem a a a a E Rh psa nd E TAANA 27 Operator Tab rasa A aA RE at iae a 00 aah 28 Maintenance Tali REA E ENA Ee KKR triers 31 Engineering Labo iia a uris tirrr TRT N ddd as 33 Analog Fanout Faceplate Help n se 38 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 3 Table of Contents Notes 4 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Preface This document is updated throughout for version 3 1 of the Rockwell Automation Library of Process Objects Changes for this revision are marked by change bars shown in the right margin Software Compatibility and Table 1 Summary of Changes Content Revision Topic Page Changed title from PlantPAx Library of Process Objects to Rockwell Automation Library of Process Front Cover Objects Changed version of Rockwell Automation Library of Process Objects from 3 0 to 3 1 5 9 10 Changed references to Knowledgebase Answer ID 62682 to Product Compatibility and Download 5 9 Center Visualization Files added Important note concerning the order in which files must be imported 9 Input Parameters table 11 added Alias For column and aliases added PCmd_Acq and PCmd_Rel parameters changed descriptions for PCmd_ Acq PCmd_Rel PCmd_Lock and PCmd_Unlock Output Parameters table 16 added Alias For column and aliases added Err_ parameter description t
12. Global objects used for managing modes on Process Object faceplates Graphics Images PNG All png files in the images folder All png files in the images folder These are the common icons used in the global objects and faceplates for all Process Objects When PNG graphic formats are imported they are renamed like a BMP file but retain a PNG format HMI Tags GV N A FTVME_PlantPAxLib_Tags_3_1_00 csv These tags must be imported into the FactoryTalk View ME project to support switching tabs on any Process Object faceplate Macros MCR NavToObject N A This macro must be imported into the 1 The service release number boldface can change as service revisions are created 10 Rockwell Automation Publication SYSLIB RMO30C EN P August 2014 FactoryTalk View SE project to support faceplate to faceplate navigation by tagname Controller Code Analog Fanout P_Fanout This section describes the parameter references for this Add On Instruction Analog Fanout Input Structure Input parameters include the following e Input data elements Inp_ are typically used to connect field inputs from I O modules or signals from other objects e Configuration data elements Cfg_ are used to set configurable capabilities and features of the instruction s Command data elements PCmd_ OCmd_ are used by program logic operators and maintenance personnel to request instruction actions s Setting data elements PSet_ OSet_
13. NaN Sts_CV8lnitInfNaN Sts_CV1Limited BOOL 1 Output CV1 CV8 clamped at configured maximum minimum Sts_CV2Limited Sts_CV3Limited Sts_CV4Limited Sts_CV5Limited Sts_CV6Limited Sts_CV7Limited Sts_CV8Limited Sts_Err BOOL 1 Error in configuration See detail bits for reason Err_Limit BOOL 1 Error in configuration CV Clamp Limits crossed maximum lt minimum Err_EU BOOL 1 Error in configuration CV Scale engineering units minimum maximum Err_CV1Limit BOOL 1 Error in configuration CV1 CV8 clamp limits crossed maximum lt minimum Err_CV2Limit Err_CV3Limit Err_CV4Limit Err_CV5Limit Err_CV6Limit Err_CV7Limit Err_CV8Limit Sts_ Maint BOOL Mode Sts_ Maint 1 Mode is Maintenance supersedes Program and Operator Sts_Prog BOOL Mode Sts_ Prog 1 Mode is Program auto Sts_Oper BOOL Mode Sts_Oper 1 Mode is Operator manual 18 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Table 4 P_Fanout Output Parameters Analog Fanout P_Fanout Output Parameter Data Type Alias For Description Sts_ProgOperLock BOOL Mode Sts_ProgOperLock 1 Program or Operator has requested mode lock Sts_NoMode BOOL Mode Sts_NoMode 1 No mode disabled because Enableln is false Sts_MAcqRcvd BOOL Mode Sts_MAcqRcvd 1 Maintenance Acquire command received this scan Rdy_OSet BOOL 1 Ready to receive OSets enables data entry fields P_Fanout BOOL Unique parameter name for auto discovery Analog Fan
14. Navigation Cfg_PCmdClear BOOL 0 When this parameter is 1 program commands are cleared once they are acted upon When set to 0 program commands remain set until cleared by the application program logic IMPORTANT Clearing this parameter online can cause unintended program command execution Cfg_ProgDefault BOOL Mode Cfg_ProgDefault 0 This parameter defines the default mode When this parameter is 1 the mode defaults to Program if no mode is being requested When this parameter is 0 the mode defaults to Operator if no mode is being requested IMPORTANT Changing this parameter online can cause unintended mode changes Cfg_CVEUMin REAL 0 0 These parameters must be set to the range of the signal connected to Inp_CV Cfg_CVEUMax 100 0 Cfg_CVMin REAL 0 0 Input CV minimum Lo Clamp or CV maximum Hi Clamp in engineering units Cfg_CVMax 100 0 Cfg_MaxCVRoC REAL 10 0 Maximum allowed CV rate of change setting in engineering units second Cfg_CV1Ratio REAL 2 0 Configuration for CV1 CV8 ratios Cfa CV2Rati 0 These parameters are used to calculate the corresponding output when the ratio g_t natio source for the output is configuration For example Cfg_CV1Ratio is used to Cfg_CV3Ratio 1 0 calculate Out_CV1 when Cfg_CV1RatioSrc 0 The selected ratio is stored in output parameters and the instruction uses the Cfg_CV4Ratio output parameters for the calculations for example Out_CV1 Inp_CV Val_CV1Ratio Val_CV10ffset
15. Out_CVInitVal is set to a value based on Inp_CV1InitVal and the ratio and offset for CV1 Inp_CV5InitReq Inp_CV6lnitReq Inp_CV7InitReq Inp_CV8initReq Rockwell Automation Publication SYSLIB RM030C EN P August 2014 11 Analog Fanout P_Fanout Table 3 P_Fanout Input Parameters Input Parameter Data Alias For Default Description Type Cfg_CV1RatioSrc BOOL 0 1 Use PSet OSet Ratio S 0 Use Cfg Ratio Cfg_CV2RatioS S Selects whether the ratio used to calculate outputs is determined by operator or Cfg_CV3RatioSrc program setting for example PSet_CV1Ratio or OSet_CV1Ratio or by configuration for example Cfg_CV1Ratio Cfg_CV4RatioSrc Cfg_CV5RatioSrc Cfg_CV6RatioSrc Cfg_CV7RatioSrc Cfg_CV8RatioSrc Cfg_CV10ffsetSrc BOOL 0 1 Use PSet 0Set Offset 0 Use Cfg Offset Cfg_CV20ffsetS 3 SRA Selects whether the offset used to calculate outputs is determined by operator or Cfg_CV30ffsetSrc program setting for example PSet_CV10ffset or OSet_CV10ffset or by configuration for example Cfg_CV10ffset Cfg_CV40ffsetSrc Cfg_CV50ffsetSrc Cfg_CV60ffsetSrc Cfg_CV70ffsetSrc Cfg_CV80ffsetSrc Cfg_HasCV2 BOOL 1 1 Output CV2 CV8 are connected and are to be used Cfg_HasCV3 0 Cfg_HasCV4 Cfg_HasCV5 Cfg_HasCV6 Cfg_HasCV7 Cfg_HasCV8 Cfg_FixedInitVal REAL 0 0 Fixed Initialization value in Inp_CV engineering units
16. Ratio Val_CV10ffset Out_CV3 Out_CV4 Out_CV5 Out_CV6 Out_CV7 Out_CV8 Out_CVInitVal REAL Initialization value to upstream block Inp_CV engineering units Out_CVInitReq BOOL Initialization request to upstream block 1 Initialize Val_CVEUMin REAL Minimum of scaled range Minimum Cfg_CVEUMin Cfg_CVEUMax Val_CVEUMax REAL Maximum of scaled range Maximum Cfg_CVEUMin Cfg_CVEUMax 16 Rockwell Automation Publication SYSLIB RMO30C EN P August 2014 Table 4 P_Fanout Output Parameters Output Parameter Data Type Alias For Analog Fanout P_Fanout Description Val_InpCV REAL Value of Inp_CV not clamped or ramped engineering units Val_CV REAL Value of CV after clamping and ramping engineering units Val_CVRoCLim REAL Accepted setting for Input CV rate of change limit increasing or decreasing Inp engineering units second Val_CV1Ratio Val_CV2Ratio Val_CV3Ratio Val_CV4Ratio Val_CV5Ratio Val_CV6Ratio Val_CV7Ratio Val_CV8Ratio REAL Value of selected CV1 CV8 ratio settings Val_CV10ffset Val_CV20ffset Val_CV30ffset Val_CV40ffset Val_CV50ffset Val_CV60ffset Val_CV70ffset Val_CV80ffset REAL Value of selected CV1 CV8 offset settings Val_MinCVIn1 Val_MinCVIn2 Val_MinCVIn3 Val_MinCVIn4 Val_MinCVIn5 Val_MinCVIn6 Val_MinCVIn7 Val_MinC
17. Reference Manual Process Automation System Rockwell Automation Library of Process Objects Analog Fanout P_Fanout Version 3 1 ma pn G Allen Bradley Rockwell Software Automation Important User Information Read this document and the documents listed in the additional resources section about installation configuration and operation of this equipment before you install configure operate or maintain this product Users are required to familiarize themselves with installation and wiring instructions in addition to requirements of all applicable codes laws and standards Activities including installation adjustments putting into service use assembly disassembly and maintenance are required to be carried out by suitably trained personnel in accordance with applicable code of practice If this equipment is used in a manner not specified by the manufacturer the protection provided by the equipment may be impaired In no event will Rockwell Automation Inc be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment The examples and diagrams in this manual are included solely for illustrative purposes Because of the many variables and requirements associated with any particular installation Rockwell Automation Inc cannot assume responsibility or liability for actual use based on the examples and diagrams No patent liability is assumed by Rockwell Aut
18. VIn8 REAL Input CV at minimum of CV1 CV8 outputs These are used to display the configuration in graph form on the faceplate Val_MaxCVIn1 Val_MaxCVIn2 Val_MaxCVIn3 Val_MaxCVIn4 Val_MaxCVIn5 Val_MaxCVIn6 Val_MaxCVIn7 Val_MaxCVIn8 REAL Input CV at maximum of CV1 CV8 outputs These are used to display the configuration in graph form on the faceplate Rockwell Automation Publication SYSLIB RM030C EN P August 2014 17 Analog Fanout P_Fanout Table 4 P_Fanout Output Parameters Output Parameter Data Type Alias For Description Val_Mode SINT Mode Val The current mode is shown with status bits and also as an enumeration Val_ Mode as follows 0 No mode 2 Maintenance 4 Program locked 5 Operator locked 6 Program unlocked Operator is default 7 Operator unlocked Program is default 8 Program unlocked Program is default 9 Operator unlocked Operator is default Val_ Owner DINT Current object owner ID 0 not owned Sts_CVInfNaN BOOL 1 Inp_CV is infinite or Not A Number 1 5 1 NaN Sts_CVLimited BOOL 1 Val_CV clamped at configured maximum minimum Sts_CV1InitInfNaN BOOL 1 Inp_CV1 CV8 InitVal is infinite or Not a Number Sts_CV2InitInfNaN Sts_CV3InitInfNaN Sts_CV4lnitInfNaN Sts_CV5InitInfNaN Sts_CV6lnitInfNaN Sts_CV7InitInf
19. ars E Description ProcessObjix MyFanout sse Object Tag P_Fanout ProcessObjix sss Path include program scope if tag is a program scope tag 93 sss J Additional display parameter e g X100 or ICC optional sse J Additional display parameter e g 100 optional Cancel Help 3 Type the tag or value in the Value column as specified in the Description column TIP You can click the ellipsis to browse and select a tag 4 Click OK Parameter Required Description 102 Y Object tag to point to the name of the associated object Add On Instruction in the controller 103 Y Path used for display navigation features to other objects Include program scope if tag is a program scope tag 120 N Additional parameter to pass to the display command to open the faceplate Typically used to define position for the faceplate 121 N Additional parameter to pass to the display command to open the faceplate if defining X and Y coordinate separate parameters so that X is defined by 120 and Y is defined by 121 This lets the same parameters be used in subsequent display commands originating from the faceplate Faceplate The P_Fanout faceplate consists of three tabs and each tab consists of one or more pages The Operator tab is displayed when the faceplate is initially opened The faceplate contains the value of local configuration tags Cfg_Tag and Cfg_Desc in the title bar
20. bd Invalid configuration T Input CV clamped to min max T Output CV clamped to min max No symbol displayed 1 0 quality good and configuration valid TIP When the Invalid Configuration Indicator appears you can find what configuration setting is invalid by following the indicators Click the graphic symbol to open the faceplate The Invalid Configuration indicator appears next to the appropriate tab at the top of the faceplate to guide you in finding the configuration error Once you navigate to the tab the misconfigured item is flagged with this indicator or appears in a magenta box For the Analog Fanout Instruction the Invalid Configuration Indicator appears under the following conditions e Scaled EU Minimum and EU Maximum scaling parameters are set to the same value e Input CV Maximum clamping limit is less than its Minimum clamping limit e Any Output CV s Maximum clamping limit is less than its Minimum clamping limit 24 Rockwell Automation Publication SYSLIB RMO30C EN P August 2014 Analog Fanout P_Fanout Mode Indicators One of these symbols appears to the right of the graphic symbol to indicate the mode of the object instruction Graphic Symbol Transparent Description Operator mode if the default mode is Operator and in Operator mode the mode indicator is transparent Operator mode if the default mode is Program Operator mode locked Transparent Program mode if the
21. d equipment Refer to the Rockwell Automation Library of Process Objects Common Mode Block P_Mode Reference Manual publication SYSLIB RM005 for more information Alarms The P_Fanout instruction does not provide any alarms It does provide Status bits that identify if the input CV or any particular output CV is being limited or if any input value input CV or any of the individual CV initialization values is Infinite Inf or Not a Number NaN Simulation The P_Fanout Add On Instruction does not have simulation capability Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Analog Fanout P_Fanout Execution The following table explains the handling of instruction execution conditions Condition Description Enableln False false rung The mode is shown as NO MODE Otherwise the instruction is kept in its last state Powerup prescan first scan On Prescan ownership of the instruction is cleared The CV Rate limiter is set to initialize at the first valid CV received Postscan No SFC Postscan logic is provided Refer to the Logix5000 Controllers Add On Instructions Programming Manual publication 1756 PM010 for more information Prog ramming Example This example uses the P_Fanout instruction to implement a split range PID control strategy to control temperature of a processing vessel In this example the heat exchanger to the vessel jacket is fed by either a steam valve to heat or a g
22. default configuration of the P_Fanout instruction provides this cooling CV1 and heating CV2 setup with CV3 CV8 not used Required Files Add On Instructions are reusable code objects that contain encapsulated logic that can streamline implementing your system This lets you create your own instruction set for programming logic as a supplement to the instruction set provided natively in the ControlLogix firmware An Add On Instruction is defined once in each controller project and can be instantiated multiple times in your application code as needed Controller File The P_Fanout_3_1 00_AOI L5X Add On Instruction must be imported into the controller project to be used in the controller configuration The service release number boldfaced can change as service revisions are created Visualization Files The following files for this Add On Instruction can be downloaded from the Product Compatibility and Download Center at http www rockwellautomation com rockwellautomation support pcdc page Rockwell Automation Publication SYSLIB RM030C EN P August 2014 9 Analog Fanout P_Fanout IMPORTANT Table 2 P_Fanout Visualization File Types Files must be imported in the following order image files then global object files and then graphic files This order is required to properly configure the visualization files Application Type FileType FactoryTalk View SE Software Fac
23. default mode is Program and in Program mode the mode indicator is transparent Program mode if the default mode is Operator Program mode locked Maintenance mode TIP No mode The images provided for the Operator and Program default modes are completely transparent therefore no mode indicators appear if the device is in its default mode This behavior can be changed by replacing these mode indicators with images that are not completely transparent Rockwell Automation Publication SYSLIB RM030C EN P August 2014 25 Analog Fanout P_Fanout Using Display Elements The global objects for P_Fanout can be found in the global object file RA BAS Process Graphics Library ggfx Complete the following to use a global object 1 Copy it from the global object file and paste it in the display file M m een Ee ge s Edt Connections VBA Code Active Methods Object Keys Vents Arrange Animation SSSSSSSSSSSS Convert to Wallpaper Tag Substitution Property Panel Object Explorer without localized strings Delete Duplicate y Snimation Animation Edit Base Object Break Link 2 In the display right click the global object and choose Global Object Parameter Values 26 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Analog Fanout P_Fanout The Global Object Parameter Values dialog box appe
24. e for example This either sets the operator offset Normal Cfg_CV10ffsetSrc 0 then for example OSet_CV10ffset Operation of Cfg_CV10ffset Cfg_CV80ffset or Devices Otherwise these fields are linked to OSet Code A parameters for example the configuration offset for Configuration OSet_CV10ffsetSro example Cfg_CV10ffset and Tuning depending on the ratio source Maintenance selection Code D Takeup Rate Type a rate the CV is to changetoa Configuration Cfg_CV1TakeupRate engineering calculated value after initialization and Tuning Cfg_CV8 TakeupRate units sec to provide bumpless transfer Maintenance from initialization Code D Rate of Operator setting for the Input CV Normal None Change Limit rate of change limit increasing Operation of or decreasing Devices If Cfg_MaxCVRoC 0 0 then this Code A parameter can be set to zero which means the rate of change is not limited Maximum Rate of Maximum allowed CV rate of Configuration Cfg_MaxCVRoC Change change setting and Tuning engineering A value of 0 0 indicates no Maintenance units second maximum and rate of change limits Code D can be set to any value gt 0 0 Bumpless When this parameter is Equipment Cfg_SetTrack Program Operator ON the operator settings track Maintenance Transition the program settings when Code C mode is Program and program settings track the operator settings when the mode is Operator Transition between m
25. entation needs better If you have any suggestions on how to improve this document complete this form publication RA DU002 available at http www rockwellautomation com literature Rockwell Automation maintains current product environmental information on its website at http www rockwellautomation com rockwellautomation about us sustainability ethics product environmental compliance page Rockwell Otomasyon Ticaret A Kar Plaza Is Merkezi E Blok Kat 6 34752 erenk y stanbul Tel 90 216 5698400 www rockwellautomation com Power Control and Information Solutions Headquarters Americas Rockwell Automation 1201 South Second Street Milwaukee WI 53204 2496 USA Tel 1 414 382 2000 Fax 1 414 382 4444 Europe Middle East Africa Rockwell Automation NV Pegasus Park De Kleetlaan 12a 1831 Diegem Belgium Tel 32 2 663 0600 Fax 32 2 663 0640 Asia Pacific Rockwell Automation Level 14 Core F Cyberport 3 100 Cyberport Road Hong Kong Tel 852 2887 4788 Fax 852 2508 1846 Publication SYSLIB RM030C EN P August 2014 Supersedes Publication SYSLIB RM030B EN P September 2013 Copyright 2014 Rockwell Automation Inc All rights reserved Printed in the U S A
26. g the appropriate mode IMPORTANT If no mode is being requested changing the default mode changes the mode of the instruction You must have FactoryTalk View security code E to select the default mode on this display 34 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Analog Fanout P_Fanout Engineering Tab Page 2 P_Fanout Analog Fanout B KU Eol S 1 2 3 4 Has Use CV Output CV Label Modes C1 y Jee v ev ov cv4 vo CV5 wv CVR N cw N cvs The following table shows the functions on page 2 of the Engineering tab Table 9 Engineering Tab Page 2 Description Function Action Security Configuration Parameters Has CV Check to enable use of the Engineering Cfg_HasCV2 Cfg_HasCV8 corresponding output Configuration Code E Output CV Label Type the description of the Cfg_CV1_Label Cfg_CV8_Label output name Use Modes Ratio Check to use ratio from setting Cfg_CV1RatioSrc Cfg_CV8RatioSrc parameters for example PSet_CV1Ratio or OSet_CV1Ratio Clear the checkbox to use ratio from configuration for example Cfg_CV1Ratio Use Modes Offset Check to use offset from setting Cfg_CV10ffsetSrc Cfg_CV80ffsetSrc parameters for example PSet_CV10ffset or OSet_CV10ffset Clear the checkbox to use offset from configuration for example Cfg_CV10ffset Rockwell Automation Publication SYSLIB RM030C EN P August 2014 35 Analog Fanout P_Fa
27. g_CV6TakeupRate Cfg_CV7TakeupRate Cfg_CV8TakeupRate PSet_CVRoCLim REAL 0 0 Program setting for Input CV rate of change limit increase or decrease in engineering units second PSet_CV1Ratio REAL 2 0 Program setting for CV1 CV8 ratios These parameters are used to calculate the corresponding output when the mode PSet_CV2Ratio 2 0 is Program and the ratio source for the output is set to use the setting parameters PSet CV3Rati 1 0 For example PSet_CV1Ratio is used to calculate Out CY when ST Cfg_CV1RatioSrc 1 and the mode is Program PSet_CV4Ratio The selected ratio is stored in output parameters and the instruction uses the output parameters for the calculations for example Out_CV1 Inp_CV PSet_CV5Ratio Val_CV1Ratio Val_CV10ffset PSet_CV6Ratio PSet_CV7Ratio PSet_CV8Ratio 14 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Table 3 P_Fanout Input Parameters Analog Fanout P_Fanout Input Parameter Data Alias For Default Description Type PSet_CV10ffset REAL 100 0 Program setting for CV1 CV8 offsets These parameters are used to calculate the corresponding output when the mode PSet_CV20ffset 100 0 is Program and the offset source for the output is set to use the setting parameters peat CV30ffset 0 0 For example PSet_CV
28. is set to 50 so that the PIDE instruction initializes with both valves closed when initialization is requested Rockwell Automation Publication SYSLIB RM030C EN P August 2014 21 Analog Fanout P_Fanout 22 Cfg_UseFixedInit is set to 1 to indicate the fixed initialization value is to be used instead of the feedback from the glycol valve To properly scale the two outputs the scaling configuration values are set as follows Cfg_CV1Ratio 2 04 Cfg_CV10Offset 100 Cfg_CV1Min 0 Cfg_CV1Max 100 Cfg_CV2Ratio 2 04 Cfg_CV2Offset 103 Cfg_CV2Min 0 Cfg_CV2Max 100 These values cause a 50 output on the vessel temperature controller to command both the glycol and the steam valve closed 0 As the PIDE output approaches 0 the glycol valve opens approach 100 As the PIDE output approaches 100 the steam valve opens approach 100 These settings create a little deadband around 50 where neither valve opens to prevent chattering between glycol and steam to prevent excessive wear on the heat exchanger P_Fanout outputs Out_CV1 and Out_CV2 are connected to the outputs to the glycol and steam valves Valve status information is brought in through inputs Inp_CV1IInitReg and Inp_CV2InitReq to be sure that the control loop initializes if there is a problem with a valve Based on the settings above initialization commands both valves closed Lastly the following local configuration tags are configured to drive the text on the HMI gl
29. lycol valve to cool A single PID controller is used to control temperature It is assumed that the relative process gain between each valve and the temperature is the same este U Tw921 estel Tercera essel Te f P Aa er Range Ca wd Analog input 12 Ne v Valve t PE P f ang TTO D lt j ing ap lt I TVO921A a aada S dhaka lt j wp Pvess PvOed Enhanced PIO Andiog F ano 99 j esse Stee ZAP E lt j PV Gus lt j ing 120 a lt j PVE s L lt l Ing ntReaq 2b lt lt TONE e 1 eng vem J ol Temo_Sete lt j SPProg ProgOper D m o_Cv2ineReq niva gt 7 d CvineRea pete ail lt I ve mnn w Re Y c NE alue 214 P K J 82 1 2 r CYP rog x L vintReq nite Mora Tad TTT 1E r 40 4 Vessel _Temo Manus s gt To connect the PIDE instruction to the P_Fanout instruction the PIDE output CVEU is connected to the input Inp_CV of P_Fanout P_Fanout outputs Out_CVInitVal and Out_CVInitReq are connected to PIDE inputs CVInitReq and CVInitValue to be sure of proper initialization of the PIDE loop if there are issues with either valve Cfg_HasCV2 is set to 1 to indicate P_Fanout connects to two outputs Cfg_CV1RatioSre Cfg_CV10OffsetSre Cfg_CV2RatioSrc and Cfg_CV2OffsetSrc are all left at 0 to indicate that the scaling used to calculate the valve outputs is configured and not dynamically set by the operator or program To handle initialization Cfg_FixedInitVal
30. n these situations You have only one output device Use the P_AOut Analog Output Add On Instruction or other output instruction instead The P_Fanout capabilities are targeted to control strategies where there is a need to have one loop or station drive multiple devices You have multiple PID loops and one output device that uses the highest or lowest of the PID loop outputs high select or low select strategy Use the ESEL built in instruction the P_HiLoSel Add On Instruction or other high select low select logic Functional Description The Analog Fanout instruction provides the following capabilities Receives an input CV controlled variable from a primary PID loop or analog output Applies rate of change limiting to the input signal Calculates outputs for up to eight secondary devices Each secondary has its own ratio slope and offset intercept from the rate limited primary input The ratios and offsets can come from the Operator or Program based on mode or be restricted only to pre configured values Applies minimum and maximum clamping limits to each output secondary CV Provides for initialization of each of its secondary CV outputs based on a request bit and a requested value from the secondary When a particular output CV comes out of initialization it is ramped from the initialization value to its calculated value by using a configured Takeup Rate 8 Rockwell Automation Publication SYSLIB RMO30C EN P
31. nout Engineering Tab Page 3 P_Fanout Analog Fanout ngineering 1 2 a 4 Minimum Maximum EU CV 0 00 100 00 CV 2 0 00 100 00 CV3 0 00 100 00 Cv 100 00 0 00 CV5 1 00 100 00 CV6 20 00 20 00 CV 0 00 100 00 CV8 0 00 100 00 Initialize Primary Using CVT Initial Fixed Value bd Value 0 00 Table 10 Engineering Tab Page 3 Description Function Action Security Configuration Parameters CV Minimum Type a value for the minimum value Engineering Cfg_CV1Min Cfg_CV8Min to be used to clamp CV in Configuration engineering units Code E CV Maximum Type a value for the maximum value Cfg_CV1Max Cfg_CV8Max to be used to clamp CV in engineering units CV engineering Sets the CV engineering units to use Cfg_CV1_EU Cfg_CV8_EU units for display Initialize Primary Click to use the CV1 initialization Cfg_UseFixedInit Using CV1 Initial value Inp_CV1InitVal to set the Value initialization output Out_CV_InitVal when initialization is requested Initialize Primary Click to use a fixed value e Cfg_UseFixedInit Using Fixed Value Cfg_FixedInitVal to set the e Cfg_FixedInitVal initialization output Out_CV_InitVal when initialization is requested Type a value to set the initialization value Out_CVInitVal if initialization is requested and a fixed value option is selected 36 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Analog Fanout P_Fano
32. o bullet list added Sts_MAcqRcvd parameter Operations added Simulation section 20 Status Quality Indicators table added symbols and descriptions for Input CV Clamped to 24 min max and Output CV Clamped to min max Engineering tab changed Mode Configuration Message Box to Mode Configuration Display 33 34 For the latest compatible software information and to download the Rockwell Automation Library of Process Objects see the Product Compatibility and Download Center at http www rockwellautomation com rockwellautomation support pcdc page For general library considerations see Rockwell Automation Library of Process Objects publication PROCES RMO002 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 5 Preface Additional Resources These documents contain additional information concerning related products from Rockwell Automation Resource Description PlantPAx Process Automation System Selection Guide Provides information to assist with equipment publication PROCES SG001 procurement for your PlantPAx system PlantPAx Process Automation System Reference Manual Provides characterized recommendations for publication PROCES RMO001 implementing your PlantPAx system Rockwell Automation Library of Process Objects Provides general considerations for the PlantPAx system publication PROCES RM002 library of process objects FactoryTalk View Machine Edition User Manual Pro
33. obal object and faceplate In this example they are set as follows Cfg_Tag TY0921 Cfg_Label Vessel 0900 Split Range CR Desc Vessel Split Range Calculation Cfg_CV1_Label Glycol Valve Cfg_CV2_Label Steam Valve Cfg CV1_EU Cfg CV2_EU Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Analog Fanout P_Fanout Display Elements A display element global object is created once and can be referenced multiple times on multiple displays in an application When changes are made to the original base object the instantiated copies reference objects are automatically updated Use of global objects in conjunction with tag structures in the ControlLogix system aid consistency and save engineering time Display Element Name Display Element GO_P_Fanout l SSSSSSSSSSSSSSSSSSSS SLB Description P_Fanout global object horizontal layout GO_P_Fanout1 ssssssssssssssssssss L ag x P_Fanout global object vertical layout Common attributes of the P_Fanout objects include the following e Status Quality indicator s Mode indicator e Label Analog Fanout Status Quality Indicator x Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Label Mode Indicator 23 Analog Fanout P_Fanout Status Quality Indicators One of these symbols appears to the left of the graphic symbol when the described condition is true Graphic Symbol Description
34. odes is bumpless OFF the operator settings and program settings are not modified by this instruction and retain their values regardless of mode When the mode is changed the value of a ratio or offset can change such as from the Program set value to the Operator set value Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Analog Fanout P_Fanout Engineering Tab The Engineering tab provides access to device configuration parameters and ranges options for device and I O setup displayed text and faceplate to faceplate navigation settings and for initial system commissioning or later system changes The Engineering tab has four pages Engineering Tab Page 1 Page 1 of the Engineering tab shows the description label tag and limit values P_Fanout Analog Fanout Mode Configuration Button Configure Device Description Label and Tag Text Units Clamp Limits Minimum 0 00 Maximum 100 00 Display Limits Minimum 0 00 Maximum 100 00 Clear Program Commands upon receipt On Bad Input CV Hold Last Good P Copy Bad Value Value to Outputs The following table lists the functions on page 1 of the Engineering tab Table 8 Engineering Tab Page 1 Description Function Action Security Configuration Parameters Click to navigate to the Mode None See Mode Configuration display on i og Configuration display page 34 Description Type the device description to show
35. omation Inc with respect to use of information circuits equipment or software described in this manual Reproduction of the contents of this manual in whole or in part without written permission of Rockwell Automation Inc is prohibited Throughout this manual when necessary we use notes to make you aware of safety considerations WARNING Identifies information about practices or circumstances that can cause an explosion in a hazardous environment which may lead to personal injury or death property damage or economic loss ATTENTION Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss Attentions help you identify a hazard avoid a hazard and recognize the consequence gt gt IMPORTANT Identifies information that is critical for successful application and understanding of the product Labels may also be on or inside the equipment to provide specific precautions SHOCK HAZARD Labels may be on or inside the equipment for example a drive or motor to alert people that dangerous voltage may be present BURN HAZARD Labels may be on or inside the equipment for example a drive or motor to alert people that surfaces may reach dangerous temperatures ARC FLASH HAZARD Labels may be on or inside the equipment for example a motor control center to alert people to potential Arc Flash Arc Flash will cause severe injury o
36. or Takeup Rate Ratio Offset EU sec CV 2 00 100 00 0 00 CVv2 0 00 0 00 0 00 C3 0 00 0 00 0 00 Cv4 100 00 0 00 100 00 CV5 1 00 0 00 0 50 CV6 1 00 0 00 0 00 CVF 1 00 0 00 1 00 Cva 1 00 120 00 1 00 Rate of Change Limit 0 00 0 00 Maximum Rate of Change EU sec 10 00 lt S Bumpless Program Operator Transition The following table shows the functions on the Maintenance tab Table 7 Maintenance Tab Description Function Action Security Configuration Parameters PN Click for Maintenance mode Equipment None f j Maintenance VY Code C L Click to release Maintenance mode Ratio Type a value that sets the ratio to If ratios are set to use configuration for calculate each individual output example Cfg_CV1RatioSrc 0 then This either sets the operator ratio Normal Cfg_CV Ratio Cfg_CV8Ratio for example OSet_CV1Ratio Operation of Otherwise these fields are linked to OSet or gt Devices parameters for example Code A OSet_CV1RatioSrc the configuration ratio for Configuration example Cfg_CV1Ratio depending and Tuning on the ratio source selection Maintenance Code D Rockwell Automation Publication SYSLIB RMO30C EN P August 2014 31 Analog Fanout P_Fanout 32 Table 7 Maintenance Tab Description Function Action Security Configuration Parameters Offset Type a value that sets the offset to If offsets are set to use configuration for calculate each individual output exampl
37. or example OSet_CV10ffset is used to calculate Out_CV1 when Si iti Cfg_CV10ffsetSrc 1 and the mode is Operator OSet_CV40ffset The selected offset is stored in output parameters and the instruction uses the output parameters for the calculations for example Out_CV1 Inp_CV OSet_CVSOffset Val_CV Ratio Val_CV10ffset OSet_CV60ffset OSet_CV70ffset OSet_CV80ffset PCmd_Acq BOOL Mode PCmd_Acq 0 When Cfg_PCmdClear is 1 e Set PCmd_Acq to 1 to Acquire PCmd_Rel Mode PCmd_Rel e Set PCmd_Rel to 1 to Release These parameters reset automatically When Cfg_PCmdClear is 0 e Set PCmd_Acq to 1 to Acquire e Set PCmd_Acq to 0 to Release e PCmd_Rel is not used These parameters do not reset automatically PCmd_Lock BOOL Mode PCmd_Lock 0 When Cfg_PCmdClear is 1 x Set PCmd_Lock to 1 to Lock PCmd_Unlock Mode PCmd_Unlock x Set PCmd_Unlock to 1 to Unlock These parameters reset automatically When Cfg_PCmdClear is 0 Set PCmd_Lock to 1 to Lock Set PCmd_Lock to 0 to Unlock PCmd_Unlock is not used These parameters do not reset automatically Rockwell Automation Publication SYSLIB RM030C EN P August 2014 15 Analog Fanout P_Fanout Table 3 P_Fanout Input Parameters Input Parameter Data Alias For Default Description Type MCmd_Acq BOOL Mode MCmd_Acq 0 Maintenance command to acquire ownership Operator Program Override to Maintenance MCmd_Rel BOOL Mode MCmd_Rel 0 Maintenance command to release ownership Maintenance
38. out Local Configuration Tags Configuration parameters that are array string or structure data types cannot be configured as parameters for Add On Instructions Configuration parameters of these types appear as local tags to the Add On Instruction Local tags can be configured through the HMI faceplates or in RSLogix 5000 software by opening the Instruction Logic of the Add On Instruction instance and then opening the Data Monitor on a local tag These parameters cannot be modified by using controller logic or RSLogix 5000 software export import functionality Table 5 P_Fanout Local Configuration Tags Tag Name Data Type Default Description Cfg_CV1_EU STRING_8 Output 1 8 engineering units for display on HMI Cfg_CV2_EU Cfg_CV3_EU U YA EU Cfg_CV5_EU Cfg_CV6_EU Cfg_CV7_EU Cfg_CV8_EU Cfg_CV1_Label STRING_20 Output 1 Output 1 8 labels for display on HMI Cfg_CV2_Label Output 2 Cfg_CV3_Label Output 3 Cfg_CV4_Label Output 4 Cfg_CV5_Label Output 5 Cfg_CV6_Label Output 6 Cfg_CV7_Label Output 7 Cfg_CV8_Label Output 8 Cfg_CVNavTag STRING_20 y Tagname for destination of input CV Navigation button Cfg_CV_EU STRING_8 Engineering units for display on HMI Cfg_Desc STRING_40 Analog Fanout Description for display on HMI This string is shown in the title bar of the faceplate Cfg_Label STRING_
39. r death Wear proper Personal Protective Equipment PPE Follow ALL Regulatory requirements for safe work practices and for Personal Protective Equipment PPE gt gt gt Allen Bradley Rockwell Software Rockwell Automation RSLogix Logix5000 FactoryTalk PlantPAx and ControlLogix are trademarks of Rockwell Automation Inc Trademarks not belonging to Rockwell Automation are property of their respective companies Preface Analog Fanout P_Fanout Table of Contents Software Compatibility and Content Revision 00e eee ee 5 Additional Resourceveiva ay KS KR en eee ER KRN RTA ar 6 G idelines sir ou Raa Za AES on ee el chet thw ide HE N chia id 8 Functional Description sre Sassa R AT X scans E Aa TE res oo 8 Reg ired Piles nucct cen onen ot ie can oub amet E omit aint 9 Controller File eea asa g rR aai K RRR RAT ET TA E 9 Vistalization Piles to arue eea Enae E E aS 9 Controller Code x eaa aa E e Ra L R 11 Analog Fanout Input SUC consi oncom e he 1 Analog Fanout Output Structure e ee e e es cave ee 16 Analog Fanout Local Configuration Tags esse 19 PCA ONS Z Aa heh ak nt E aad Sty Pea Naina ERT T nian 20 Modes aicccct aed a eee a oie ee ode etn 20 APE 450 E h ea Han TTA Te E N Ta 20 KITS 20 S TTT 21 Programming Example 4 dow cin ee cuninn ge wale de Maina enledrriesecace 21 Display Elements maier eas eG bs anaes Faas 23 Status Quality Indicators ee 24 Mode Tnidicatars ravi eei e Sa REY KRL a a cit
40. technical information FAQs and to sign up for product notification updates In addition we offer multiple support programs for installation configuration and troubleshooting For more information contact your local distributor or Rockwell Automation representative or visit http www rockwellautomation com services online phone Installation Assistance If you experience a problem within the first 24 hours of installation review the information that is contained in this manual You can contact Customer Support for initial help in getting your product up and running United States or Canada 1 440 646 3434 Outside United States or Canada Use the Worldwide Locator at http www rockwellautomation com rockwellautomation support overview page or contact your local Rockwell Automation representative New Product Satisfaction Return Rockwell Automation tests all of its products to help ensure that they are fully operational when shipped from the manufacturing facility However if your product is not functioning and needs to be returned follow these procedures United States Contact your distributor You must provide a Customer Support case number call the phone number above to obtain one to your distributor to complete the return process Outside United States Please contact your local Rockwell Automation representative for the return procedure Documentation Feedback Your comments will help us serve your docum
41. to Operator Program Override OCmd_AcqLock BOOL Mode 0Cmd_AcqLock 0 Operator command to acquire Program to Operator Lock Ownership OCmd_Unlock BOOL Mode 0Cmd_UnlockRel 0 Operator command to unlock release Operator to Program Ownership Analog Fanout Output Structure Output parameters include the following e Output data elements Out_ are the primary outputs of the instruction typically used by hardware output modules however they can be used by other application logic e Value data elements Val_ are numeric outputs of the instruction for use by the HMI Values can also be used by other application logic or software packages e Status data elements Sts_ are bit outputs of the instruction for use by the HMI Status bits can also be used by other application logic s Error data elements Err_ are outputs of the instruction that indicate a particular configuration error If any Err_ bit is set then the Sts_Err configuration error summary status is set and the Invalid Configuration indicator is displayed on the HMI s Ready data elements Rdy_ are bit outputs of the instruction used by the HMI to enable or disable Command buttons and Setting entry fields Table 4 P_Fanout Output Parameters Output Parameter Data Type Alias For Description always reflects Enableln Input state Out_CV1 REAL Calculated outputs in engineering units RSS For example Out_CV1 Inp_CV Val_CV1
42. toryTalk View ME Software Description Graphics Displays GFX RA BAS P_Fanout5 Faceplate RA BAS ME P_Fanout5 Faceplate This faceplate appears from the global object when outputs 6 7 and 8 are not used RA BAS P_Fanout Faceplate RA BAS ME P_Fanout Faceplate This faceplate appears from the global object when outputs 6 7 or 8 are used RA BAS P_Fanout Help RA BAS ME P_Fanout Help The help display used for the object RA BAS Common AnalogEdit N A Faceplate used for analog input data entry The FactoryTalk View ME faceplates use the native analog input data entry so no file is required RA BAS P_Mode Help RA BAS ME P_Mode Help Mode Help information that is accessed from the P_Fanout Help faceplate RA BAS P_Mode Config RA BAS ME P_Mode Config Display used to set Default mode Graphics Global GGFX RA BAS Common Faceplate Objects RA BAS ME Common Faceplate Objects Common global objects used on Process Objects Object faceplates RA BAS Common Faceplate Analog Objects RA BAS ME Common Faceplate Analog Process specific global analog objects used Objects on Process Object faceplates RA BAS Process Graphics Library RA BAS ME Process Graphics Library Graphic objects used to build process displays for various Process Objects RA BAS Process Help Objects RA BAS ME Process Help Objects Global objects used for help on Process Objects help displays RA BAS Process Mode Objects RA BAS ME Process Mode Objects
43. ut Engineering Tab Page 4 P_Fanout Analog Fanout Allow Navigation Object Tag Name Input CY C1 v G Pan CV3 v cva e J cvs Pas v cva Pagi v cv Paint v cva Fy 000 7 Table 11 Engineering Tab Page 4 Description Function Action Security Configuration Parameters Allow Navigation Check to permit navigation to a Engineering Cfg_HasNav 0 Cfg_HasNav 7 faceplate for which you typedatag Configuration Cfg_CVNavlag name For example MyCVObject Code E Object Tag Name Type the text that is displayed on the Cfg_NavTag 0 7 HMI x Cfg_CVNavTag Rockwell Automation Publication SYSLIB RMO30C EN P August 2014 37 Analog Fanout P_Fanout Analog Fanout Faceplate Help Fanout Faceplate help Mode Indicators D Device in Program Mode D Device in Operator Mode M Device in Maintenance Mode E uo Mode Out of Service Status Indicators Z Invalid Configuration Z input cv clamped to minimax T Output cv Clamped to minimax 38 Rockwell Automation Publication SYSLIB RM030C EN P August 2014 Rockwell Automation Support Rockwell Automation provides technical information on the Web to assist you in using its products At http www rockwellautomation com support you can find technical and application notes sample code and links to software service packs You can also visit our Support Center at https rockwellautomation custhelp com for software updates support chats and forums
44. vides details on how to use this software package for publication VIEWME UM004 creating an automation application FactoryTalk View Site Edition User Manual Provides details on how to use this software package for publication VIEWSE UM006 developing and running human machine interface HMI applications that can involve multiple users and servers distributed over a network Logix5000 Controllers Add On Instructions Programming Provides information for designing configuring and Manual publication 1756 PM010 programming Add On Instructions Rockwell Automation Library of Process Objects Common Explains how to select the Mode owner of an Mode Block P_Mode Reference Manual publication instruction or control strategy The Mode instruction is SYSLIB RM005 usually embedded within other instructions to extend their functionality It is possible to use a standalone Mode instruction to enhance a program where modes are wanted You can view or download publications at http www rockwellautomation com literature To order paper copies of technical documentation contact your local Allen Bradley distributor or Rockwell Automation sales representative 6 Rockwell Automation Publication SYSLIB RMO30C EN P August 2014 Analog Fanout P_Fanout The Analog Fanout P_Fanout Add On Instruction fans one primary analog output signal out to multiple secondary users or devices Each secondary output has configurable
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