BMX ERT 1604 T - M340 ERT Module - User Manual
Contents
1. 1 Module 2 28 removal terminal block 72 EIO0000001 121 10 2014 Physical Installation The following table describes the characteristics of the BMX ERT 1604 T terminal block Illustration Caged Terminal Blocks Spring Terminal Blocks Number of wires accomodated 1 1 Number of wire minimum AWG 24 0 34 mm gauges accommodated MAXIMUM AWG 16 1 5 mm Wiring constraints Caged terminal blocks have slots that accept To insert and remove wires from the flat tipped screwdrivers with a diameter of 3 connectors use a 2 5 x 0 4 mm mm and also have captive screws On the screwdriver to open the round supplied blocks these screws are not receptacle by pushing on the tightened corresponding plate Push the flexible plate down on the outside the side closest to the corresponding receptacle A screwing rotating or bending motion is not required Maximum screw tightening 0 5 Nem 0 37 Ib ft torque 4 DANGER ELECTRICAL SHOCK Remove sensor and pre actuator voltage before connecting or disconnecting the terminal block Failure to follow these instructions will result in death or serious injury 100000001121 10 2014 73 Physical Installation Connecting the 28 Pin Terminal Blocks The following figure shows the method for opening the 28 pin terminal block door so that it can be wired2. FractionOfSecond SEC 1970 0 3 UINT32 little endian encoding FRACT SEC 0 LSByte B7 BO FRACT SEC 1 B15 B8 FRACT SEC 2 MSByte B23 B16 B23 1 for 1 2 s TimeQuality B7 BO B7 LeapsSecondsKnown FRACT SEC 2 MSByte FRACT SEC 1 2nd byte FRACT SEC 0 LSByte 23 22 21 20 19 18 17 16 15 14 13 12 1 109 8 7 6 5 4 3 2 1 JO The following table describes the format for TimeQuality data block TimeQuality Definition Attribute Name Type Description Value PACKED LIST 8 bits LeapsSecondsKnown BOOLEAN B7 ClockFailure BOOLEAN B6 ClockNotSynchronized BOOLEAN B5 TimeAccuracy CODED ENUM Number of significant bits in the B4 BO FractionOfSecond Minimum time interval is 2 n For example Encoding of LeapSecond 0 ClockFailure 0 ClockNotSyn chronized 0 TimeAccuracy 3 bits TimeQuality 0x03 100000001121 10 2014 29 User Functions LeapSecondsKnown This bit is set to FALSE ClockFailure Indicates same meaning with the 1 implicit variable CLOCK FAILURE ClockNotSynchronized Indicates same meaning with the 1 implicit variable CLOCK NOT SYNC TimeAccuracy In IEC norm the TimeAccuracy represents the number of significant bits N in the FractionOfSecond e Forthe 1 ms time stamp resolution of BMXERT module TimeAccuracy is set to 0xx01010 e If ClockN
3. 45 Application Areas 2 III 46 Typical Applications 0 0 00 cect 47 Part Il Physical Implementation 51 Chapter 4 Module Description 53 uc 54 Field Wiring Ge odid aa ea he 55 DIAGNOSIS orr racine gente 58 Technical sacred bite Oper eed aad 59 EIO0000001 121 10 2014 3 Chapter 5 Guidelines for the Physical Installation 65 Installing the BMX ERT 1604 T 66 Fitting 28 pin Terminal Blocks 68 Connecting 28 pin Terminal Block T2 ACCESSORIES 2 RAE mei uA CR uera 75 Part Ill 1604 T Software Implementation 77 Chapter 6 Configuration of 1604 T Module 79 6 1 Using BMX 1604 T in Unity 80 Inserting BMX 1604 in 80 6 2 User Screen for BMX ERT 1604 T Module 82 User Screen 83 Module Configuration liliis 85 User Screen in Online Mode 87 6 3 Configuration Parameters for 94 Main Function Configuration 95 Configuration for Group 0 Time Stamping 96 Configuration f
4. NOTE The connection cable is installed and held in place by a cable clamp positioned below the 28 pin terminal block Labeling of 28 Pin Terminal Blocks The labels for the 28 pin terminal blocks are supplied with the module Where you need to insert the terminal block cover Each label has 2 sides e Oneside is visible from the outside when the cover is closed This side features the commercial product references an abbreviated description of the module and a blank section for customer labeling e One side is visible from the inside when the cover is open This side shows the terminal block connection diagram 74 100000001121 10 2014 Physical Installation Accessories The following table describes the accessories for the BMX ERT 1604 T module Commercial Reference Description BMX XSP 0400 EMC kit BMX XSP 0600 BMX XSP 0800 BMX XSP 1200 BMXFTB2820 28 pin spring removable terminal block BMXFTB2800 28 pin screw caged removable terminal block 100000001121 10 2014 75 Physical Installation 76 100000001121 10 2014 Part Ill BMX ERT 1604 T Software Implementation Overview This part provides software implementation and functions of BMX ERT 1604 T module The BMX ERT 1604 T module can work with the CPU modules of M340 family and work with the remote I O adapter CRA which is connected to Quantum platform via Ethernet The usage of 1604 T modul
5. Channel 0 used Channel 0 edge Channel 0 debounce time Channel 0 chatter count 10 Channel 1 used Enable 11 Channel 1 edge Both edges 12 Channel 1 debounce time 13 Channel 1 chatter count 14 Channel 1 chatter time 255 15 Channel2 used Enable 16 Channel2 edge 17 Channel 2 debounce time Both edges 18 Channel 2 chatter count 19 Channel2 chatter time 20 Channel 3 used 21 Channel 3 edge 22 Channel 3 debounce time 23 Channel 3 chatter count PLC bus E 0 3 BMX E 96 EIO0000001 121 10 2014 Configuration of BMXERT Module Parameters description Label Input Type Value Function for group 0 Fixed Value 2 Time stamping Module Parameters Supply monitoring Option Value 0 Disable supply monitoring Value 1 Enable supply monitoring default Rated voltage Option Value 0 24 default Value 1 48 60 Vdc Value 2 110 125 Vdc Clock SYNC source Option Value 1 Free running internal clock Value 2 DCFF external clock Value 3 IRIG B external clock default Group Parameters Debounce filter type Option Debounce filter see page 19 Value 0 Steady state a signal change is only registered if the polarity change remains stable longer than the filter time each new change resets the filter time default Value 1 Integrating
6. stamping state Stop Event Detection It means the detection for external events is stopped But the virtual events corresponding to inserting time stamping channels is registered Once it recovers the virtual event is set in the buffer before the first external event is being put into this In addition to the 2 sources mentioned in the previous chart buffer full or client demand to synchronize the values the module also stops event detection on a field power supply fault phase if the field power supply is monitored see page 16 Bad TimeAccuracy After recovering from the buffer free event or bus power off the first event is compared with the last frozen discrete values and the TimeAccuracy must be put as 11110 which denotes the invalid time The buffer full free event gets the normal TimeAccuracy bits 01010 Initialization The initialization means power on hot swap application download and module group reboot after online configuration change BMXERT Field Power Failure Asserted BMXERT field power failure asserted means the supply monitoring is enabled and the field power failure is detected 100000001121 10 2014 35 User Functions EFB for BMX ERT 1604 T Module Overview The BMX ERT 1604 T module uses the following EFBs in applications on 3 different systems e GET TS EVT Mfor an Modicon X80 or Modicon M580 system e GET TS EVT OQ for a Quantum system The BMX 1604 T module can be inst
7. 1604 T modules e The minimum required level is 200 mV to activate the BMX ERT 1604 T module e IEEE1344 or IEEE C37 118 standard extension definition for DST information must be supported in order to maintain time accuracy during the switch between daylight saving time and standard time DCF77 The module receives external time codes in the DCF77 format through terminal block For detailed description of DCF77 format refer to the DCF77 standard The required output level from external DCF77 source is 24 Vdc and follows the rules as such e The transition level between mark and space is about 13 Vdc e The current consumption is about 3 6 mA at 24 Vdc for the DCF77 input port of each module e 1 external source is allowed to be wired to multiple modules the upper limit depends on the current capability of the source EIO0000001 121 10 2014 55 Module Description Terminal Block Definition The following figure shows the BMXFTB2820 terminal block BMXFTB2820 The following table defines the pinouts on the terminal blocks QOQQ SOOO Q Q Q 3 C19 OO ee Definition Pin Number Definition DCF IN 2 1 IRIG DCF COM 14 3 IRIG NC 6 5 NC I1 8 7 10 13 10 9 12 15 12 11 4 56 EIO0000001 121 10 2014 Module Description Definition Pin Nu
8. Symbol Value Unit 0030 VALID No 1 98 W0 30 1 Clock failure T 2 99 03032 Clock not SYNC 4 3 IW0 3 0 3 3 Buffer full No IW03 0 3 7 uncertain 10 5 190 0 3 0 39 UMAS Communication error No 6 WO030315 Decateradve No 7 IW03 0 2 Time stamp records ET 8 iwo304 Percentage of buffer filled 0 9 9940305 Timestampeventsstate 48 eeex 48 I0 3 1 0 Channel 1 Value 0 15 40320 Chame2Vaue 5 Ta 980330 Channel 3 Value 70 The parameters for the group 0 channels 0 3 debug page are listed in the following table Group 0 inputs are dedicated time stamping inputs which cannot be reconfigured as counter or standard discrete input channels Object Type Label Detail 9elWr m 0 3 INT TS DIAGNOSTIC FLAGS 9oIWr m 0 3 0 BOOL TIME VALID Time OK and synchronized 9 0 3 1 BOOL Clock failure Same as ClockFailure Indication in the TimeQuality 96IWr m 0 3 2 BOOL Clock not SYNC Same as ClockNotSynchronized Indication in the TimeQuality 96IWr m 0 3 3 BOOL Buffer full Buffer full 96IWr m 0 3 7 BOOL SOE uncertain Variable to assign an SOE uncertain Event ID EIO0000001 121 10 2014 89 Configuration of BMXERT Module Object Type Label Detail 9 0 3 9 BOOL UMAS Communication Module Parameter error UMAS communication
9. Reserved Byte 0 Value Byte 1 Event ID Bit 7 0 Byte 2 Bit 15 8 Byte 3 DateAndTime SecondSinceEpoch Bit 7 0 Byte 4 Bit 15 8 Byte 5 Bit 23 16 Byte 6 Bit 31 24 Byte 7 FractionOfSecond Bit 7 0 Byte 8 Bit 15 8 Byte 9 Bit 23 16 Byte 10 TimeQuality Byte 11 The following table describes the meaning of each data block Attribute Name Attribute Type Description Value Reserved BYTE Reservation for future use Byte 0 This byte is set to 0 Value BYTE Value of the variable after change detection Bit 0 Falling edge 0 Rising edge 1 Event ID WORD Identification of the variable is automatically assigned by the configuration tool NOTE The identification must be unique for system time stamping DateAndTime TIMESTAMP Date and time of the variable change detection 28 EIO0000001 121 10 2014 User Functions The following table describes the format for Dat aAndTime data block Timestamp Type Definition Attribute Name Type Description Value SecondSinceEpoch INT32U 0 MAX FractionOfSecond INT24U See the following table for more information on FractionOfSecond TimeQuality TIMEQUALITY The time format is defined according to EC 61850 7 2 Edition 2 The definitions of the attributes are as follows SecondSinceEpoch Number of seconds since midnight 00 00 00 1970 01 01 UTC time FractionOfSecond
10. Failure to follow these instructions can result in injury or equipment damage BMX CRA Architecture CRA Reference Maximum Maximum Maximum Expert Module Module Channels CRA Number Drop Number EIO CRA Network Remote BMX CRA 312 10 36 9 25 Architecture NOTE 1 expert channel 1 ERT logical group EIO0000001 121 10 2014 59 Module Description General Specifications Hot Swapping Supported Yes Event Sampling Rate 0 5 ms Time Stamp Resolution 1ms Time Input IRIG B 3s Synchronizing DCF77 lt 3 min Duration Maximum Event Buffer Capability 255 groups Note2 Event Data Protection power down Yes Non volatile Reading Requests Maximum Event Per UMAS Request 20 events Buffer Capability Per EFB Request 20 events Minimum Timeout Between UMAS Requests 5 ms Setting Between Between EFB Requests 5 ms Max Event Burst Within 1 s Without Buffer Being Full Local with 5 ms interval between requests 4000 events s RIO network With Max BMXERT modules Max 16 reading requests PLC cycle 500 events s PLC cycle lt 100 ms Counting Function Counter Bits 32 bits Maximum Frequency 500 Hz Backplane Power 3 3 130 mA Consumption 24 30 mA Isolation Bus to discrete Input 2500 1 min Bus to IRIG DCF 1400 1 min Discrete Input to IRIG DCF 2
11. 0 Discrete Input 1 Counter e 2 Time Stamping CH_HEALTH BOOL R Channel health DIS_VALUE EBOOL R Discrete value CNT_VALUE UDINT R Counting value for channel 4 15 Not usable for channel 0 3 CLR_CNT EBOOL R W Clear counter value for channel 4 15 Not usable for channel 0 3 118 EIO0000001 121 10 2014 Using BMX ERT 1604 T in ERIO Drop Implicit Device DDT Type Standard Symbol Type Access Meaning T M TIME SYNC ERT TS TIME STAMP RECORDS UINT Current events number in buffer TS DIAGNOSTIC FLAGS WORD Event buffer flags TIME VALID BOOL Time OK and synchronized CLOCK FAILURE BOOL Same as ClockFailure indication in the TimeQuality CLOCK NOT SYNC BOOL Same as ClockNotSynch ronized the TimeQuality BUFF_FULL BOOL Buffer full UMAS_COM_ERR BOOL UMAS communicator DECHATTER ACT 0 BOOL Dechatter active on channels 0 3 DECHATTER ACT 1 BOOL Dechatter active on channels 4 7 DECHATTER ACT 2 BOOL Dechatter active on channels 8 11 DECHATTER ACT 3 BOOL Dechatter active on channels 12 15 TS BUF FILLED PCTAGE BYTE Percentage of the buffer filled 0 100 TS EVENTS STATE BYTE Main state of the TS events service debug purpose SOE UNCERTAIN BOOL SOE uncertain variable CLR EVT BUF EBOOL
12. 255 ms default time 1 Value 0 Without internal SW delay Units ms Channel x chatter Input Chatter number 1 255 for count event counter input default 1 Channel x chatter Input Chatter filter time duration time 1 255 x 100 ms default 1 Units 100 ms 100000001121 10 2014 99 Configuration of BMXERT Module Configuration for Group 1 2 3 Discrete Input Without Time Stamping Parameters Description Group 1 2 and 3 discrete input parameters DIG 161 24 125 VDC TSTAMP E BMX ERT 1604 Configuration By Channel 0 Time Stamping Channel 4 Time Stamping Bg Channel 8 Counter a Channel 12 Discrete input Unit Steady state Channel 12 used Enable vj Channel 12 debounce time 1 Channel 13 used Enable Channel 13 debounce time 1 Channel 14 used i Enable Channel 14 debounce time 1 Channel 15 used Enable Channel 15 debounce time 1 Function Discrete input v Task MAST PLC bus E 0 3 BMX E 100 100000001121 10 2014 Configuration of BMXERT Module Parameters description Label Input Type Value Function for group x x 4 8 12 Option Value 0 Discrete input chosen Value 1 Counter Value 2 Time stamping Group x Debounce filter type Option Debounce filter see page 19 Parameters V
13. EBOOL R W Clear channel c counter Qr m c 0 value value Parameters are for each channel c 4 15 in each FB 112 100000001121 10 2014 Using BMX ERT 1604 T in a Modicon M340 Configuration IODDTs Overview The IODDTs are predefined and contain language objects of inputs outputs belonging to the channel of the module The BMX ERT 1604 T module has the following associated IODDTs T For channels configured as counter T ERT TS MOD For channel 0 with time stamping function with module status bits included T ERT TS For channels 1 15 which are configured as time stamping T DIS IN GEN For channels configured as discrete input or channels 1 15 configured as time stamping As any Modicon M340 module the BMX ERT 1604 T module also has a T GEN MOD see page 109 IODDT associated T TS MOD and T TS are specific IODDT for BMX 1604 T module while T DIS IN GEN is a generic IODDT for all discrete input T ERT CNT The following table shows the meaning of T ERT CNT IODDT Standard Symbol Type Access Meaning Language Object ERROR BOOL R Channel error lr m c ERR CNT_CURRENT_VAL UDINT R Current counting Dr m c 0 value Not usable for channel 0 3 CLR_CNT EBOOL R W Clear counter Qr m c 0 DECHATTER_ACT BOOL R Dechatter active IWr m c 3 15 information visible on each CNT channel of a group with th
14. EIO0000001 121 10 2014 17 User Functions Multi voltage and Supply Monitor Sub functions Overview To adapt to different voltage ranges the module supports 3 ranks for 5 rated voltages This option is available for time stamping discrete input and counter functions The rated voltage configuration acquires the supply monitor function which alarms the power interruption case for each rank The configuration allows disabling the supply monitor otherwise the error message will be denoted by the variable if enabled Parameter Description Parameter Type Parameter Valid Values Details Symbol Configuration Rated voltage 0 24 Vdc Effective range Module default Organization Group 0 1 48 60 Vdc 2 110 125 Vdc Configuration Supply 0 Disable Effective range Module monitoring 1 Enable Organization Group 0 default NOTE If the Supply monitoring is enabled the input state of each discrete channel is forced to 0 when a field supply failure is detected and the module stops the event detection until the field power supply recovers NOTE If the last input value is 1 then an event is generated when the input state is forced to 0 but the TimeAccuracy for this event shows an IO Channel error Status Description Status Type Status Symbol Values Details Status Explicit EXT PWS FLT 0 No fault Available in 1 Power supply e Device DDT interruption for supply e IODDT moni
15. 12 Wr m x 3 15 BOOL Dechatter active lt Group Parameter gt If any edges discarded by dechatter filter for any channels under this group NOTE x channel 4 5 6 or 7 group 1 channel 8 9 10 or 11 group 2 channel 12 13 14 or 15 group 3 EIO0000001 121 10 2014 93 Configuration of BMXERT Module Section 6 3 Configuration Parameters for Channels Overview This section describes the configuration parameters for the module each of its groups and each channel in the groups What Is in This Section This section contains the following topics Topic Page Main Function Configuration 95 Configuration for Group 0 Time Stamping 96 Configuration for Group 1 2 3 Time Stamping 98 Configuration for Group 1 2 3 Discrete Input Without Time Stamping 100 Configuring Group 1 2 3 for Counters 102 94 100000001121 10 2014 Configuration of BMXERT Module Main Function Configuration Configuration The following figure shows the main function configurations DIG 161 24 125 VDC TSTAMP Short description Module name Tff Configuration Label Group 0 Channel 0 3 Group 1 Channel 4 7 Group 2 Channel 8 11 BMX ERT 1604 Channel 0 Time stampin Ea Channel 4 Discrete input Channel 8 Counter B Channel 12 Time stampini Group 3 Channel 12 15 8 Channel 0 chatter count 9 Channel 0 chatter time 10
16. 48965 Spa S1A48964 Ita 51 48966 Chs Quantum EIO Remote Modules Installation and Configuration Guide 51 48978 Eng S1A48981 Fre 1A48982 Ger S1A48984 Spa S1A48983 Ita S1A48985 Chs Modicon M340 Using Unity Pro Processors Racks and Power Supply Modules Setup Manual 35012676 Eng 35012677 Fre 35013351 Ger 35013353 Spa 35013352 Ita 35013354 Chs You can download these technical publications and other technical information from our website at www schneider electric com EIO0000001 121 10 2014 Part Functional Overview Overview This part provides an overview of structure architecture functionality and typical applications of the BMX ERT 1604 T module What Is in This Part This part contains the following chapters Chapter Chapter Name Page 1 Introduction 11 2 User Functions 13 3 Applications 45 EIO0000001 121 10 2014 9 Overview 10 100000001121 10 2014 Chapter 1 Introduction Module Overview Brief Description of the Module The BMX ERT 1604 T module features all the characteristics of a regular 16 channel discrete input module In addition the BMX ERT 1604 T module has a time stamping function which records the change rising or falling edge of each input channel To ensure the precision of time stamps the module is able to receive time codes from a GPS or DCF77 receiver The
17. Channel default 1 Organization Each group Configuration Dechatter filter 0 Disable Effective range Group Sepa Organization Each default 1 group Implicit Dechatter 0 Inactive Available in active 1 Active e Device DDT e IODDT e Debug screen 100000001121 10 2014 23 User Functions The dechatter active bit describes the status of dechatter filter When an edge is discarded by dechatter filter the dechatter active bit is set to 1 and is cleared at the end of current T duration NOTE With the enabled dechatter filter and certain condition of input pattern a recorded rising edge can be followed by another rising edge recorded as shown in the previous figure or a recorded falling edge can be followed by another falling edge recorded CAUTION UNEXPECTED APPLICATION BEHAVIOR INCORRECT INTERPRETATION OF INPUT DATA Dechatter filters are used to suppress the input recognition in a defined way Filtering should only be used in a suitable way to prevent too much or undesired suppression of input data Failure to follow these instructions can result in injury or equipment damage 24 EIO0000001 121 10 2014 User Functions Time Synchronization Overview The BMX ERT 1604 T module receives the broadcast time code input from the IRIG port or DCF port only 1 format is allowed at a time The external time codes not only provide the year month
18. AKW 503 Configuration MA KDM KF 00 5 04 System AMW KW0 5 0 6 Status M Mw KWO 5 0 7 Parameter M MW M MD M MF kaa Command AMW V 96MD maa Implicits M ID M IERR MAAD M QF 961W0 5 0 2 96QW0 5 0 XO 35QW0 5 0 1 96QW0 5 0 3 Filter on usage MWO 5 0 MWO 5 0 1 i 26 MWO0 5 0 2 NOTE You can create and associate variables to objects but cannot delete variables from this page 86 100000001121 10 2014 Configuration of BMXERT Module User Screen in Online Mode Fault Tabs The Fault pages display detected error status for the module and each channel Module Fault Tab This tab is displayed when there is a detected error of the module and a red dot is shown with the tab name DIG 161 24 125 VDC TSTAMP O m BMX ERT 1604 Channel 0 Time Stamping Overview Fault objects Channel 4 Time Stamping Internal faut _ External fault Other fault E5 Channel 8 Time Stamping Faulty channel s Channel 12 Time Stamping Module Fault Parameters Object Type Symbol Description 9elr m MOD ERR BOOL MOD ERROR Module detected error bit MWr m MOD 2 INT MOD_FLT Internal detected error INT of the module x0 BIT MOD_FAIL Internal detected error module detected failure x1 BIT CH_FLT Inoperat
19. Channel 1 used 11 Channel 1 edge 12 Channel 1 debounce time 13 Channel 1 chatter count 14 Channel 1 chatter time 15 Channel 2 used 16 Channel 2 edge 17 Channel 2 debounce time Function Time stamping functions Counter 20 Channel 3 used Discrete input 2 Time stamping ChaNnel 3 edge 22 Channel 3 debounce time 23 Channel 3 chatter enint For groups 1 2 and 3 select a function e Counter e Discrete input without time stamping e Time stamping discrete input with time stamping Input group 0 cannot be reconfigured These inputs always function as discrete input with time stamping For all the functions the BMX ERT 1604 T module only provides MAST Task option Function Time stamping v Task EIO0000001 121 10 2014 95 Configuration of BMXERT Module Configuration for Group 0 Time Stamping Parameters Description Group 0 parameters DIG 161 24 125 VDC TSTAMP E ERT 1604 Bae Channel 0 Time Stamping Channel 4 Time Stamping Channel 8 Time Stamping Channel 12 Time Stamping Function Time Stamping Task MAST Ie Configuration Rated Voltage Clock SYNC source Debounce filter type Dechatter filter 24 VDC E RIG B External Clock Steady state vi Disable Enable Both edges i1
20. Correct exchange request processed 00 hex Positive result successfully 01 hex The number of events in the PLC buffer reaches the maximal value 02 hex The buffer is full and events have been overwritten since the last exchange 04 hex Buffer is full and the recording stops 01 hex Exchange stop on timeout 00 hex Default value 02 hex Exchange stop on user request CANCEL 00 hex Default value 03 hex Incorrect address format 00 hex Default value 04 hex Incorrect destination address 00 hex Default value 06 hex Incorrect specific parameters 01 hex Invalid CMD parameter 02 hex User parameters have changed between 2 invocations while the EFB execution is active 09 hex Insufficient receive buffer size 1 EVT 00 hex Default value hex No processor system resources 00 hex Default value FF hex Incorrect exchange request processed FF hex General communication error with failure NOTE ENO parameter is set to 1 on a correct exchange 40 100000001121 10 2014 User Functions CTRLSTAMP Parameter Description CTRL STAMP DDT structure example and link with the PLC buffer CTRL STAMP Raw Buffer BEGIN Index u M 0 END Index gt 32 6 Operating MODE a 0 0001 The example above shows the STAMP content after writing 32 events 1 event entry is 6 words long in the PLC buffer configured as follows e PLC buffer is located on MW100 and there are 32 events to write e Stop the recording when the buffer i
21. ERT 1604 T in a Modicon M340 Configuration Details of the Language Objects of the IODDT of Type T GEN MOD Introduction The modules of Modicon M340 and X80 PLCs have an associated IODDT of type T GEN MOD Observations In general the meaning of the bits is given for bit status 1 In specific cases an explanation is given for each status of the bit Some bits are not used List of Objects The table below presents the objects of the IODDT Standard Symbol Type Access Meaning Address MOD ERROR BOOL R Module detected error bit lr m MOD ERR EXCH_STS INT R Module exchange control word MWr m MOD 0 STS IN PROGR BOOL R Reading of status words of the module in progress MWr m MOD 0 0 EXCH RPT INT R Exchange report word MWr m MOD 1 STS_ERR BOOL R Event when reading module status words MWr m MOD 1 0 MOD_FLT INT R Internal detected errors word of the module MWr m MOD 2 MOD_FAIL BOOL R module inoperable MWr m MOD 2 0 CH_FLT BOOL R Inoperative channel s MWr m MOD 2 1 BLK BOOL R Terminal block incorrectly wired MWr m MOD 2 2 CONF_FLT BOOL R Hardware or software configuration anomaly MWr m MOD 2 5 NO_MOD BOOL R Module missing or inoperative MWr m MOD 2 6 EXT_MOD_FLT BOOL R Internal detected errors word of the module Fipio MWr m MOD 2 7 extension only MOD FAIL EXT BOOL R Internal detected error module unserviceable Fipio MWr m MOD 2 8 exte
22. R W Clear event buffer NOTE Only available for applicative time stamping mode EIO0000001 121 10 2014 119 Using BMX ERT 1604 T in ERIO Drop Explicit Device DDT Optional explicit DDT types are proposed in the data editor to support Status or Command data used by explicit exchanges on a channel of an IO module in a Modicon M340 remote I O drop Explicit DDT instances are created manually by the user in the data editor and used as Output parameter with the function block managing the explicit exchange READ STS OX The following table shows the meaning of T M DIS CH STS explicit device DDT Explicit Device DDT Standard Type Access Meaning type Symbol T M DIS CH STS CH FLT INT R Standard channel errors EXT PWS FLT BooL R External power supply error INTERNAL FLT BOOL R Inoperable channel or module missing CONF FLT BOOL R Hardware or software configuration detected error COM FLT BOOL R Communication error with PLC 120 EIO0000001 121 10 2014 Index C Symbols E ERIO drop ERIO drop BMX ERT 1604 T in a Quantum EIO device DDTs in BMX ERT 1604 T 117 drop 117 F A application areas 46 C channel data structure for all modules T GEN MOD 109 configuration BMX ERT 1604 T in Unity Pro 79 hidden configuration parameters 79 parameters for channels 79 project settings 79 user screen 79 configuration parameters for chann
23. a signal change is only registered if the time integral of the input signal reaches the programmed filter time taking any polarity change into account Dechatter filter Option Dechatter filter see page 23 Value 0 Disable chatter time and chatter count are deactivated default Value 1 Enable chatter filter for event and counter input Channel x Parameters x 0 3 Channel x used Option Value 0 Enable default Value 1 Disable impedes processing of input data for the input If disabled it remains always 0 Channel x edge Option Value 0 Both edges default Value 1 Rising edge Value 2 Falling edge Channel x debounce time Input Debounce time 0 255 ms default 1 0 Without internal SW delay Unit ms Channel x chatter count Input Chatter number 1 255 for event counter input default 1 Channel x chatter time Input Chatter time duration 1 255 x 100 ms default 1 Unit 100 ms EIO0000001 121 10 2014 97 Configuration of BMXERT Module Configuration for Group 1 2 3 Time Stamping Parameters description Group 1 2 and 3 time stamping parameters DIG 161 24 125 VDC TSTAMP a BMX ERT 1604 w Configuration Channel 0 Time Stamping 7 Ba 4 Time Stamping Channel 8 Counter Channel 12 Discrete input Channel 4 debounce time Channel 4 cha
24. chatter time Channel 10 used Channel 10 edge Channel 10 debounce time Channel 10 chatter count Channel 10 chatter time Channel 11 used Channel 11 edge Enable Both edges Channel 11 debounce time Channel 11 chatter count PLC bus E 0 3 BMX E 102 EIO0000001 121 10 2014 Configuration of BMXERT Module Parameters description Label Input Type Value Function for group x x 7 4 8 12 Option Value 0 Discrete input Value 1 Counter chosen Value 2 Time stamping Group x Debounce filter Option Debounce filter see page 19 Parameters type Value 0 Steady state a signal change is x 4 8 12 only registered if the polarity change remains stable for longer than the filter time each new change resets the filter time default Value 1 Integrating a signal change is only registered if the time integral of the input signal reaches the programmed filter time taking any polarity change into account Dechatter filter Option Dechatter filter see page 23 Value 0 Disable chatter time and chatter count are deactivated default Value 1 Enable chatter filter for event and counter input Channel x Channel x used Option Value 0 Enable default Parameters Value 1 Disable impedes processing of x 4 15 input data for the input If disabled remains always 0 Channel x edge Option Value 0 Both edges default Value 1 Rising edg
25. day hour minute and second IRIG B information but also provide the on time edge at each second IRIG B or minute DCF77 This enables to synchronize the internal clock of the module with the external clock The following parameters are provided to support the time synchronization function Parameter Type Parameter Name Valid Values Details Configuration Clock SYNC source 0 Free Effective Module running internal range clock Organization Group 0 1 DCF77 external clock 2 IRIG B external clock default Implicit TIME VALID 0 Invalid Available in 1 Valid Device DDT IODDT Debug screen Implicit CLOCK FAILURE 0 No fail Available in 1 Fail Device DDT IODDT Debug screen Implicit CLOCK NOT SYNC 0 Synchronized Available in 1 Not synchronized Device DDT IODDT Debug screen Clock SYNC Source In addition to the 2 external clock sources you can also choose Internal clock Free running Internal clock The module uses the internal clock After the module is initialized the start time is changed to 1970 01 01 00 00 00 000 as defined in IEC61850 DCF77 External clock Timing is synchronized to a timing code received on the DCF input port IRIG B External clock Timing is synchronized to a timing code received on the IRIG input port NOTE When the external clock options are selected the BMX ERT 1604 T module stays in the free running mode begins from 1970 01 01 00 00 00 000 after init
26. error 9eIWr m 0 3 15 BOOL Dechatter active Group Parameter If any edges discarded by dechatter filter for any channels under this group IWr m 0 2 INT Time stamps records lt Module Parameter gt This word contains the number of Time Stamp records available in the module local buffer IWr m 0 4 INT Percentage of buffer filled Percentage of the buffer filled 0 100 9eIWr m 0 5 INT Time stamp events state Main state of the TS events service reserved lr m 0 0 EBOOL Channel 0 value Channel 0 input value lr m 1 0 EBOOL Channel 1 value Channel 1 input value lr m 2 0 EBOOL Channel 2 value Channel 2 input value lr m 3 0 EBOOL Channel 3 value Channel 3 input value Qr m 0 0 EBOOL Channel 0 Clear Counter Module Parameter value Clear counter value 90 EIO0000001 121 10 2014 Configuration of BMXERT Module Group 1 2 and 3 Time Stamping Debug Tab Groups 1 2 and 3 time stamping debug pages DIG 161 24 125 VDC TSTAMP Version 1 0 E BMX ERT 1604 BNET etl TBE Configuration Debu Channel 0 Time Stamping m 1 T 3 O EEG Reference Label l a Symbol Value Channel 8 Counter Channel 12 Discrete input 6 IWO0 3 4 3 15 Dechatter active No 10 9010 3 4 0 Channel 4 value 0 12 19610 3 5 0 Channel 5 value 0 14 10 3 6 0 Channel 6 value 0 16 940370 Channel value o Function Task q PLC bus E 0 3 BMX E The time stamping paramete
27. range of 24 125 Periodic time stamping of process values Recording counter values in defined time intervals The combined use of both function groups can be used as an advantage Time dependent switching actions The input modules can be set regardless of time for controlling lighting heating ventilators temperatures building automation or for opening closing doors and machines safety measures The output status can be recorded with the ERT 46 EIO0000001 121 10 2014 Applications Typical Applications M340 Standalone Configuration This architecture is designed to target the medium and small capacity hydro turbine control with the following features Site Devices Modbus SL Power supply DI and DO in 24 Vdc 8 channel RTD signal acquisition module Time stamping module with 1 ms resolution Modbus RS 485 communication with local serial line devices Modbus TCP Ethernet communication between LCU Local Control Unit and SCADA To SCADA Modbus TCP m 2 3 4 el 5 6 7 8 9 CPS DDI DDI DDI DDO DDO 2000 2020 16025 1602 1602 1602 1602 1602 1602 1602 1602 1602 1602 PS boo I I ps pu pa ya p 03145 0814 0814 05145 0410 M Extend to Max 4 Backplane M340 RIO Configuration This architecture is designed to target the requirements of HSBY system in medium capacity hydro turbine control It is also used to protect S leadership position
28. reaches the programmed filter time considering any polarity change Filter Time lt 5 ms Signal Input LJ T ft t d 1ms Count 0 1 2 Register Value NOTE Debounce time 2 1 ms is recommended to provide enough immunity from electromagnetic disturbances The following table shows the parameters of the debounce filter function Parameter Type Parameter Name Valid Values Unit Details Configuration Debounce filter type 0 Steady state Effective range Group 1 Integrating Organization Each group Configuration Channel x debounce time 0 255 ms Effective range Channel x 0 15 Default 1 Organization Each group NOTE The setting of debounce time affects the time stamping accuracy because the recognition of transition is delayed 4 CAUTION UNEXPECTED BEHAVIOR OF APPLICATION INCORRECT INTERPRETATION OF INPUT DATA Debounce filters are used to suppress the input recognition in a defined way Filtering should only be used in a suitable way to prevent too much or undesired suppression of input data Failure to follow these instructions can result in injury or equipment damage 20 100000001121 10 2014 User Functions Section 2 3 Time Stamping Sub functions Overview The time stamping function includes the full functions of discrete input see page 16 containing the normal discrete input function along with the
29. slots in the middle of the left side as seen from the wiring side of the terminal block and can fill the module s 6 guidance slots on the left side To fit the terminal block to the module a module slot with a stud must correspond to an empty slot in the terminal block or a terminal block with a stud must correspond to an empty slot in the module You can fill upto and include any of the 6 available slots as desired The following diagram shows a guidance wheel and the slots on the module used for coding the 28 pin terminal blocks x Guidance wheel Detachable stud Guidance slots Module slots 100000001121 10 2014 69 Physical Installation The following diagram shows an example of a coding configuration that makes it possible to fit the terminal block to the module Terminal block Module Empty slots Slots filled with studs Slots filled with studs Empty slots The following diagram shows an example of coding configuration with which it is not possible to fit the terminal block to the module Empty slots Slots filled with studs Terminal block Module Ld ts filled with studs pty slots 70 EIO0000001 121 10 2014 Physical Installation 4A DANGER ELECTRICAL SHOCK Remove the sensor and pre actuator voltage before connecting or disconn
30. whole buffer Debug screen NOTE Only available for applicative time stamping mode 100000001121 10 2014 31 User Functions TIME STAMPS RECORDS This word contains the number of time stamp records event number available in the local buffer BUFF FULL BUFF FULL bitis set to 1 on buffer full detection BUFF FULL bit is cleared after a buffer full threshold is reached that is when percentage of events in the buffer is buffer threshold 7096 Refer to the Behavior Mode see page 33 for the module behavior for buffer full case The event record and detection always stops after the buffer is full This means that the latest events are lost during the buffer full period Buffer threshold After the buffer is full the BMXERT module automatically recovers the event record when the buffer occupancy is lower than the buffer threshold PERCENTAGE OF BUFFER FILLED Both buffer threshold and TS FILLED PCTAGE use the percentage for indication The percentages are calculated by group number instead of event number The event number varies from 1 16 in one group The number depends on how many channels get the events occurred within the same 0 5 ms sampling window SOE uncertain event ID The buffer full event is treated as a special event from a virtual channel therefore the unique event ID is assigned by the system After the buffer full event occurs the buffer full event with this ID is inserted into the
31. with frozen value amp Bad TimeAccuracy If buffer not full ReadVarList TS Events Synchro Power recovers after 1 power up values BMXERT bus power off gt Threshold buffer size Threshold 1 event compared with frozen value amp Bad TimeAccuracy EIO0000001 121 10 2014 33 User Functions Application Configuration Download It includes all the operations which cause a physical download such as customer operation auto download after power on and hot swap System Application Solution Parameter Type Parameter Name Valid Values Details Configuration Solution mode option System or Effective range Module Applicative Organization Group 0 NOTE The system mode only takes time stamping channels into account New Context The new context is defined as the occurrence of new configuration creation ID The configuration creation is stored in the configuration parameter of BMX ERT Parameter Type Parameter Name Valid Values Details Configuration Configuration creation ID Read only Effective range Module Organization Group 0 Module Level CFG The module level configuration parameters include e Related voltage e Clock SYNC source Client Read Reception of a TS Events client request shows that the client is connected Client Demand to Synchronize the Values Reception of a synchronization request from the
32. 00000001121 10 2014 115 Using BMX ERT 1604 T in a Modicon M340 Configuration 116 100000001121 10 2014 Chapter 8 Using BMX ERT 1604 T in ERIO Drop Device DDTs in BMX ERT 1604 T Overview In a Quantum EIO application the online display tabs are suppressed Also the I O objects tab and IODDT are replaced by a device DDT tab 1 EA 2 1 0 1 BMX 1604 DIG 161 24 125 VDC TSTAMP E 1604 gt ee Bm Channel 0 Time Stamping Overview Device DDT By Channel 4 Time Stamping Channel 8 Time Stamping Implicit device DDT Bg Channel 12 Time Stamping Name MOD DIS 16 1 Goto details 1 Device DDT Tab 2 Device name automatically attributed 3 Command button to display device DDT details EIO0000001 121 10 2014 117 Using BMX ERT 1604 T in ERIO Drop Implicit Device DDTs The following table shows the meaning of T M DIS T M DIS CH and T M TIME SYNC ERT implicit device DDTs Implicit Device DDT Standard Symbol Type Access Meaning Type DIS MOD HEALTH BOOL R Function type 0 module has a detected error e 1 the module is operating correctly MOD FLT BYTE R Module internal detected errors byte SYNC T M TIME SYNC CH ARRAY 0 15 of T M DIS ERT CH DIS CH FCT TYPE WORD R Function type
33. 16 channels discrete input can also be used as counter inputs the counters feature increasing counting with the clear function The BMX ERT 1604 T module inputs are compatible with the following rated voltages 24 Vdc 48 Vdc 60 110 and 125 The inputs use positive sink logic BMX ERT 1604 T Architectures The BMX ERT 1604 T module supports 2 kinds of architectures e Local architecture The BMX ERT module works with a BMX or BME CPU module in the local drop e Remote architecture The BMX ERT module works with a BMX or BME CRA remote I O adaptor module which is connected to a CPU via Ethernet Refer to the Typical Applications see page 47 for detailed description 100000001121 10 2014 11 Introduction 12 100000001121 10 2014 Chapter 2 User Functions Overview The 16 inputs of the BMX ERT 1604 T module can be individually preprocessed and transferred to the PLC as binary values counter values or events What Is in This Chapter This chapter contains the following sections Section Topic Page 2 1 Introduction 14 2 2 Discrete Input 16 2 3 Time Stamping Sub functions 21 24 Counter Function 43 EIO0000001 121 10 2014 13 User Functions Section 2 1 Introduction Main Functions Overview The BMX ERT 1604 T module has16 descrete inputs that can be configured with the following 3 main functions Counter This function co
34. 4 43 User Functions Counter hritiatization Reset Q counter Counting Continue from BMXERT field power last value failure asserted Stop counting Counter steps description Initialization Initialization is performed on following conditions e After application or configuration download of the BMX ERT 1604 T module including hot swap e Recovery after communication loss with CPU or BMX CRA 312 10 Stop counting The module only stops the counting after the field power failure is asserted 44 100000001121 10 2014 Chapter 3 Applications Overview This chapter describes different applications used in this BMX ERT 1604 T module What Is in This Chapter This chapter contains the following topics Topic Page Application Areas 46 Typical Applications 47 100000001121 10 2014 45 Applications Application Areas BMX ERT 1604 T Application Areas The following areas of application are valid for the BMX ERT 1604 T module Processing discrete input Use as a standard input module with filtering in the range of 24 125 Event time stamping The event of an individual process status can be logged with the corresponding time time stamp Time stamping provides information that allows you to observe and evaluate the sequence of events in your process Counter value Use as a standard I O module with filtering 32 bit summing with maximum 500 Hz with an input
35. 5 in each FB TIME_STAMP_RECORDS INT The number of Time Stamp IWr m 0 2 records in module buffer TS_DIAGNOSTIC_FLAGS INT Indicators providing diagnostic IWr m 0 3 information about the source time stamped events service TIME VALID BIT Time OK and synchronized Wr m 0 3 0 CLOCK_FAILURE BIT Same as ClockFailure 9olIWr m 0 3 1 Indication in the TimeQuality 100000001121 10 2014 111 Using BMX ERT 1604 T in a Modicon M340 Configuration Standard Symbol Type Meaning Address CLOCK NOT SYNC BIT Same as 0 3 2 ClockNotSynchronized Indication in the TimeQuality BUFF FULL BIT Buffer full 0 3 3 SOE UNCERTAIN BIT Variable to assign an SOE 9olWr m 0 3 7 uncertain Event ID UMAS communication error UMAS communication 0 3 9 detected error c 0 4 8 12 in each FB 9olIWr m c 3 Dechatter active BIT If any edges discarded by 9olWr m c 3 15 dechatter filter for any channels under this group TS BUF FILLED PCTAGE INT Percentage of the buffer filled 96IWr m 0 4 0 100 TS EVENTS STATE INT Main state of the TS events 9olWr m 0 5 service reserved Implicit Command Objects Q The following table shows the meaning of the implicit command objects Q Standard Symbol Type Access Meaning Address Clear event buffer EBOOL R W Clear event buffer 96 Qr m 0 0 Channel x clear counter
36. 500 1 min NOTE The calibration approach is required to achieve this accuracy The calibration takes 2 times of successful external synchronization to warm up The normal interval between each synchroni zation is 1 s for IRIG B and 1 min for DCF77 NOTE The event number contained in one group varies within 1 16 It depends on how many channels get the events occurred within same sampling window that is 0 5 ms 60 EIO0000001 121 10 2014 Module Description Discrete Input Data of the process inputs Channel Number 16 Group Organization 4 logical groups not isolated from each other Available Voltage Ranks 24 48 60 110 and 125 Input Type of 24 Vdc Type 2 1EC61131 2 48 Vdc and 60 Vdc Type 3 110 Vdc and 125 Vdc Not applicable 24 Vdc At 1 Voltage 11 30 V Current 6 7 mA At O Voltage lt 5V Current 2 9 mA 48 Vdc At 1 Voltage 30 60 V Current 2 5 At O0 Voltage 10V Current 2 5 mA 60 Vdc At 1 Voltage 39 75 V Current 2 5mA At O Voltage 12V Current 2 5 mA 110 Vdc At 1 Voltage 79 138 V Current 1 3mA At 0 Voltage lt 22V Current lt 1 3mA 125 At 1 Voltage 91 156 V Current 1 3mA At 0 Voltage lt 25V Current lt 1 3mA Maximum Input Voltage 156 Reverse Protection Yes 156 Vdc maximum Maximum Refreshing Rate 0 5 ms
37. EIO0000001121 04 BMX ERT 1604 T M340 ERT Module User Manual 10 2014 www schneider electric com Schneider Electric The information provided in this documentation contains general descriptions and or technical characteristics of the performance of the products contained herein This documentation is not intended as a substitute for and is not to be used for determining suitability or reliability of these products for specific user applications It is the duty of any such user or integrator to perform the appropriate and complete risk analysis evaluation and testing of the products with respect to the relevant specific application or use thereof Neither Schneider Electric nor any of its affiliates or subsidiaries shall be responsible or liable for misuse of the information contained herein If you have any suggestions for improvements or amendments or have found errors in this publication please notify us No part of this document may be reproduced in any form or by any means electronic or mechanical including photocopying without express written permission of Schneider Electric All pertinent state regional and local safety regulations must be observed when installing and using this product For reasons of safety and to help ensure compliance with documented system data only the manufacturer should perform repairs to components When devices are used for applications with technical safety requirements the relevant instruct
38. Input Filter Response 0 255 ms configurable EIO0000001 121 10 2014 61 Module Description Field Power Supply Data of the field power supply Allowed Supply Range 24 Vdc 19 30 V 48 Vdc and 60 Vdc 38 75 V 110 Vdc and 125 Vdc 88 156 V Power Failure Threshold 24 Vdc 17V 48 and 60 34V 110 Vde and 125 Vdc 82V Performance Power failure thresholds are always higher than 0 1 thresholds of discrete input Supply Current At all ranks lt 1mA NOTE The voltage level of field power supply must be consistent with what is selected in the configuration interface Power Dissipation Item Description Dissipation Module Power All channels with high level inputs for all the ranks 4W Time Code Inputs Data of the time code inputs IRIG B IRIG format IRIG B 000 Bit rate 100 pps Index count interval 10 ms Modulation Pulse width code Carrier No Coded expression BCDroy BCDygag CF and CBS Physical signal 5 Vdc differential RS 485 type Mark condition Va Vg gt 200 mV Space condition Vg VA gt 200 mV Maximum rating 10 V Transmitter sharable Upto 32 modules 62 100000001121 10 2014 Module Description DCF77 Bit rate 1 pps Index count interval 1000 ms Modulation Pulse width code Carri
39. Off Module operating normall Internal error module failure External error sensor voltage error Flashing Blinking Communication error if RUN LED is on or module non configured if RUN LED is off Module faulty or off No internal error No external error External time synchronized Channel at 1 External time temporarily lost Downloading firmware External error sensor voltage error External time invalid Channel at 0 IODDT T ERT TS MOD TS T DIS IN GEN DDDT DIS DDT T M DIS STS Objects Tab objects tab displays objects name and an area for comment It allows you to manage l O objects of the module by using the following functions Filter objects Sort I O objects Display I O objects with topological addressing Create an IODDT instance for the module Pre symbolize a set of IODDT variables EIO0000001 121 10 2014 85 Configuration of BMXERT Module DIG 161 24 125 VDC TSTAMP BMX ERT 1604 2 Channel 0 Time Stamping B Channel 4 Time Stamping Overview objects Bg Channel 8 Time Stamping VO variable creation Bg Channel 12 Time Stamping Prefix for name 1 ECHOS MOD as 3610 5 MOD ERR Type T GEN MOD MWO 5 MOD Create MW0 5 MOD 1 MWO 5 MOD 2 Objects KWO 5 0 1 KWO 5 0 2 Channel CH
40. T GetTsAbort NUMBER NbEventsToRead ModuleCmd DONE gt GetTsSuccessfull ERROR gt GetTsFaulty CMD ABORT CMD CTRLSTAMP RawBuffer CTRLSTAMP RawBuffer STATUS gt ErrorCode NB_EVT gt NbNewEvents GetTsAbort NUMBER NbEventsToRead TIMEOUT TimeToWait ACTIVE gt GetTsActive DIAG BUFF gt DiagBuffer BUFFER gt TimeStamp ModuleCmd DONE gt GetTsSuccessfull Description of the Parameters ERROR gt GetTsFaulty STATUS gt ErrorCode NB_EVT gt NbNewEvents This table describes the input parameters Parameter Type Comment ENABLE BOOL Set to 1 to send the request to the concerned module ADR ANY ARRAY INT Array containing the Modbus slave address Result of Result of ADDM function on a Modicon M340 CPU Result of ADDM function on a Modicon M580 CPU Result of ADDMX function on a Quantum or M580 CPU ABORT BOOL Set to 1 to abort the current operation NUMBER INT Maximum number of events to be read in the module local buffer TIMEOUT INT Maximum time to wait for the drop reply The time base for this parameter is 100 ms NOTE TIMEOUT 0 corresponds to an infinite waiting value CMD INT Set to O read the module buffer 1 reset the module buffer ENABLE GetTsEnable ENABLE GetTsEna
41. TS Events client sent in case of restart of the SCADA Virtual Event The virtual event in the buffer queue is not generated for a real external event it is provided to synchronize the values with the client The values of discrete channels will be put in the event value byte of virtual event instead of the event polarity rising or falling The TimeAccuracy bits denote virtual event by 11100 as the TSInit symbol to be distinguished from normal events 34 100000001121 10 2014 User Functions SOE UNCERTAIN The 0 1 transition of the implicit variable SOE UNCERTAIN indicates that Sequence Of Events SOE begins to be uncertain while the 1 0 transition signals when it is sure to be OK again The BMXERT module generates the virtual events include buffer full and free events according to the transition of this bit like it does at the transition of discrete input channel for a real event Parameter Type Parameter Name Valid Values Details Implicit I SOE UNCERTAIN 0 Certain Available in 1 Uncertain Device DDT IODDT Debug screen The transition of SOE UNCERTAIN will be applied for virtual event and buffer full free event SOE UNCERTAIN Transition Virtual Event Value Synchro Buffer full Free Event 021 if not already 1 When synchro request is received When buffer full is includes init synchro detected 1 gt 0 When entering event stamping state When entering event
42. TS INT R Exchange status MWr m c 0 EXCH IN PROGR BOOL R Status paramter read in progress MWr m c 0 0 RECONF IN PROGR BOOL R Reconfiguration in progress 9e MWr m c 0 15 EXCH RPT INT R Channel report 9o MWr m c 1 STS ERR BOOL R Detected error while reading 9e MWr m c 1 0 channel status RECONF ERR BOOL R Detected error while reconfiguring MWr m c 1 15 the channel CH_FLT INT R Standard channel errors MWr m c 2 EXT_PWS_FLT BOOL R External power supply inoperable MWr m c 2 0 error INTERNAL_FLT BOOL R Inoperable channel or module MWr m c 2 4 missing CONF_FLT BOOL R Inoperable hardware or software MWr m c 2 5 configuration error COM_FLT BOOL R Communication error with PLC MWr m c 2 6 114 EIO0000001 121 10 2014 Using BMX ERT 1604 T in a Modicon M340 Configuration T ERT TS The following table shows the meaning of T ERT TS IODDT Standard Symbol Type Access Meaning Language Object CH ERROR BOOL R Channel error lr m c ERR VALUE EBOOL R Channel input value lr m c 0 DECHATTER_ACT BOOL R Dechatter active 3 15 information visible on each TS channel of a group with the same value T DIS IN GEN The following table shows the meaning of T DIS IN GENIODDT Standard Symbol Type Access Meaning Language Object CH ERROR BOOL R Channel error lr m c ERR VALUE EBOOL R Counter input value lr m c 0 1
43. alled on a local rack main or extended for the local I O modules with e an M580 CPU e a Quantum CPU with a 140 CRP 312 00 It can also be installed on the following remote I O racks main or extended e M580 with a BM CRA 312 10 e Modicon X80 with a BMX CRA 312 10 adapter module e Quantum with a 140 CRA 312 00 NOTE The 2 EFBs are only available for an applicative time stamping see Unity Pro Operating Modes solution Description of the Function The TS EVT M function block gets the time stamped data in a BMX 1604 T module a local rack This function allows reading the event buffer in the source time stamped I O module the BMX ERT 1604 T and to make it available for the Modicon M340 PLC application TS M function block gets the time stamped data in 1604 T module in CRA 312 10 Ethernet remote module This function allows reading the event buffer in the source time stamped I O module an BMX CRA 312 10 or a BMX 1604 T and to make it available for the M580 PAC application The GET TS EVT OQ function block gets the time stamped data in a BMX CRA 312 10 Ethernet remote I O module or in BMX 1604 T module in a remote I O drop Quantum architecture This function allows reading the event buffer in the source time stamped I O module BMX CRA 312 10 or a BMX ERT 1604 T and to make it available for the Quantum PLC ap
44. alue 0 Steady state a signal change x 4 8 12 is only registered if the polarity change remains stable for longer than the filter time each new change resets the filter time default Value 1 Integrating a signal change is only registered the time integral of the input signal reaches the programmed filter time taking any polarity change into account Channel x Channel x used Option Value 0 Enable default Parameters Value 1 Disable impedes processing x 4 15 of input data for the input If disabled remains always 0 Channel x debounce Input Debounce time 0 255 ms default 1 time Value 0 Without internal SW delay Units ms 100000001121 10 2014 101 Configuration of BMXERT Module Configuring Group 1 2 3 for Counters Parameters Description Group 1 2 and 3 counters parameters DIG 161 24 125 VDC TSTAMP i Channel 4 Time Stamping Channel 8 Counter Channel 12 Discrete input Function Counter Task MAST a BERE TD m Configuration Channel 0 Time Stamping Dechatter filter Channel 8 used Channel 8 edge Channel 8 debounce time Channel 8 chatter count Channel 8 chatter time OD NO TH alae als Channel 9 used Channel 9 edge Channel 9 debounce time Enable l Both edges i Channel 9 chatter count Channel 9
45. ble 38 EIO0000001 121 10 2014 User Functions This table describes the output parameters Parameter Type Comment DONE BOOL Function block completed indication Set to 1 when the execution of the function block is completed successfully DONE is set to 1 when the maximum number of events is reached or when the buffer is full in STOP on buffer full mode ACTIVE BOOL Function block in progress indication Set to 1 when the execution of the function block is in progress ERROR BOOL Set to 1 if an error is detected by the function block STATUS WORD Code providing a communication and operation report e Byte 0 communication report e Byte 1 operation report DIAG BUFF ANY ARRAY INT Description e Byte 0 Percentage of buffer filled e Byte 1 Diagnostic flags e Bit 0 1 The time is OK and synchronized e Bit 1 1 Buffer is full events may be lost This occurs in the Overwrite mode some or all events since the last response has been overwritten The Overwrite mode is only available if the CRA 312 10 is in the Applicative mode and is not supported by the BMX ERT 1604 T e Bit 2 1 Buffer is full time stamping has stopped This occurs in the Stop When Full mode which is supported by the BMX ERT 1604 T and the BM CRA 312 10 in the System mode Any new events detected before reading the event buffer are lost Bit 3 1 The read request is the first one
46. by the application The ACTIVE DONE and ERROR parameters are read by the application To launch the communication function only once the ENABLE signal needs to be reset to 0 once the ACTIVE parameter is set to O If the ENABLE parameter is maintained to 1 once the ACTIVE parameter is set to 0 the communication function is launched again and the ACTIVE parameter will be set to 1 on the next cycle 42 100000001121 10 2014 User Functions Section 2 4 Counter Function Counter Function Overview Besides the basic counting functions the following sub functions are also available e Debounce filter Dechatter filter Enable Edge detection Supply monitor Counting Process This function provides a simple incremental counter with reset function If Both Edge option is selected both rising and falling edges will be counted Refer to the General Specifications see page 60 of counter function Parameter Type Symbol Valid Values Description Implicit Channel x counter value x 7 0 15 0 4294967295 Available in Device DDT IODDT Debug screen Implicit Channel x clear counter value x 0 15 Arising edge from 0 to 1 Available clears the counter Device DDT IODDT Debug screen NOTE The counter value is volatile after backplane power down The last counter value can be stored by user application 100000001121 10 201
47. dicators RUN ERR IO T 00 15 Meaning OFF The module is not receiving power or inoperable OFF ON OFF The module is not operational OFF BLK OFF OFF The module is not configured or is configuring its channels ON BLK OFF X Module has lost communication with CPU ON OFF ON X BLK Field power supply interruption BLK OFF OFF X Downloading firmware ON X X OFF X No external time code input ON X X FLK X External time code is temporarily unstable but internal time quality is acceptable ON X X ON X Module clock synchronized with external time code ON OFF OFF X ON The logical input 1 present on the corresponding channel ON LED is on OFF LED is off FLK The LED is on faster flashing flickering BLK The LED is slower flashing blinking X Do not care 58 100000001121 10 2014 Module Description Technical Data Compatibility BMX CPU Architecture CPU Reference Maximum Expert Maximum Channels CPU Number BMX ERT Modules CPU Local BMX P34 1000 20 4 Pchleoture BMXP342000 36 8 BMX P34 2010 36 8 BMX P34 20102 36 8 BMX P34 2010 36 8 BMX P34 2030 36 9 BMX P34 20302 36 9 NOTE 1 expert channel 1 ERT logical group NOTE For CPUs with a Modbus port 1 expert channel is occupied by Modbus 4 CAUTION UNEXPECTED BEHAVIOR OF APPLICATION In BMX CPU configuration use the ERT module with OS2 5 or later
48. e Value 2 Falling edge Channel x Input Debounce time 0 255 ms default 1 debounce time Value 0 Without internal SW delay Unit ms Channel x Input Chatter number 1 255 for event counter chatter count input default 1 Channel x Input Chatter filter time duration 1 255 x 100 chatter time ms default 71 Unit 100 ms 100000001121 10 2014 103 Configuration of BMXERT Module Section 6 4 Configuration in Project Settings Time and Mode Setting Time Zone and DST Setting The external time receivers provide the local time format year month day minute second according to the country The offsets for daylight saving time DST are different for different countries or zones The BMX ERT 1604 T module converts the local time to the standard time format which is specified in IEC 61850 ms from the UTC epoch of 1970 01 01 00 00 00 000 You must set the correct time zone and DST information in the Unity Pro interface After the application is created in Unity Pro click Tools Project Settings to display the Time tab as shown in the following figure Project Settings E Project Settings Property label Property value General Time Stamping Mode System Management of build messages Custom TimeZone Build settings Project autosaving on download Time Zone UTC 12 00 PLC embedded data Time Offset 0 PLC diagnostics Automatically adjust clock for daylight saving behavi
49. e in an Ethernet I O EIO drop is different from the local application What Is in This Part This part contains the following chapters Chapter Chapter Name Page 6 Configuration of BMX ERT 1604 T Module 79 7 Using BMX ERT 1604 T in a Modicon M340 Configuration 107 8 Using BMX ERT 1604 T in ERIO Drop WAT 100000001121 10 2014 77 BMXERT Software Implementation 78 100000001121 10 2014 Chapter 6 Configuration of BMX ERT 1604 T Module Overview This chapter describes the configuration of BMX ERT 1604 T module What Is in This Chapter This chapter contains the following sections Section Topic Page 6 1 Using BMX ERT 1604 T in Unity Pro 80 6 2 User Screen for BMX ERT 1604 T Module 82 6 3 Configuration Parameters for Channels 94 6 4 Configuration in Project Settings 104 EIO0000001 121 10 2014 79 Configuration of BMXERT Module Section 6 1 Using BMX ERT 1604 T in Unity Pro Inserting BMX ERT 1604 T in the Rack Versions Requirements Version V 7 0 or later OS V2 5 or later Component Unity Pro Modicon M340 processor Overview After creating an application with a Modicon M340 processor the BMX ERT 1604 T module can be inserted into any available slot except slot 0 on rack 0 Select an available slot and click New Device to open the catalog The BMX ERT 1604 T module is in Discrete family as displayed i
50. e same value T ERT TS MOD The following table shows the meaning of T ERT TS MODIODDT Standard Symbol Type Access Meaning Language Object CH ERROR BOOL R Channel error lr m c ERR VALUE EBOOL R Channel input value lr m c 0 TIME_STAMP_RECORDS INT R The number of Time Stamp records lWr m c 2 in module buffer 100000001121 10 2014 113 Using BMX ERT 1604 T in a Modicon M340 Configuration Standard Symbol Type Access _ Meaning Language Object TS DIAGNOSTIC FLAGS INT R Diagnostic information about the 9oIWr m c 3 Source time stamped events service TIME VALID BOOL R Time OK and synchronized 9oIWr m c 3 0 CLOCK FAILURE BOOL R Same as ClockFailure indication in lWr m c 3 1 the TimeQuality CLOCK NOT SYNC BOOL R Same as ClockNotSynchronized 9oIWr m c 3 2 indication in the TimeQuality BUFF FULL BOOL R Buffer full 9oIWr m c 3 3 SOE UNCERTAIN BOOL R Variable to assign an SOE 9oIWr m c 3 7 uncertain Event ID UMAS COM ERR BOOL R UMAS communication error Wr m c 3 9 DECHATTER_ACT INT R Dechatter active 9 3 15 TS BUF FILLED PCTAGE INT R Percentage of the buffer filled 9olIWr m c 4 0 100 TS EVENTS STATE INT R Main state of the TS events service IlWr m c 5 Debug purpose CLR EVENT BUF EBOOL R W Clear all event buffer only for TS Qr m c 0 applicative EXCH S
51. e server is the single precise time source for each PLC system The synchronized time sever distributes the time signal to each BMX ERT 1604 T module separately Engineer Station Operation Station Maintain Station GPS Satellite Time Server from 3rd Party M340 RIO M340 RIO 100000001121 10 2014 49 Applications 50 100000001121 10 2014 Part Il Physical Implementation Overview This part provides physical implementation of the BMX ERT 1604 T module What Is in This Part This part contains the following chapters Chapter Chapter Name Page 4 Module Description 53 5 Guidelines for the Physical Installation 65 EIO0000001 121 10 2014 51 Physical Implementation 52 100000001121 10 2014 Chapter 4 Module Description Overview This chapter provides general information on presentation mounting specification and wiring of the BMX ERT 1604 T module What Is in This Chapter This chapter contains the following topics Topic Page Overview 54 Field Wiring 55 Diagnosis 58 Technical Data 59 EIO0000001 121 10 2014 53 Module Description Overview Introduction The BMX ERT 1604 T module is a multifunction expert module with 16 channel discrete input This module is suitable for the evaluation of discrete input counter pulses and ev
52. e stamping mode option must be selected according to the customer use case System When OPC OFS by Schneider for example is used to communicate with the SCADA Applicative default When Modbus TCP is used to communicate with the SCADA 100000001121 10 2014 105 Configuration of BMXERT Module 106 100000001121 10 2014 Chapter 7 Using BMX ERT 1604 T in a Modicon M340 Configuration Overview This chapter describes the use of BMX ERT 1604 T in a Modicon M340 configuration What Is in This Chapter This chapter contains the following topics Topic Page Introduction of Language Objects 108 Details of the Language Objects of the IODDT of Type T GEN MOD 109 Language Objects for Channels 110 IODDTs 113 EIO0000001 121 10 2014 107 Using BMX ERT 1604 T in a Modicon M340 Configuration Introduction of Language Objects Language Object Types Each IODDT contains a set of language objects allowing its operation to be controlled and checked There are two types of language objects e Implicit Exchange Objects These objects are automatically exchanged on each cycle revolution of the task associated with the module They correspond to inputs outputs of the module measurement results information and commands e Explicit Exchange Objects These objects are exchanged on the application s request using explicit exchange instructions 108 100000001121 10 2014 Using BMX
53. ecting the terminal block Failure to follow these instructions will result in death or serious injury WARNING UNEXPECTED BEHAVIOR OF APPLICATION Code the terminal block as described above to prevent the terminal block from being mounted on another module Plugging the wrong connector could cause unexpected behavior of the application Failure to follow these instructions can result in death serious injury or equipment damage A CAUTION DESTRUCTION OF THE MODULE Code the terminal block as described above to prevent the terminal block from being mounted on another module Plugging the wrong connector could cause the module to be destroyed Failure to follow these instructions can result in injury or equipment damage NOTE The module connector has indicators which show the proper direction to use for terminal block installation 100000001121 10 2014 71 Physical Installation Connecting 28 pin Terminal Block Overview The BMX ERT 1604 T module uses the 28 pin removable terminal block There are 2 types of 28 pin terminal blocks e BMXFTB2800 caged terminal blocks e BMXFTB2820 spring terminal blocks Cable Ends and Contacts Each terminal block can accommodate e Solid core wire e Flexible stranded wire e Wire with DZ5 CE type cable ends Description of the 28 pin Terminal Block The following figure shows the BMX ERT 1604 T module and 28 pin removable terminal block
54. els configuration for group 0 time stamping 94 configuration for group 1 2 3 discrete in put without time stamping 94 configuration for group 1 2 3 for counters 94 configuration for group 1 2 3 time stamp ing 94 main function configuration 94 counter function 43 D debounce filter 19 discrete input debounce filter 16 enable 16 multi voltage and supply monitor sub functions 16 functional overview introduction 9 typical application areas 9 user functions 9 G guidelines for the physical installation connecting 28 pin terminal block 72 installing the BMXERT1604T module 66 inserting BMX ERT 1604 T Unity Pro 80 IODDT 113 main functions 14 Modicon M340 language objects 107 IODDT 107 module configuration 82 module description diagnosis 53 field wiring 53 overview 53 technical data 53 module overview 11 EIO0000001 121 10 2014 121 Index p physical installation 28 pin terminal blocks 65 accessories 65 BMX ERT 1604 T module 65 fitting 28 pin terminal blocks 65 S software implementation BMX ERT 1604 T in ERIO drop 77 BMX ERT 1604 T in Modicon M340 con figuration 77 configuration of BMX ERT 1604 T mod ule 77 DIS IN GEN 113 T M DIS ERT 117 T M DIS ERT CH 117 T M ERT FAULT 117 T M TIME SYNC 117 time stamping behavior mode 21 dechatter filter 21 edge detection 21 EFB 21 event storage 21 time synchronization 21 time zo
55. ents Front View of the Module 1 Module 2 28 removable terminal block provided separately 54 100000001121 10 2014 Module Description Field Wiring Overview The BMX ERT 1604 T module uses one 28 pin terminal block BMXFTB2820 or BMXFTB2800 This section describes the terminal pinning and wiring examples Field Sensors The 16 channel discrete input support sensor signals from mechanical switching devices operating in normal environmental conditions such as relay contacts limit switches push buttons 3 wire and 2 wire proximity switches The sensor interface of BMX ERT 1604 T module is designed base on the following rules Rank Input Type 24 Vdc IEC type 2 48 Vdc IEC type 3 60 Vdc 110 Ugre max 22 V 79 V 138 V loer max 1 2 mA 125 25 V 91 V 156 V lopp max 1 25 mA Time Code Sources IRIG B 000 The module receives external time codes in the IRIG B 000 format through terminal block For detailed description of IRIG B 000 format refer to the RIG Standard 200 04 The physical signal of the time receiver output must be 5 Vdc differential type The specifications for the external transmitter are as follows e 1 external source is allowed to drive up to 32
56. er No Coded expression BCD Physical signal 24 Vdc single ended Mark space threshold 13V Input current 3 6mA Maximum rating 30 V Transmitter sharable Sharing number Source capability 3 6 mA CAUTION UNEXPECTED BEHAVIOR OF APPLICATION Wiring a DCF77 source wrongly to IRIG B port will damage the BMX ERT 1604 T module Failure to follow these instructions can result in injury or equipment damage Environmental Specifications All parts are designed e forthe operating range of 25 70 C 13 158 F e to operate at an altitude up to 4000 m 13123 ft EIO0000001 121 10 2014 63 Module Description 64 100000001121 10 2014 Chapter 5 Guidelines for the Physical Installation What Is in This Chapter This chapter contains the following topics Topic Page Installing the BMX ERT 1604 T Module 66 Fitting 28 pin Terminal Blocks 68 Connecting 28 pin Terminal Block 72 Accessories 75 EIO0000001 121 10 2014 65 Physical Installation Installing the BMX ERT 1604 T Module Overview The BMX ERT 1604 T module is powered by the backplane bus The modules may be handled without turning off power supply to the rack without causing any danger and without any risk of damage or disturbance to the PLC The fitting operations installation assembly and disassembly are described as follows Installation Precautions Before i
57. event data sequence immediately For more details refer to the Behavior Mode see page 33 section The SOE uncertain ID is 16 under applicative solution mode For more details refer to the Event ID see page 30 topic Clear event buffer A rising edge from 0 to 1 of this command implicit clears the whole event buffer This parameter is only available for the applicative time stamping mode see page 105 NOTE The Clear event buffer command must be used to clear the event buffer before the BMX ERT 1604 T module is reassigned to new application Otherwise the remaining event data of last application can be kept in the buffer 32 EIO0000001 121 10 2014 User Functions Behavior Mode Overview This section describes the module behavior modes for different phases or use cases It involves the buffer management the special features for system solution and so on Time Stamping Application Configuration download Module level CBG NO Clear Buffer UMAS request or Q Applicative changed Await client read ReadVarList Y TS Events Virtual event with 16 ch discrete values Event occurs Buffer full Freeze discrete values Stop event detection a Buffer full event Buffer free event Default discrete value 0 Freeze discrete System solution last state Applicative solution 1 event compared
58. hich denotes the synchronization status acts base on the combination of these parameters Clock CLOCK FAILURE CLOCK NOT SYNC TIME VALID LED SYNC green Source IRIG B or 0 0 1 ON DCF77 IRIG B or 1 0 0 FLK DCF77 IRIG B 1 1 0 OFF DCF77 Internal 0 1 0 Clock NOTE Any status of the time quality bits TIME VALID CLOCK FAILURE CLOCK NOT SYNC will not stop the event recording for BMX ERT 1604 T module 26 100000001121 10 2014 User Functions NOTE With an IRIG B external clock if IEEE1344 or IEEE C37 118 standards are not supported then CLOCK FAILURE and CLOCK NOT SYNC bits can be set to 1 during the switch between daylight saving time and standard time NOTE In any case 13 seconds IRIG B external clock or 13 minutes DCF77 external clock after Switch between daylight saving time and standard time stamping time is synchronized with the external clock regardless the error bits status Once synchronized CLOCK FAILURE and CLOCK NOT SYNC bits are reset 100000001121 10 2014 27 User Functions Event Storage Event Data Format A dedicated FIFO block provides space for storage and transfer of the event information The event data includes the information of edge polarity rising or falling event ID and time quality The following table describes the FIFO space distributed for a time stamp data unit
59. ialization till the first successful synchronization with the external clock EIO0000001 121 10 2014 25 User Functions Clock Failure An error message bit activates if the module detects that the time frame is invalid When the external clock source is selected an error message bit is asserted and the external time clock is detected as invalid The following conditions are considered invalid time frames when e The wrong mark space ratio for O or 1 signaling e The wrong mark space ratio for reference bit signaling e The wrong check bit provided by DCF or IRIG e The time frames are not continuous This bit is cleared when a valid time frame is received and is continuous to current internal time The initial value will be 1 after start NOTE When the free running internal clock option is selected CLOCK FAILURE always keeps 0 Clock Not SYNC When the external clock source is selected the synchronizing effort reaches 10 s IRIG B or 10 ms DCF 77 without success this bit is asserted to declare the CLOCK SYNC And it will be cleared once the time is synchronized After initialization this bit keeps 1 till the first successful synchronization NOTE When the free running internal clock option is selected CLOCK NOT SYNC always keeps 1 Time Valid The value of this bit is decided by Clock SYNC source option and the state of CLOCK FAILURE and CLOCK NOT SYNC bits The T LED on the display panel w
60. iew of the BMX ERT 1604 T module a SPI NVRAM Time MCU 3 decoder timer g o 8 Year Month Day Millisecond a Hour Minute 2 Enable amp Edge Chatter IEC Time On chip Debounce recognition filter stamping RAM g F IEC time format c E ime forma a from UTC epoch o O S 2 o 3 o V m 100000001121 10 2014 15 User Functions Section 2 2 Discrete Input Overview This section describes discrete input function of the BMX ERT 1604 T module In discrete input the basic value of each channel is transferred to the CPU by an implicit variable Parameter Parameter Name Valid Values Details Type Input implicit Channel x value x 0 15 0 Logical level 0 Available in 1 7 Logical level 1 Device DDT e IODDT Debug screen What Is in This Section This section contains the following topics Topic Page Disable 17 Multi voltage and Supply Monitor Sub functions 18 Debounce Filter 19 16 100000001121 10 2014 User Functions Disable Overview The feasibility is given to disable each discrete input channel Parameter Symbol Valid Values Description Configuration Channel x used x 0 15 0 Enable default Effective range Channel 1 Disable Organization Each group NOTE The discrete input value of disabled channel keeps 0
61. implicit variable presenting the input state for each channel The time stamping function also uses the following sub functions e Dechatter filter e Time synchronization e Event storage What Is in This Section This section contains the following topics Topic Page Edge Detection 22 Dechatter Filter 23 Time Synchronization 25 Event Storage 28 Behavior Mode 33 EFB for BMX ERT 1604 T Module 36 EIO0000001 121 10 2014 21 User Functions Edge Detection Overview The BMX ERT 1604 T module can detect the edge of state change on each discrete input channel For time stamping function the module always detects both rising and falling edges Parameter Type Parameter Valid Values Description Symbol Configuration Channel x edge 0 Both default Effective range Channel 0 15 1 Rising Only for Organization Each group counter 2 Falling Only for counter The following figure shows the input processing Input T enable Discrete input Input gt Debounce Filter re T Counter Edges Chatter Counter T input Recognition Filter ounter Event Logging Event Time input Stamping 22 EIO0000001 121 10 2014 User Functions Dechatter Filter Overview The dechatter function limits the number of events within a configurable value during a configurable time period This fi
62. in big capacity hydro turbine control market This architecture has the following features Standalone Quantum CPU or HSBY Quantum CPU head Bumpless switch over when HSBY system required which has the same performance as the Quantum S908 HSBY system Power supply DI and DO in 24 Vdc 8 channel RTD signal acquisition module Time stamping module with 1 ms resolution Modbus RS 485 or Modbus Plus communication with local serial line devices Dual Modbus TCP Ethernet communication between LCU Local Control Unit and SCADA 100000001121 10 2014 47 Applications To SCADA Modbus TCP Quantum HSBY Quantum Standalone M340 RTU Configuration This architecture is designed to target the substation RTU applications with following features e Power supply DI and DO range from 24 125 Vdc the modules from Apollo project have supported the voltage range from 88 to 150 Vdc Time stamping module with 1 ms resolution IEC 611131 2 zone C and IEC 61000 6 5 certification Modbus RS 485 or Modbus communication with local serial line devices RTU protocol supported with DNP 3 0 IEC 60870 5 101 IEC 60870 5 104 and Modbus TCP To SCADA DNP3 0 IEC 60870 104 Modbus TCP 7 1 m CPS P34 NOR pp DDI DDI DRA AMI 3540 EE RT 1604 1604 0804 0800 Modbus SL ud CS 48 E100000001121 10 2014 Applications External Time Synchronization The external time synchronization from 3 9 party tim
63. ions must be followed Failure to use Schneider Electric software or approved software with our hardware products may result in injury harm or improper operating results Failure to observe this information can result in injury or equipment damage 2014 Schneider Electric All rights reserved EIO0000001 121 10 2014 Table of Contents Safety Information R 5 About the BOOK 7 Part Functional Overview 9 Chapter 1 Introduction 11 Module Overview llle 11 Chapter 2 User FunctionS 13 2 1 Iniroductlon icu darum dee ROE dus aou ta cr eee me 14 Main Functions sseeeee RR 14 2 2 Discrete Input 0 000 eee 16 Disable s ge 17 Multi voltage and Supply Monitor Sub functions 18 Debounce Filter 2 0 0 00002 eee 19 2 3 Time Stamping Sub functions 21 Edge Detection x poe enn DER kaw XU RR eee 22 Dechatter Fiter e ARR RR Pa EE eave ane 23 Time 0000 ccc eee eee 25 Ev nt Storage hee we ee eh a ie es 28 Behavior Mode 0c cece eee 33 EFB for ERT 1604 T Module 36 2 4 Counter Function 0 0 0 eee 43 Counter Function 0 0 0 0 te ees 43 Chapter 3 Applications
64. isplayed only when channel fault detected online DIG 161 24 125 VDC TSTAMP E BMX ERT 1604 Channel O Time Stamping Configuration Debug Faut Channel 4 Time Stamping Channel 8 Time Stamping Label Symbol Value Unit a Channel 12 Time Stamping 0 Supply Monitoring Enable 100000001121 10 2014 83 Configuration of BMXERT Module Difference between in EIO Drop and in Local In a Quantum EIO application the online display tabs are suppressed Also the I O objects tab and IODDT are replaced by a device DDT The following table shows the different tabs accessed for the module configuration when it is used in a local M340 application and in a remote Quantum EIO application Item Local Application Quantum EIO Application Offline and Online Overview Overview Configuration Configuration Online Debug Fault Object management I O objects Device DDT IODDT 84 EIO0000001 121 10 2014 Configuration of BMXERT Module Module Configuration Overview Tab Overview 16 sink inputs 24 125 VDC time stamp module SPECIFICATIONS Voltage Modularity IEC 60131 2 conformity Time stamp resolution Event buffer capability VISUAL INDICATORS Continually lit 24 VDC 48 VDC 60 VDC 110 VDC 125 VDC 16 channels Type 2 for 24 VDC Type 3 for 48 60 VDC None for 110 125 VDC 1ms 255 groups
65. ive channels x2 BIT Unused x3 BIT Module in self tests x5 BIT CONF FLT Hardware or software configuration detected error x6 BIT NO MOD Module missing or off EIO0000001 121 10 2014 87 Configuration of BMXERT Module Channel Fault Tab This tab is displayed when there is a detected error of the channel and a red dot is shown with the channel item DIG 161 24 125 VDC TSTAMP O E BMX ERT 1604 f ey 0 Configuration i Debug amp Fault Channel 4 Time Stamping fault External fault Other fault Channel 8 Time Stamping External Fault on Inputs Channel 12 Time Stamping z STRID_MB_FIELD_SUPPLY_ LOW_VOLTAGE Channel Fault Parameters Type Symbol Description EXTERNAL CH_ERROR External detected error on inputs INTERNAL INTERNAL_FLT Inoperative channel INTERNAL CONF_FLT Hardware or software configuration detected error INTERNAL COM FLT Module missing or off detected error communication with PLC EXTERNAL EXT PWS FLT Power supply detected error for supply monitoring 88 100000001121 10 2014 Configuration of BMXERT Module Group 0 Debug Tab Debug tab DIG 161 24 125 VDC TSTAMP E BMX ERT 1604 S Channel 0 Time Stamping Channel 4 Counter Q9 Channel 8 Counter Channel 12 Discrete input Function Task T PLC bus BB 03 BMXE Reference
66. l address of the channel e 0 15 for channel x event ID e 16 for SOE uncertain event ID NOTE Except the event ID for discrete channels in case of buffer full this event ID in the event buffer is loaded by SOE uncertain event ID to denote a buffer full or free event For more details refer to the Behavior Mode see page 33 section Event FIFO Management The planned space for event storage is limited You must consider an overflow buffer to handle conditions where the incoming rate of event bursts are greater than the event acquisition rate The following configuration and status parameters can be used to manage the overflow issues Parameter Type Symbol Valid Values Unit Description Configuration Buffer threshold Fixed by 70 Effective range Module Organization Group 0 Configuration SOE uncertain event ID Read only and Effective range Module assigned by Organization Group 0 system Status TIME STAMP RECORDS 0 Full value Available in Implicit Device DDT IODDT Debug screen Status BUFF FULL 0 No full Available in Implicit 1 Full Device DDT IODDT Debug screen Status TS BUF FILLED PCTAGE 0 100 Available in Implicit Device DDT IODDT Debug screen Status UMAS communication error 0 No error Available in Implicit 1 Error DDT Device IODDT Debug screen Command Clear event buffer Arising edge Available in Implicit from 0 to 1 Device DDT clears the IODDT
67. le What Is in This Section This section contains the following topics Topic Page User Screen Overview 83 Module Configuration 85 User Screen in Online Mode 87 82 EIO0000001 121 10 2014 Configuration of BMXERT Module User Screen Overview Overview To access the module screen double click the device bitmap in a slot and then click BMX ERT 1604 T This displays a module zone which includes a general parameter zone and available tabs The general parameter zone displays the module name BMX ERT 1604 T on the left corner of the module screen The general parameter zone displays 4 secondary options allowing you to select the input group you want to configure e Channel 0 3 displayed as Channel 0 e Channel 4 7 displayed as Channel 4 e Channel 8 11 displayed as Channel 8 Channel 12 15 displayed as Channel 12 The 3 tabs available for the module are as follows e Overview e 1 0 objects e Fault displayed only when module fault detected online DIG 161 24 125 VDC TSTAMP O Run ERR IO BMX ERT 1604 ae T Time Stamping Overview E 10 objects Channel 4 Time Stamping a Eg Channel 8 Time Stamping 1 0 variable creation Address Type Comment Channel 12 Time Stamping Prefix for name The 3 tabs available for the channels by group are as follows e Configuration e Debug online local rack only e Fault d
68. lter reduces the number of event registrations for the same input so that events such as low slew rate inputs should not disturb the recording of desired events The dechatter filter requires the following 2 configurable parameters Chatter Counter C This value defines the first count C number of edges recorded Edges received after this count C reached within a specified duration T are discarded The value range is from 1 255 Chatter Time T This value defines the duration for chatter time The first rising or falling edge or the first edge after the end of last T confirms the beginning of current chatter time Within the configured T only C number of edges is recorded The value range is 1 255 where each number represents an unit of 100 ms that is 0 1 25 5 s The following figure shows the dechatter filter Dechatteringz Yes Both Edge Yes Chattering Count 3 Chattering Time 2 x100 ms 200 ms 200 ms Single Input T z z Events Discarded z 2 mro aS om 2 The following table describes the parameters and is provided with enable bit to activate or deactivate the dechatter filter Parameter Type Parameter Valid Unit Description Symbol Values Configuration Chatter count 1 255 Effective range Channel default 1 Organization Each group Configuration Chatter time 1 255 100ms Effective range
69. mber Definition 17 14 13 l6 I9 16 15 18 111 18 17 110 113 20 19 112 115 22 21 114 NC 24 23 NC UB 26 25 OVDC UB 28 27 OVDC A WARNING UNEXPECTED BEHAVIOR OF APPLICATION The wrong wiring will cause death serious injure or equipment damage Failure to follow these instructions can result in death serious injury or equipment damage Wiring Diagram The following figure shows the wiring diagram of the BMX ERT 1604 T module GPS IRIG Receiver IRIG DCF77 DCF IN Receiver COM 10 115 UB OVDC NOTE The field power supply see page 62 connected to UB and OVDC pins is an auxiliary power supply different from the main power supply 100000001121 10 2014 57 Module Description Diagnosis Overview The LED panel is used to indicate the basic module status the state of 16 channel discrete input and the state of the time code synchronization The 4 LEDs RUN ERR I O and T are on the top of the panel LED Indicators The following figure shows the LED indicators of the BMX ERT 1604 T module RUN ERR I O T The 00 15 LED indicate the input states of 16 channel discrete input The T LED indicates the status of time code input The T LED and the RUN LED indicate the downloading state during the firmware downloading phase Description of Indication Pattern The following table describes the LED in
70. n the following figure New Device Topological Address Part Number Amb 5 Communication Counting Discrete 1 te BMX DAI 0805 BMX DAI 1602 BMX DAI 1603 BMX DAI 1604 BMX DAO 1605 Description Dig 81220 Vac Dig 161 24 Vac 24 Source Dig 16148 Vac Dig 161 100 to 120 Vac Dig 16 0 Triacs BMX DDI 1602 BMX DDI 1603 BMX DDI 1604 BMX DDM 16022 7 BMX DDI3202K BMX DDI 6402K Dig 161 24 Vdc Sink Dig 161 48 Vdc Sink Dig 161 125 Sink Dig 32124 Vdc Sink Dig 64124 Vdc Sink Dig 81 24 Vdc 80 Source Tr BMX DDM 16025 BMX DDM 3202K Dig 81 24 Vdc 80 Relays Dig 161 24 Vdc 16Q Sour Tr BMX DDO 1602 BMX DDO 1612 Dig 16Q Trans Source 0 5A Dig 16 0 Trans Sink BMX DDO 3202K BMX DDO 6402K _ 1 Dig 320 Trans Source 0 14 Dig 64Q Trans Source 0 1A BMX DRA 0804 Dig 8Q 125 Vdc BMX DRA 0805 Dig 8Q Isolated Relays BMX DRA 1605 Dig 16Q Relays 1604 DIG 161 24 125 VDC TSTAMP v The device fits in 1 slot in the rack 80 EIO0000001 121 10 2014 Configuration of BMXERT Module BMX P34 2020 02 50 v EIO0000001 121 10 2014 81 Configuration of BMXERT Module Section 6 2 User Screen for BMX ERT 1604 T Module Overview This section describes the configuration screen for BMX ERT 1604 T modu
71. ne To access this information online Step Action 1 Go to the Schneider Electric home page www schneider electric com 2 In the Search box type the reference of a product or the name of a product range Do not include blank spaces in the model number product range To get information on grouping similar modules use asterisks 3 If you entered a reference go to the Product Datasheets search results and click on the reference that interests you If you entered the name of a product range go to the Product Ranges search results and click on the product range that interests you 4 If more than one reference appears in the Products search results click on the reference that interests you Depending on the size of your screen you may need to scroll down to see the data sheet 6 To save or print a data sheet as a pdf file click Download XXX product datasheet The characteristics that are presented in this manual should be the same as those characteristics that appear online In line with our policy of constant improvement we may revise content over time to improve clarity and accuracy If you see a difference between the manual and online information use the online information as your reference EIO0000001 121 10 2014 7 Related Documents Title of Documentation Reference Number Quantum EIO System Planning Guide 51 48959 Eng S1A48961 Fre 51 48962 Ger 51
72. ne and DST settings 104 typical applications 47 U Unity Pro inserting BMX ERT 1604 T 80 user functions counter function 13 discrete input 13 introduction 13 time stamping 13 user screen online mode 82 overview 82 122 EIO0000001 121 10 2014
73. nel 8 9 10 or 11 group 2 channel 12 13 14 or 15 group 3 92 100000001121 10 2014 Configuration of BMXERT Module Group 1 2 and 3 Counter Debug Tab Groups 1 2 and 3 counter debug pages DIG 161 24 125 VDC TSTAMP 5 ERT 1604 Channel 0 Time Stamping Q9 Channel 4 Counter Channel 8 Counter Channel 12 Discrete input Function Task PLC bus E 0 3 BMX E itt Configuration t Debug Reference Label 6 01W0 34 3 15 Dechatter active 10 96Q0 34 0 Channel 4 C ear counter value 11 961D0 3 4 0 Channel 4 counter value 12 Q0 3 5 0 Channel 5 lear counter value 13 9600 3 5 0 Channel 5 counter value 44 9 0060 Channel 6C ear counter value 15 100 3 6 0 Channel 6 counter value 16 Q0 3 7 0 Channel 7 ear counter value 17 100 3 7 0 Channel 7 counter value Symbol Vale IW0 3 4 3 15 No 0 3 4 0 900 340 00350 1D0 3 5 0 Q0 3 6 0 ID0 3 6 0 Q0 3 7 0 ID0 3 7 0 The parameters for group 1 2 3 debug page for counter is listed the following table Object Type Label Description Dr m x 0 DINT Channel x counter value Channel x counter value X 4 5 6 7 group 1 or 8 9 10 11 group 2 or 12 13 14 15 group 3 9oQr m x 0 EBOOL Channel x clear counter value Channel x clear counter value IWr m x 3 INT TS DIAGNOSTIC FLAGS 4 8
74. nsion only CH FLT EXT BOOL R Inoperative channel s Fipio extension only MWr m MOD 2 9 BLK_EXT BOOL R Terminal block incorrectly wired Fipio extension MWr m MOD 2 10 only CONF EXT BOOL R Hardware or software configuration anomaly Fipio MWr m MOD 2 13 extension only NO MOD EXT BOOL R Module missing or inoperative Fipio extension only MWr m MOD 2 14 EIO0000001 121 10 2014 109 Using BMX ERT 1604 T in a Modicon M340 Configuration Language Objects for Channels Overview This section provides the detailed list of channel objects implicit and explicit variables for BMX ERT 1604 T module Channel Objects The following table shows the meaning of the channel objects Standard Symbol Type Meaning Language Object Language element of channel level 96CHr m c used for explicit exchanges READ STS CH ERROR BOOL Channel detected error bit when this lr m c ERR bit is at 1 Exchange Status STS The following table shows the meaning of channel exchange status bits from the STS channel MWr m c 0 Standard Symbol Type Meaning Language Object STS IN PROGR BIT If 1 exchange in progress for MWr m c 0 0 READ STS RECONF IN PROGR BIT If 1 indicates a reconfiguration MWr m c 0 15 channel c of the module from the console modification of the configuration parameters cold start up of the channel Exchange Re
75. nstalling a module take off the protective cap from the module connector located on the backplane DANGER ELECTRICAL SHOCK e If the terminal block is connected to a shield bar while mounting removing the modules make sure that the terminal block is still connected to the shield bar e Remove the power to the sensors and pre actuators e Disconnect the terminal blocks Failure to follow these instructions will result in death or serious injury Installation The following figure shows the BMX ERT 1604 T module mounted on the rack 1 BMXERT 1604 T module 2 Standard rack 66 100000001121 10 2014 Physical Installation Installing the Module on the Rack The following table describes the procedure for mounting the counting modules in the rack Step Action Illustration 1 Position the locating pins situated at the rear of the module on the bottom part in the corresponding slots in the rack Swivel the module towards the top of the rack so that the module sits flush with the back of the rack It is now set in position Steps 1 and 2 Tighten the safety screw to ensure that the module is held in place on the rack Tightening torque Maximum 1 5 Nem Step 3 EIO0000001 121 10 2014 67 Physical Installation Fitting 28 pin Terminal Blocks Overview BMX ERT 1604 T module with 28 pin terminal block connection requires terminal block to be c
76. onnected to the module These fitting operations assembly and disassembly are described below Installing the 28 pin Terminal Block The following figure shows the procedure for assembling the 28 pin terminal block onto a BMX ERT 1604 T module 000707770759 log The following table describes the assembly procedure of the 28 pin terminal block onto a BMX ERT 1604 T module Step Action 1 Once the module is in place on the rack install the terminal block by inserting the terminal block encoder the rear lower part of the terminal into the module s encoder the front lower part of the module as shown above 2 Fix the terminal block to the module by tightening the 2 mounting screws located on the lower and upper parts of the terminal block Tightening torque 0 4 0 30 Ib ft NOTE If the screws are not tightened there is a risk that the terminal block will not properly fix to the module 68 100000001121 10 2014 Physical Installation Coding the 28 Pin Terminal Block When a 28 pin terminal block is installed on a module dedicated to this type of terminal block you can code the terminal block and the module using studs The purpose ofthe studs is to prevent the terminal block from being mounted on another module Incorrect insertion can be avoided when replacing a module Coding is done by the user with the STB XMP 7800 guidance wheel s studs You can only fill the 6
77. or Group 1 2 Time Stamping 98 Configuration for Group 1 2 3 Discrete Input Without Time Stamping 100 Configuring Group 1 2 Counters 102 64 Configuration in Project Settings 104 Time and Mode Setting 104 Chapter 7 Using BMX ERT 1604 T in a Modicon M340 Configuration tendency aio eR E Y uc e rae 107 Introduction of Language Objects 108 Details of the Language Objects of the IODDT of Type T GEN MOD 109 Language Objects for Channels 110 IODDTS z uerb rac ets sites RET s 113 Chapter 8 Using 1604 T in ERIO Drop 117 Device DDTs in 1604 117 ir d er 121 EIO0000001 121 10 2014 Safety Information G Important Information NOTICE Read these instructions carefully and look at the equipment to become familiar with the device before trying to install operate or maintain it The following special messages may appear throughout this documentation or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure electrical hazard exists which will result in personal injury if the instructions are not p The addition of this symbol to a Danger or Warning safety label indicates that an followed haza
78. otSynchronized 1 or if ClockFailure 1 the TimeAccuracy still keeps its usual value as if the Clock is synchronized Time accuracy is also used to set specific values of TimeQuality as described in the following table TimeAccuracy Values Comments Specific Values Invalid 0 11110 Used in case of buffer full IO Channel error 0 11101 Usedin case of IO Channel error detection TSInit 0 11100 Used case of synchronization of the values with the client done by storing a virtual event with 16 ch discrete values inside the buffer ClockInSync 0 11011 Used in case of external clock during synchronization If several errors are detected the precedence of TimeAccuracy specific values are 1 TimeAccuracy lt IOChannelError highest prioritority 2 TimeAccuracy Invalid or TSInit 3 TimeAccuracy lt ClockInSync 4 TimeAccuracy lt Unspecified Event ID Under system solution configuration the event ID is assigned for each channel by the system to identify which channel the event belongs to So that this ID will be packed together with the event data package Parameter Type Symbol Valid Values Description Configuration Channel x event ID Read only Effective range Channel x 0 15 Organization Each group 30 100000001121 10 2014 User Functions Under application solution the event ID will be replaced by the topologica
79. our START Daylight Saving Month March Time START Daylight Saving Day of the week Sunday Variables START Daylight Saving Occurence 1 Program END Daylight Saving Month November Languages Common FBD END Daylight Saving Occurence 1 Mixed display SFC END Daylight Saving Day of the week Sunday el gt TETEL You can select the required time zone by using this interface If the listed time zone options do not meet your requirements the Time Offset can be used to set the minutes offset from UTC To enable this function check the Custom Timezone box 104 EIO0000001 121 10 2014 Configuration of BMXERT Module NOTE The daylight saving time configuration in the Project Settings window is not applicable to the BMX ERT 1604 T module The BMX ERT 1604 T module always gets the daylight saving time to standard time switch information from the external clock IRIG B or DCF77 regardless of the DST settings in the Project Settings window NOTE An IRIG B external clock must support IEEE1344 or IEEE C37 118 standard extension definition for DST information in order to maintain time accuracy during the switch between daylight saving time and standard time Solution Mode Setting The module configuration of solution mode option for BMX ERT 1604 T is done by the Time Stamping Mode option in previous interface The available options are system and applicative The solution mode tim
80. plication The additional parameters EN and ENO can be configured 36 EIO0000001 121 10 2014 User Functions FBD Representation Representation GET TS EVT X Instance GET TS EVT X RawBuffer CTRLSTAMP CTRLSTAMP RawBuffer ENABLE DONE GetTsSuccessfull ModuleAddress ADR ACTIVE GetTsActive GetTsAbort ABORT ERROR GetTsFaulty NbEventsToRead NUMBER STATUS ErrorCode TimeToWait TIMEOUT DIAG BUFF DiagBuffer ModuleCmd CMD BUFFER TimeStamp NB EVT NbNewEvents LD Representation Representation GET TS EVT X Instance GET TS EVT X EN RawBuffer CTRLSTAMP CTRLSTAMP RawBuffer GetTsEnable ENABLE DONE GetTsSuccessfull ModuleAddress ADR ACTIVE GetTsActive GetTsAbort ABORT ERROR GetTsFaulty NbEventsToRead NUMBER STATUS ErrorCode TimeToWait TIMEOUT DIAG BUFF DiagBuffer ModuleCmd CMD BUFFER TimeStamp NB EVT NbNewEvents 100000001121 10 2014 37 User Functions IL Representation Representation CAL GET TS TIMEOUT TimeToWait ACTIVE gt GetTsActive DIAG BUFF gt DiagBuffer BUFFER gt TimeStamp ST Representation Representation GET TS ADR EVT X Instance leAddress TS EVT X Instance oduleAddress ABOR
81. port RPT The following table shows the meaning of the report bits of the EXCH channel MWr m c 1 Standard Symbol Type Meaning Language Object STS ERR BIT Report value MWr m c 1 0 0 correct exchange 1 error while reading channel status 110 100000001121 10 2014 Using BMX ERT 1604 T in a Modicon M340 Configuration Standard Symbol Type Meaning Language Object RECONF ERR BIT Report value MWr m c 1 15 0 correct exchange 1 error while reconfiguring the channel Channel Error CH_FLT The following table shows the meaning of the report bits of the CH_FLT channel MWr m c 2 Standard Symbol Type Meaning Address EXT_PWS_FLT BIT External power supply interruption MWr m c 2 0 INTERNAL_FLT BIT Application detected error MWr m c 2 4 CONF_FLT BIT Hardware or software configuration MWr m c 2 5 detected error COM_FLT BIT Communication error with PLC MWr m c 2 6 Implicit Input 90 The following table shows the meaning of the implicit inputs 901 Standard Symbol Type Meaning Address Channel x value EBOOL Discrete input channel value lr m c 0 parameters are for each channel c 0 3 4 7 8 11 12 15 in each FB Channel x counter value DINT Counter value Default O if lDr m c 0 counter function is not chosen Parameters are for each channel c 0 3 4 7 8 11 12 1
82. rds Obey all safety messages that follow this symbol to avoid possible injury or death A DANGER DANGER indicates a hazardous situation which if not avoided will result in death or serious injury 1 This is the safety alert symbol It is used to alert you to potential personal injury A WARNING WARNING indicates a hazardous situation which if not avoided could result in death or serious injury A CAUTION CAUTION indicates a hazardous situation which if not avoided could result in minor or moderate injury NOTICE NOTICE is used to address practices not related to physical injury EIO0000001 121 10 2014 5 PLEASE NOTE Electrical equipment should be installed operated serviced and maintained only by qualified personnel No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material A qualified person is one who has skills and knowledge related to the construction and operation of electrical equipment and its installation and has received safety training to recognize and avoid the hazards involved 6 EIO0000001 121 10 2014 About the Book lt At Glance Document Scope This document describes the functionality and performance scope of the BMX ERT 1604 T module Validity Note This documentation is valid for Unity Pro V8 1 or later The technical characteristics of the devices described in this document also appear onli
83. rs for the groups 1 2 3 debug page are listed in the following table Object Type Label Description lr m x 0 EBOOL Channel x value Channel x input value x 7 4 5 6 7 group 1 or 8 9 10 11 group 2 or 12 13 14 15 group 3 Wr m x 3 INT TS DIAGNOSTIC FLAGS 4 8 12 9o6IWr m x 3 15 BOOL Dechatter active Group Parameter If any edges discarded by dechatter filter for any channels under this group NOTE x channel 4 5 6 or 7 group 1 channel 8 9 10 or 11 group 2 channel 12 13 14 or 15 group 3 100000001121 10 2014 91 Configuration of BMXERT Module Group 1 2 and 3 Discrete Input Debug Tab Groups 1 2 and 3 discrete input debug pages DIG 16124 125 VDC TSTAMP Version 1 0 E BMX ERT 1604 D pen w Configuration Hm Debu 9 Channel 0 Time Stamping a Channel 4 Counter p pere Tater mm Tiris Value xul 10 10 3 12 0 Channel 12 value 0 12 l0 3 13 0 Channel 13 value 0 44 1900 3 140 14 value 77 16 90 3 15 0 Channel 15 value P 0 Function Task PLC bus El 0 3 BMX E The standard discrete input without time stamping parameters for the group 1 2 3 debug page are listed in the following table Object Type Label Description lr m x 0 EBOOL Channel x value Channel x input value NOTE x channel 4 5 6 or 7 group 1 chan
84. s full and continue with the previous value on power on Operating MODE Word structure 15 14 09 7 6 5 4 2 He Behavior on raw records buffer overrun 0 stop the recording 1 overwrite RESERVED Behavior at power on 0 reset raw record buffer 1 continue with the previous values Buffer level e If BEGIN Index END Index then the buffer is empty e If END Index 6 lt BEGIN Index then the buffer is full in the preceding equation 6 represents the size of 1 event The buffer is full when there is one space left for 1 event 6 x INT EFB behavior on buffer full depends on the Operating MODE parameter bit 1 value e f Behavior on raw records buffer overrun is set to 0 stop the recording the buffer is not filled with new data e f Behavior on raw records buffer overrun is set to 1 overwrite buffer elder data or overwritten with newer data In this case the EFB updates both BEGIN Index and END Index 100000001121 10 2014 41 User Functions Operating Mode of Enable Active Done and Error Parameters The ENABLE ACTIVE DONE or SUCCESS and ERROR parameters operate as follows Cycle 1 Cycle 2 Cyclen Cycle n 1 Cycle n 2 ENABLE o 1 p ACIE DONE T ERROR T v v 1 DONE 7 1 if no error DONE 0 if error 2 ERROR 0 if no error ERROR 1 if error The ENABLE parameter is written
85. since the 140 CRA 312 10 or BM CRA 312 10 was powered on This bit is not used by the BMX ERT 1604 T BUFFER ANY ARRAY INT Raw buffer size must be a multiple of 6 INT containing event time stamp entries e Word 0 Byte 0 Reserved Byte1 Value of the variable after change detection Word 1 Event ID Word 2 Number of seconds since 1970 01 01 midnight bits 15 to 0 Word 3 Number of seconds since 1970 01 01 midnight bits 31 to 16 Word 4 Fraction of second bits 15 to 0 Word 5 Byte 0 Fraction of second Bit 23 to 16 e Byte 1 Time quality NOTE The raw buffer is a ring buffer so the maximum buffer size that can be used is reduced by 6 from the size settings NB EVENT INT Number of new events read in the BMX ERT 1604 T local buffer GET TS EVT CRA 312 10 GET TS EVT EIO0000001 121 10 2014 39 User Functions This table describes the input output parameters Parameter Type Comment CTRLSTAMP DDT CTRL STAMP Specifies the CPU raw record buffer e BEGIN index INT e END index INT Operating MODE a detailed description of the Operating mode word is given below WORD STATUS Parameter Description The following table describes the STATUS parameter Communication Report byte 0 Operation Report byte 1 Value Description Value Description 00 hex
86. toring Fault screen 18 100000001121 10 2014 User Functions Debounce Filter Overview The purpose of debounce function is to adapt the discrete input for mechanical switches The programmable debounce filter can also be used to reduce the transient interference Debouncing inhibits the processing of fast state changes The value range for the filter time is 0 255 ms the value 0 deactivates the debounce filter The default value in Unity Pro is 1 A debounce filter may be either e Steady State e Integrating The following table shows the parameters of the debounce filter function Parameter Symbol Valid Values Unit Description Configuration Debounce filter 0 Steady state Effective range Group type 1 Integrating Organization Each group Configuration Channel x 0 255 ms Effective range Group debounce time default 1 Organization Each group x 0 15 NOTE Excessive debounce time may cause the loss of effective events Steady State Filtering A signal change is registered only if the polarity change remains stable for longer than the filter time each new change resets the filter time Filter Time lt 5 ms Signal Input A 1ms Count 0 0 1 2 3 4 0 1 2 3 0 1 2 3 4 5 0 Register Value 100000001121 10 2014 19 User Functions Integrating Filtering A signal change is registered only if the time integral of the input signal
87. tter count Channel 7 debounce time 20 Channel 7 chatter count Function 21 Channel 7 chatter time Time Stamping v Task MAST PLC bus E 0 3 BMX E 98 100000001121 10 2014 Configuration of BMXERT Module Parameters description Label Input Type Value Function for group x x 4 8 12 Option Value 0 Discrete input Value 1 Counter Value 2 Time stamping default Group x Debounce filter type Option Debounce filter see page 19 Parameters Value 0 Steady state a signal x 4 8 12 change is only registered if the polarity change remains stable for longer than the filter time each new change resets the filter time default Value 1 Integrating a signal change is only registered if the time integral of the input signal reaches the programmed filter time taking any polarity change into account Dechatter filter Option Dechatter filter see page 23 Value 0 Disable chatter time and chatter count are deactivated default Value 1 Enable chatter filter for event and counter input Channel x Channel x used Option Value 0 Enable default Parameters Value 1 Disable impedes x 4 15 processing of input data for the input If disabled remains always 0 Channel x edge Option Value 0 Both edges default Value 1 Rising edge Value 2 Falling edge Channel x debounce Input Debounce time 0
88. unts pulses from the discrete input channels Discrete input Standard discrete input without time stamping Time stamping The discrete input with the time stamps recorded to mark input state changes The inputs are in 4 groups that contain 4 input channels in each group Input functions can be configured by input group Input Group Input Channels Selectable Functions 0 0 1 2 and 3 Only time stamping 1 4 5 6 and 7 Counter Discrete input Time stamping default 2 8 9 10 and 11 Counter Discrete input Time stamping default 3 12 13 14 and 15 Counter Discrete input Time stamping default To inhibit time stamping for e achannel in group O disable the channel e Forachannel in another group either select a non time stamping function or disable the channel 14 EIO0000001 121 10 2014 User Functions Subfunctions of Main Function This table shows the subfunctions of each main function Main Function Subfunction Discrete input Debounce filter Enable Supply monitor Multi voltage input ranks Time Stamping Debounce filter Dechatter filter Enable Edge detection Event storage Supply monitor Multi voltage input ranks Time synchronization Counter Debounce filter Dechatter filter Enable Edge detection Supply monitor Multi voltage input ranks Counting function Logical View The following figure shows the logical v
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