Eaton PROFIBUS-DP EZ204-DP User Manual Download Page 28

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Summary of Contents for PROFIBUS-DP EZ204-DP

Page 1: ...For more information visit www EatonElectrical com MN05013001E EZ204 DP PROFIBUS DP Slave Interface User Manual May 2005 ...

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Page 3: ...implementing this connection Connecting cables and signal lines should be installed so that inductive or capacitive interference does not impair the automation functions Install automation devices and related operating elements in such a way that they are well protected against unintentional operation Suitable safety hardware and software measures should be implemented for the I O interface so tha...

Page 4: ...using closed Desktop or portable units must only be operated and controlled in enclosed housings Measures should be taken to ensure the proper restart of programs interrupted after a voltage dip or failure This should not cause dangerous operating states even for a short time If necessary emergency stop devices should be implemented Wherever faults in the automation system may cause damage to pers...

Page 5: ... 17 Connecting EZ204 DP to the basic unit 17 Connecting the power supply 18 Connecting PROFIBUS DP 19 PROFIBUS DP connection assignment 19 Bus terminating resistors 20 EMC wiring 20 Electrical isolation 21 Transfer rates automatic baud rate detection 22 Maximum distances bus cable lengths 22 3 Device Operation 25 Initial power up 25 Setting the PROFIBUS DP station address 26 Setting the address on...

Page 6: ...Z700 43 Data exchange procedure 43 Read write image data 49 General notes on working with image data 49 Overview 50 Analog value comparators threshold comparators A1 A16 51 Counters C1 C16 52 Text function blocks D1 D16 53 Local inputs I1 I16 54 Local analog inputs IA1 IA4 56 Markers M1 M16 N1 N16 58 Markers M1 M16 N1 N16 60 Operating hours counters O1 O4 62 Local P buttons P1 P4 63 Local outputs ...

Page 7: ...l diagnostics ID1 to ID16 105 Read and write local QW0 outputs outputs of the stations QW1 to QW8 107 Reading and writing local analog output QA1 109 Reading local P buttons 110 Reading RW inputs SW outputs from EZ LINK 112 Reading receive data network RN1 RN32 send data network SN1 SN32 114 Reading and writing markers 116 Read write function block data 120 General notes 120 Overview 121 Analog va...

Page 8: ...rters NC01 NC32 164 Operating hours counters OT01 OT04 166 Send network data function blocks PT01 PT32 168 Pulse width modulation function blocks PW01 PW02 170 Synchronize clock function block SC01 172 Set cycle time function block ST01 173 Timing relays T01 T32 175 Value limitation function blocks VC01 VC32 178 Appendix 181 What Happens If 181 Overview of commands 182 EZ700 182 EZ800 EZD 185 Tech...

Page 9: ...For more information visit www EatonElectrical com MN05013001E 5 Glossary 193 Index 201 ...

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Page 11: ...IBUS DP master is required You should also be familiar with the operation of the EZ control relay or EZD multi function display Other manuals on the device The following operating manuals should be followed EZ500 700 Series MN05013003E EZ800 Series MN05013004E EZD Series MN05013005E All manuals are available on the Internet for download as PDF files For a fast search enter the documentation number...

Page 12: ...nt types as far as the description applies to all of these types EZ512 EZ7 Type designation of the control relay the point represents a placeholder for all characters used EZ500 for EZ512 AB EZ512 AC EZ521 DA EZ512 DC EZ700 for EZ719 AB EZ719 AC EZ719 DA EZ719 DC EZ721 DC EZ800 for EZ819 EZ820 EZ821 EZ822 EZD CP8 for EZD CP8 ME EZD CP8 NT ...

Page 13: ...ce designation For more information visit www EatonElectrical com MN05013001E 9 EZ AB for EZ512 AB EZ719 AB EZ AC for EZ512 AC EZ719 AC EZ8 AC EZ DC for EZ512 DC EZ719 DC EZ8 DC EZ DA for EZ512 DA EZ719 DA ...

Page 14: ...ers and empty pages at the end the top left of the page shows the chapter title and the top right of the page shows the current section for greater clarity Xindicates actions to be taken Attention Warns of a hazardous situation that could result in damage to the product or components Caution Warns of the possibility of serious damage and slight injury Warning Warns of the possibility of a hazardou...

Page 15: ...munication module was developed for automation tasks using the PROFIBUS DP fieldbus The EZ204 DP is a gateway and can only be used in conjunction with the EZ700 EZ800 or EZD basic units The EZ control relay or EZD device with a PROFIBUS DP gateway always works as a slave station on the network ...

Page 16: ...atonElectrical com EZ204 DP MN05013001E 12 System overview The EZ204 DP slaves are integrated in a PROFIBUS DP system Figure 1 Integration of EZ204 DP in the DP network Master area PLC or PC Slave area e g EZ EZD with DP interface a b ...

Page 17: ...w EatonElectrical com MN05013001E 13 Device setup Figure 2 View of the device PROFIBUS DP connection 9 pole SUB D socket 24 V DC supply voltage Device designation plate BUS communication LED POW operation LED EZ LINK socket POW BUS f e a d c b ...

Page 18: ... to S8 Output data of the basic unit RUN STOP read as viewed from PROFIBUS DP master R1 to R16 Input data of the basic unit RUN STOP write as viewed from PROFIBUS DP master All function relay data read as viewed from the PROFIBUS DP master Timing relays Counter relays Time switches Analog comparators Weekday time summer winter time DST The setpoints of the function relays write as viewed from PROF...

Page 19: ...d from the master Arithmetic function blocks Frequency counters high speed counters incremental encoder counters 7 day and year time switch Operating hours counter PID controllers PWM pulse width modulation Real time clock Improper use EZ EZD must not be used as a replacement for safety PLCs such as Burner Emergency stop Crane or Two hand safety controls ...

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Page 21: ...trical com 17 MN05013001E 2 Installation The same principles apply as for EZ700 EZ800 and EZD basic units with expansion devices Connecting EZ204 DP to the basic unit Figure 3 Fitting or removing the EZ204 DP to the basic unit 1 3 4 2 1 2 3 4 ...

Page 22: ... EZ204 DP Connecting the power supply The EZ204 DP unit is run on a 24 V DC power supply J Section Technical Data from Page 187 Figure 5 Standard connection EZ LINK EZ7 EZ8 EZD CP8 EZ204 DP Warning Always ensure electrical safety isolation between the extra low voltage SELV and the 24 V power supply 24 V 1 A 0 V 24 V 0 V ...

Page 23: ...The type of cable used determines the permissible maximum bus length and the transfer rate PROFIBUS DP connection assignment Connections 3 8 and the shield are sufficient for data transfer Pin Signal name Designation 1 Not assigned 2 Not assigned 3 RxD TxD P B Line Receive Send data P 4 CNTR P RTS Request to Send 5 DGND Data reference potential 6 VP 5V DC for external bus connection 7 Not assigned...

Page 24: ... Eaton s PROFIBUS DP data plug enables both bus terminating resistors to be switched on and off EMC wiring Electromagnetic interference may have adverse effects on the communication fieldbus This can be minimized in advance by taking suitable EMC measures These include System design in accordance with EMC requirements EMC cabling and Measures that prevent the occurrence of large potential differen...

Page 25: ...ical isolation The following electrical isolation should be provided for the interfaces of the EZ204 DP Figure 6 Potential isolation between the power supply and outputs Safe isolation of EZ LINK 240 V AC Simple isolation of PROFIBUS DP 24 V DC supply voltage M4 EZB4 102 KS1 EZB4 102 KS1 a c b ...

Page 26: ...9 6 Kbit s to 12000 Kbit s Maximum distances bus cable lengths Two types of bus cable are specified in IEC 61158 Cable type B should no longer be used with new applications because it is obsolete Cable type A allows all transfer rates up to 12000 Kbit s to be used Cables for burial in the ground festoon suspension and drum cables are also available The cable parameters are as follows The cable par...

Page 27: ... Type A cable to IEC 61158 Distance between two stations when using Type B cable to IEC 61158 Baud rate Kbit s Max cable length Type A cable m 9 6 1200 19 2 1200 93 75 1200 187 5 1000 500 400 1500 200 3000 100 6000 100 12000 100 Baud rate Kbit s Max cable length Type B cable m 9 6 1200 19 2 1200 93 75 1200 187 5 1000 500 400 1500 ...

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Page 29: ... off no communication via PROFIBUS DP The GW message intelligent station connected is displayed on the basic unit As soon as the device is integrated in the PROFIBUS DP network the BUS LED is continuously lit static and the GW message is statically displayed also on devices with a flashing GW message If the PROFIBUS DP unit is factory set the station address of the PROFIBUS DP station must be set ...

Page 30: ...e integrated display and keypad on the EZ or EZD basic unit Using EZSoft on the PC Address range 001 to 126 Setting the address on the basic unit with a display Requirements The basic unit EZ700 EZ800 or EZD and the EZ204 DP expansion unit must be fed with power The basic unit has been unlocked no password activated The basic unit has a valid operating system version J page 15 The basic unit must ...

Page 31: ...3001E 27 XEnter the System menu by pressing DEL ALT simultaneously XUse cursor buttons Í or Ú to select CONFIGURATOR XConfirm your entry with OK XWith EZ800 EZD devices select the LINK XConfirm with OK PASSWORD SYSTEM GB D F E I CONFIGURATOR PASSWORD SYSTEM GB D F E I CONFIGURATOR NET LINK ...

Page 32: ...evices JEZ204 DP J XSet the address Set the value of the current digit with Í or Ú buttons Move to the next digit with ú or í 2 9 0 1 K 0 0 0 1 J J0 0 0 1 L 1 0 9 2 XPress OK to accept the address or XAbort address entry DP DEVICE ADDRESS INPUT 0002 204 05 30 D xxx x x x x x x 204 0 5 3 0 d Hardware version Index d Software version OS version 5 3 Device ID EZ204 DP J The menu is only available in ...

Page 33: ...nuously lit Power supply present Communication with the basic unit aborted LED flashing Power supply present Communication with the basic unit correct LED not lit No power supply present Communication with the basic unit aborted BUS LED Function Figure 8 Function of the BUS LED LED continuously lit PROFIBUS DP communication correct LED not lit No PROFIBUS DP communication present b c a b a ...

Page 34: ...5013001E 30 Cycle time of EZ basic unit Communication between the basic unit and EZ204 DP via EZ LINK increases the cycle time of the basic unit In extreme cases the cycle time may increase by 40 ms This should be taken into account for the reaction times of the basic unit ...

Page 35: ...ese modules are described in detail in chapters 5 and 6 Module designation Inputs Bytes Outputs Bytes Inputs outputs Bytes Service Supported devices Code in GSD file Page Control level 1 Control commands 9 bytes 9 Real time clock Image Function blocks EZ700 EZ800 EZD CP8 0xB8 43 Input output level 2 Inputs 3 bytes 3 Read data S1 S8 Operating mode EZ700 EZ800 EZD CP8 0x92 36 3 Outputs 3 bytes 3 Wri...

Page 36: ...D file A PROFIBUS DP GSD file is required for selecting the device and for running it on the PROFIBUS DP communication bus The GSD file contains standard PROFIBUS station descriptions The file EZ204DP gsd can be obtained at www EatonElectrical com The file is also available on the EZSoft CD ROM Byte 0 Length of additional diagnostics bytes Fixed 02hex 00000010 Byte 1 Status of EZ LINK Value 00hex ...

Page 37: ...vice by the PROFIBUS User Organization EZ204 DP contains the PROFIBUS VPC3 interface J Irregular operation may occur under the following conditions When in a multimaster system Class I and Class II DP masters with parameter or configuration data access the slave at the same time highly unlikely Or if other masters based on PROFIBUS layer 2 are connected ...

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Page 39: ...elected in the slave configuration in order for I O data to be transferred between the EZ204 DP slave and a PROFIBUS DP master J The terms input data and output data are used from the point of view of the PROFIBUS DP master Inputs R1 R16 Outputs S1 S8 EZ EZD PROFIBUS DP master Write operation Output data Read operation Input data Outputs Inputs ...

Page 40: ...he master reads bytes 0 1 2 for the following data Table 1 Byte 0 Operating mode Example Byte Meaning Value 0 Scan the operating mode J Table 1 1 Scan status of the EZ outputs S1 to S8 J Table 2 2 Not assigned 00hex J The output data and control commands can now only be used if you have selected the appropriate modules as well EZ EZD operating mode Bit 7 6 5 4 3 2 1 0 Stop Run with debounce 0 0 0 ...

Page 41: ... 6 5 4 3 2 1 0 S1 0 1 S2 0 1 S3 0 1 S4 0 1 S5 0 1 S6 0 1 S7 0 1 S8 0 1 Value 19hex S5 S4 and S1 are active Attention If control commands and I O data are used at the same time While the control command is being executed the inputs will remain in the state before the control command was called After the Control commands data exchange has been completed the input bytes are refreshed ...

Page 42: ...lave is provided with output data bytes 0 1 2 Requirement The Outputs 3 bytes module must have been selected The master reads bytes 0 1 2 for the following data Byte Meaning Value 0 Scan statusof theEZ outputs S1 to S8 J Table 2 on Page 37 J The output data and control commands can now only be used if you have selected the appropriate modules as well Byte Meaning Value 0 Set operating mode J Table...

Page 43: ...erefore does not permit an additional transfer of data The index value 14hex must be used in this situation Value 44hex 01000100bin This value sets the EZ EZD status from RUN to STOP It is also used only as command and it therefore works in the same way as the RUN command EZ EZD operating mode Bit 7 6 5 4 3 2 1 0 Index for setting the basic unit to the safety state 0 0 0 0 0 0 0 0 Index for transf...

Page 44: ...om Inputs Outputs EZ700 800 EZD Operating Mode MN05013001E 40 Table 4 Byte 1 Write status of R9 to R16 Example EZ EZD Input Bit 7 6 5 4 3 2 1 0 R9 0 1 R10 0 1 R11 0 1 R12 0 1 R13 0 1 R14 0 1 R15 0 1 R16 0 1 Value 19hex R13 R12 and R9 should be active ...

Page 45: ...2 1 0 R1 0 1 R2 0 1 R3 0 1 R4 0 1 R5 0 1 R6 0 1 R7 0 1 R8 0 1 Value 2Bhex R6 R4 R2 and R1 should be active Attention If control commands and I O data are used at the same time While the control command is being executed the inputs will remain in the state before the control command was called After the Control commands data exchange has been completed the output bytes are refreshed ...

Page 46: ...te modules are not available in all device combinations If any problems occur in handling first check the state of the GW message in the status display of the basic unit Byte Meaning Value 0 Status of R1 to R8 J Table 5 on Page 41 J The input data and control commands can now only be used if you have selected the appropriate modules as well GW static The 1 byte mode can be used GW flashing Check t...

Page 47: ...ock data Page 72 A data exchange procedure is required in order to ensure the safe exchange of data via PROFIBUS DP from master to slave and vice versa Requirement The Control commands 9 byte module must have been selected Attention While a control command is being executed the input and output data will remain in the state before the control command was called Only after the Control commands data...

Page 48: ... command with the toggle function Procedure XTo send a command bit 7 must be toggled i e set either from 1 to 0 or from 0 to 1 XThen poll the toggle bit for the coupling modules response until it has the same status as the toggle bit sent This status indicates to the master that the response to the sent command is valid XDo not send a new command until you have received a response changing of the ...

Page 49: ...ntrol commands data exchange has been completed will the I O data be refreshed All specified commands and parameters must be transferred in hexadecimal format J Please also note the relevant description of the real time clock provided in the EZ500 700 manual MN05013003E Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 93 Write B3 Response Read successful C2 Write ...

Page 50: ...to 23 0x00 to 0x17h 5 Data 2 Minute 0 to 59 0x00 to 0x3Bh 6 Data 3 Day Day 1 to 28 29 30 31 depending on month and year 0x01 to 0x1Fh 7 Data 4 Month 1 to 12 0x01 to 0x0Ch 8 Data 5 Year 0 to 99 corresponds to 2000 2099 0x00 to 0x63h Byte Contents Value hex 4 Data 1 Area None 00 Rule 01 Automatic EU 02 Automatic GB 03 Automatic US 04 for Area Rule 5 Data 2 Summer time switching rule J Table 9 6 Data...

Page 51: ... time only valid if Area Rule selected Switching rule bit array Byte Contents Value hex 4 Data 1 Area Rule 01 5 8 Data 2 5 Winter time switching rule J Table 9 J Please also read the detailed description in the EZ500 700 manual MN05013003E The following table shows the composition of the corresponding data bytes ...

Page 52: ...7 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Difference Time of time change Month Day Rule_2 Day Rule_1 0 0 30h Minute 0 to 59 Hour 0 to 23 0 to 11 0 to 30 0 month 0 Su 0 on 1 1 00h 1 after the 1 Mo 1 on the first 2 1 30h 2 before the 2 Tu 2 on the second 3 2 00h 3 We 3 on the third 4 2 30h 4 Thu 4 on the fourth 5 3 00h 5 Fr 5 on the last 6 Sa ...

Page 53: ...program cycle This operating principle also means that an image written via EZ LINK such as output data is only then output at the physical outputs of the EZ700 EZ800 EZD when the control relay is in Run mode J Please also observe the relevant description of possible image data provided in the EZ500 700 manual MN05013003E or in the EZSoft Help The latest edition of the manual is available as a PDF...

Page 54: ... I1 I16 Read 84 54 IA1 IA4 Local analog inputs IA1 IA4 Read 8C 56 M1 M16 N1 N16 Markers M1 M16 N1 N16 Write 86 87 58 M1 M16 N1 N16 Markers M1 M16 N1 N16 Read 86 87 60 O1 O4 Operating hours counters O1 O4 Read EF 62 P1 P4 Local P buttons P1 P4 Read 8A 63 Q1 Q8 Local outputs Q1 Q8 Read 85 65 R1 R16 S1 S8 Inputs outputs of EZ LINK R1 R16 S1 S8 Read 88 89 66 T1 T16 Timing relays T1 T16 Read ED 68 Y1 Y...

Page 55: ...1 to A16 Telegram structure Table 10 Byte 5 to 6 Data 1 to 2 Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type 8C 8C 4 Index 00 00 5 Data 1 Low Byte 00 J Table 10 6 Data 2 Low Byte 00 J Table 10 7 8 Data 3 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 A1 0 1 A2 0 1 A8 0 1 Data 2...

Page 56: ...e Table 11 Byte 5 to 6 Data 1 to 2 Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type EE EE 4 Index 00 00 5 Data 1 Low Byte 00 J Table 20 6 Data 2 Low Byte 00 J Table 20 7 8 Data 3 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 C1 0 1 C2 0 1 C8 0 1 Data 2 Bit 7 6 5 4 3 2 1 0 C9 0 ...

Page 57: ...am structure Table 12 Byte 5 to 6 Data 1 to 2 Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type 94 94 4 Index 00 00 5 Data 1 Low Byte 00 J Table 12 6 Data 2 High Byte 00 J Table 12 7 8 Data 3 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 D1 0 1 D2 0 1 D8 0 1 Data 2 Bit 7 6 5 4 3...

Page 58: ...the EZ700 basic unit The relevant input word is stored in Intel format Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 02 02 3 Type 84 84 4 Index 00 00 5 Data 1 Low Byte 00 J Table 13 6 Data 2 High Byte 00 J Table 13 7 8 Data 3 4 00 00 1 Possible causes J page 91 ...

Page 59: ...te image data For more information visit www EatonElectrical com MN05013001E 55 Table 13 Byte 5 to 6 Data 1 to 2 Data 1 Bit 7 6 5 4 3 2 1 0 I1 0 1 I2 0 1 I8 0 1 Data 2 Bit 7 6 5 4 3 2 1 0 I9 0 1 I10 0 1 I16 0 1 ...

Page 60: ...transferred in Intel format Low Byte first Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 02 02 3 Type 8C 8C 4 Index 00 032 00 032 5 Data 1 Low Byte 00 J Table 14 6 Data 2 High Byte 00 J Table 14 7 8 Data 3 4 00 00 1 Possible causes J page 91 2 00 Analog input I7 01 Analog input I8 02 A...

Page 61: ...Byte 4Bhex Byte 6 Data 2 High Byte 03hex J corresponding 16 bit value 034Bhex 843 The value 843 corresponds to the IO bit value of the analog converter The following conversion is required for the actual analog value Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 2 Len 02 02 3 Type 8C 8C 4 Index 021 021 5 Data 1 00 4B 6 Data 2 00 0...

Page 62: ... 01 01 3 Type2 With M marker 86 86 With N marker 87 87 4 Index2 00 0F 00 0F 5 Data 1 Low Byte 3 00 01 00 01 6 8 Data 2 4 00 00 1 Possible causes J page 91 2 There are 16 M markers and 16 N markers The markers are addressed by Type and Index Use Type to select the M or N marker Use Index to select the marker number 3 The marker is set if a value is written to the data byte that does not equal zero ...

Page 63: ...3001E 59 Example Marker M13 is set Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Write 8C Response Write successful C1 Command rejected C01 2 Len 01 01 3 Type M marker 86 86 4 Index 0C 0C 5 Data 1 01 00 6 8 Data 2 4 00 00 1 Possible causes J page 91 ...

Page 64: ...Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type M marker 86 86 N marker 87 87 4 Index2 00 00 5 Data 1 Low Byte 00 J Table 15 6 Data 2 Low Byte 00 J Table 15 7 8 Data 3 4 00 00 1 Possible causes J page 91 2 There are 16 M markers and 16 N markers The markers are addressed by Type and Index Use Type ...

Page 65: ...1 Bit 7 6 5 4 3 2 1 0 M N M1 N1 0 1 M2 N2 0 1 M8 N8 0 1 Data 2 Bit 7 6 5 4 3 2 1 0 M9 N9 0 1 M10 N10 0 1 M16 N16 0 1 Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type N marker 87 87 4 Index 00 00 5 Data 1 Low Byte 00 04 6 Data 2 Low Byte 00 84 7 8 Data 3 4 00 00 1 Possible causes J page 91 ...

Page 66: ...the operating hours counters O1 O4 Telegram structure Table 16 Byte 5 Data 1 Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type EF EF 4 Index 00 00 5 Data 1 Low Byte 00 J Table 16 6 8 Data 2 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 O1 0 1 O2 0 1 O3 0 1 O4 0 1 ...

Page 67: ...and STOP mode Only one byte has to be transferred for the P buttons Telegram structure J Ensure that the P buttons are also activated via the System menu in the basic unit Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type 8A 8A 4 Index 00 00 5 Data 1 Low Byte 00 J Table 17 6 8 Data 2 4 00 00 1 P...

Page 68: ...re information visit www EatonElectrical com Control commands for EZ700 MN05013001E 64 Table 17 Byte 5 Data 1 Example Data 1 2hex J P3 is active Data 1 Bit 7 6 5 4 3 2 1 0 P1 0 1 P2 0 1 P3 0 1 P4 0 1 0 0 0 0 ...

Page 69: ...am structure Table 18 Byte 5 Data 1 Example Data 1 52hex J Q2 Q5 and Q7 are active Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type 85 85 4 Index 00 00 5 Data 1 Low Byte 00 J Table 18 6 8 Data 2 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 Q1 0 1 Q2 0 1 Q8 0 1 ...

Page 70: ...NET stations 1 8 transferred via EZ LINK again from the relevant EZ700 image Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type for R data 88 88 for S data 89 89 4 Index 00 00 5 Data 1 Low Byte 00 J Table 19 6 Data 2 Low Byte 00 J Table 19 7 8 Data 3 4 00 00 1 Possible causes J...

Page 71: ... data For more information visit www EatonElectrical com MN05013001E 67 Table 19 Byte 5 to 6 Data 1 to 2 Data 1 Bit 7 6 5 4 3 2 1 0 RW SW R1 S1 0 1 R2 S2 0 1 R8 S8 0 1 Data 2 Bit 7 6 5 4 3 2 1 0 R9 0 1 R10 0 1 R16 0 1 ...

Page 72: ...ure Table 20 Byte 5 to 6 Data 1 to 2 Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type ED ED 4 Index 00 00 5 Data 1 Low Byte 00 J Table 20 6 Data 2 Low Byte 00 J Table 20 7 8 Data 3 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 T1 0 1 T2 0 1 T8 0 1 Data 2 Bit 7 6 5 4 3 2 1 0 T9 ...

Page 73: ...gram structure Table 21 Byte 5 Data 1 Example Data 1 1hex l HY2 is active Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type 91 91 4 Index 00 00 5 Data 1 Low Byte 00 J Table 21 6 8 Data 2 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 HY1 0 1 HY2 0 1 HY3 0 1 HY4 0 1 HY5 0 HY6 0 HY...

Page 74: ...e Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type 93 93 4 Index 00 00 5 Data 1 Low Byte 00 J Table 22 6 8 Data 2 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 Z1 for Q outputs 0 1 Z2 for M markers 0 1 Z3 for outputs and markers 0 1 0 0 0 0 0 ...

Page 75: ...legram structure Table 23 Byte 5 Data 1 Example Data 1 2hex l ö3 is active Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 88 Response Read successful C2 Command rejected C01 2 Len 01 01 3 Type 90 90 4 Index 00 00 5 Data 1 Low Byte 00 J Table 23 6 8 Data 2 4 00 00 1 Possible causes J page 91 Data 1 Bit 7 6 5 4 3 2 1 0 HW1 0 1 HW2 0 1 HW3 0 1 HW4 0 1 HW5 0 HW6 0 H...

Page 76: ...h is 4 bytes All values must be transferred in hexadecimal format Overview J Please also observe the relevant description of the function blocks provided in the EZ500 700 manual MN05013003E or in the EZSoft Help Operands Meaning Read write Type Page A1 A16 Analog value comparator threshold comparator A1 A16 Read write 8D 73 C1 C16 Counter relays C1 C16 Read write 8F 76 O1 O4 Operating hours counte...

Page 77: ...lue hex sent by Master Slave 0 Toggle byte J page 44 1 Command Read 89 Write 8D Response Read successful C2 Write successful C1 Command rejected C01 2 Type 8D 8D 3 Instance2 00 0F 00 0F 4 Index Table 24 5 8 Data 1 4 depending on index J Table 25 1 Possible causes J page 91 2 EZ provides 16 analog comparators A1 to A16 for use as required These can be addressed using the instance 0 F ...

Page 78: ... Gain factor for I1 I1 F1 I1 F12 c1 05 Gain factor for I2 I2 F2 I2 F22 c1 06 Offset for value I1 I1 OS actual value at I1 OS2 c1 07 Switching hysteresis for value I2 HY2 c1 1 The value can only be written if it is assigned to a constant in the program 2 A 16 bit value is transferred in data bytes Data 1 Data 2 It should be remembered that the low byte 1 is in Data 1 Byte 5 and the high byte 2 byte...

Page 79: ...f the analog value comparator is active for as long as the comparison I1 F1 OS I2 F2 HY is fulfilled Table 26 Index 01 Control byte Meaning Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Appears in the parameter menu Yes no 0 1 Compare FB not used 0 0 0 EQ 0 0 1 GE 0 1 0 LE 0 1 1 GT 1 0 0 LT 1 0 1 Use as constant and therefore can be written to I1 Constant 0 1 F1 Constant 0 1 I2 Constant 0 1 F2 Constan...

Page 80: ...by Master Slave 0 Toggle byte J page 44 1 Command Read 89 Write 8D Response Read successful C2 Write successful C1 Command rejected C01 2 Type 8F 8F 3 Instance2 00 0F 00 0F 4 Index J Table 27 5 8 Data 1 4 depending on index J Table 28 1 Possible causes J page 91 2 EZ provides 16 counters C1 to C16 for use as required These can be addressed using the instance 0 F ...

Page 81: ...ead Write 00 Parameters J Table 28 01 Control byte J Table 29 02 Actual value S12 c1 03 Counter setpoint 2 S22 c1 1 The value can only be written if it is assigned to a constant in the program 2 A 16 bit value is transferred in data bytes Data 1 Data 2 It should be remembered that Data 1 is the low byte and Data 2 the high byte Meaning Bit 7 6 5 4 3 2 1 0 Appears in the parameter menu Yes no 0 1 C...

Page 82: ...312hex 786dec Counter status 786 Data 1 Bit 7 6 5 4 3 2 1 0 FB output C4 RE 3 D2 Q11 1 Switch contact 2 Count direction 0 up counting 1 down counting 3 Reset the timing relay is reset reset coil 4 Count coil counts on every rising edge Byte Meaning Value hex sent by Master Slave 0 Command Read 89 Response Read successful C2 1 Type 8F 8F 2 Instance 02 02 3 Index 02 02 4 Data1 00 12 5 Data 2 00 03 6...

Page 83: ...tance2 00 03 00 03 4 Index J Table 30 5 8 Data 1 4 depending on index J Table 31 1 Possible causes J page 91 2 EZ provides 4 operating hours counters O1 to O4 These can be addressed using the instance 0 3 Index hex Operand Read Write 00 Parameters J Table 31 01 Control byte J Table 32 02 Actual value S12 c1 03 Counter setpoint 2 S22 c1 1 The value can only be written if it is assigned to a constan...

Page 84: ... Control byte Example Index 02 03 Transferred values Data 1 0x21 Data 2 0x23 Data 3 0x40 Data 4 0x00 Resulting value 00402321hex 4203297dec Meaning Bit 7 6 5 4 3 2 1 0 Appears in the parameter menu Yes no 0 1 Use in the program Setpoint S1 0 1 Unused bits Data 1 Bit 7 6 5 4 3 2 1 0 FB output RE3 EN2 Q11 1 Switch contact 2 Enable the timing relay is started trigger coil 3 Reset the timing relay is ...

Page 85: ...y Master Slave 0 Toggle byte J page 44 1 Command Read 89 Write 8D Response Read successful C2 Write successful C1 Command rejected C01 2 Type 8E 8E 3 Instance2 00 0F 00 0F 4 Index J Table 33 5 8 Data 1 4 depending on index J Table 34 1 Possible causes J page 91 2 EZ provides 16 timing relays T1 to T16 for use as required These can be addressed using the instance 0 F ...

Page 86: ...ite 00 Parameters J Table 34 01 Control byte J Table 35 02 Actual value 1 T c1 03 Time setpoint 1 S12 c1 04 Time setpoint 2 S22 c1 1 The value can only be written if it is assigned to a constant in the program 2 A 16 bit value is transferred in data bytes Data 1 Data 2 It should be remembered that Data 1 is the low byte and Data 2 the high byte ...

Page 87: ...riable such as I7 I8 C2 etc Meaning Bit 7 6 5 4 3 2 1 0 Appears in the parameter menu Yes no 0 1 Timer mode On delayed 0 0 0 Off delayed 0 0 1 On delayed with random setpoint 0 1 0 Off delayed with random setpoint 0 1 1 On and off delayed two time setpoints 1 0 0 On and off delayed each with random setpoint two time setpoints 1 0 1 Impulse transmitter 1 1 0 Flashing relay two time setpoints 1 1 1 ...

Page 88: ... 1 0 FB input output Data 3 ST4 RE3 EN2 Q11 1 Switch contact 2 Enable the timing relay is started trigger coil 3 Reset the timing relay is reset reset coil 4 Stop the timing relay is stopped Stop coil Byte Meaning Value hex sent by Master Slave 0 Command Read 89 Response Read successful C2 1 Type 8E 8E 2 Instance 00 00 3 Index 03 03 4 Data1 00 4C 5 Data 2 00 06 6 Data 3 00 00 7 Data 4 00 00 Millis...

Page 89: ... Master Slave 0 Toggle byte J page 44 1 Command Read 89 Write 8D Response Read successful C2 Write successful C1 Command rejected C01 2 Type A2 A2 3 Instance2 00 07 00 07 4 Index J Table 36 5 8 Data 1 4 depending on index J Table 37 1 Possible causes J page 91 2 EZ provides 8 year time switches Y1 to Y8 for use as required These can be addressed using the instance 0 7 ...

Page 90: ...1 Control byteJ Table 38 Channel A c1 11 Time point ON c1 12 Time point OFF c1 Channel B c1 21 Time point ON c1 22 Time point OFF c1 Channel C c1 31 Time point ON c1 32 Time point OFF c1 Channel D c1 41 Time point ON c1 42 Time point OFF c1 1 The value can only be written if it is assigned to a constant in the program 2 The switch points are transferred in data bytes Data 1 Data 3 Meaning Bit 7 6 ...

Page 91: ...l A OFF time Data 1 Byte 5 Day Data 2 Byte 6 Month Data 3 Byte 7 Year Example The year time switch channel A is to be activated on the 21 04 2004 Index 0x11 Data 1 0x15 Data 2 0x04 Data 3 0x04 The year time switch channel B is to be deactivated on the 05 11 2012 Index 0x22 Data 1 0x05 Data 2 0x0B Data 3 0x0C Data 1 Bit 7 6 5 4 3 2 1 0 FB output Q11 1 Status 1 if the count condition is fulfilled ...

Page 92: ...r Slave 0 Toggle byte J page 44 1 Command Read 89 Write 8D Response Read successful C2 Write successful C1 Command rejected C01 2 Type A1 A1 3 Instance2 00 07 00 07 4 Index J Table 39 J Table 39 5 8 Data 1 4 depending on index Table 40 1 Possible causes J page 91 2 EZ provides 8 7 day time switches Ö1 to Ö8 for use as required These can be addressed using the instance 0 7 ...

Page 93: ...n off c1 12 On time c1 13 Off time c1 21 Channel B Day on off c1 22 On time c1 23 Off time c1 31 Channel C Day on off c1 32 On time c1 33 Off time c1 41 Channel D Day on off c1 42 On time c1 43 Off time c1 1 The value can only be written if it is assigned to a constant in the program 2 A 16 bit value is transferred in data bytes Data 1 Data 4 It should be remembered that Data 1 is the low byte and...

Page 94: ...hannel A Weekday on off Data 1 Byte 5 Weekday on Data 2 Byte 6 Weekday off 0x01 Sunday 0x07 Saturday The 16 bit value equals 0x00 if the channel is not used Index 0x12 On time 2 Byte Index 0x13 Off time 2 Byte Data 1 Byte 5 Hour Data 2 Byte 6 Minute Example On time at 13 43 p m Data 1 0x0D Data 2 0x2B Meaning Bit 7 6 5 4 3 2 1 0 Appears in the parameter menu Channel A 0 1 Channel B 0 1 Channel C 0...

Page 95: ...sic unit will return a defined error code in the event of an incorrectly selected operating mode or an invalid telegram The error code transferred has the following structure Telegram structure Byte Meaning Slave transmits value hex 0 Toggle byte J page 44 1 Response Command rejected C0 2 Type 00 3 Instance 00 4 Index 00 5 Error code J Table 42 ...

Page 96: ...nsmitted 0x04 Invalid instance transmitted 0x05 Invalid parameter set transmitted 0x06 An attempt was made to write to a variable that is not a constant 0x0C The device is in an invalid device mode STOP l RUN or RUN l STOP 0x0D Invalid display access Exit the menu level so that the status display is showing in the display The clock cannot be written to 0xF0 Attempt made to control an unknown param...

Page 97: ...o slave and vice versa Requirement The Control commands 9 byte module must have been selected The master initiates the data exchange of the control commands and the addressed slave responds During communication 9 data bytes byte 0 toggle byte bytes 1 to 8 information bytes are sent via PROFIBUS The basic telegram structure is shown in the following diagram Attention While a control command is bein...

Page 98: ...nd until you have received a response changing of the toggle bit otherwise the response of the previous command will be overwritten before it can be read The following tables show the different control commands possible These essential control commands fall into three essential categories real time clock image and function blocks Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7 Byte 8 Bit 7...

Page 99: ...ual The latest edition of these manuals are available as PDF files from the Internet at www EatonElectrical com EZ800 manual search term MN05013004E EZD manual search term MN05013005E Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 93 Write B3 Response Read successful C2 Write successful C1 Command rejected C0 2 Len 05 05 3 Index 00 00 4 8 Data 1 5 Read operation...

Page 100: ...nute 0 to 59 00 3B 6 Data 3 Day 1 to 28 29 30 31 depending on month and year 01 1F 7 Data 4 Month 1 to 12 01 0C 8 Data 5 Year 0 99 corresponds to 2000 2099 00 63 Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 93 Write B3 Response Read successful C2 Write successful C1 Command rejected C0 2 Len 05 05 3 Index 01 01 4 8 Data 1 5 Read operation 00 J Table 44 For wri...

Page 101: ... Automatic US 04 5 Data 21 Set summer time day 1 to 28 29 30 31 depending on month and year 00 3B 6 Data 31 Set Summer time month 1 to 12 01 1F 7 Data 41 Set winter time day 1 to 28 29 30 31 depending on month and year 01 0C 8 Data 51 Set winter time month 1 to 12 00 63 1 The additional parameters Data 2 to Data 5 for automatic DST change are only relevant if you have set the Manual parameter for ...

Page 102: ... of the EZ800 is to be set to Friday 23 05 2003 14 36 Byte Meaning Value hex sent by Master Slave 0 Toggle byte 81 80 1 Command Write B3 Response Write successful C1 2 Len 05 05 3 Index 00 00 4 Data 1 0E 00 5 Data 2 24 00 6 Data 3 17 00 7 Data 4 05 00 8 Data 5 03 00 J All values must be transferred as hexadecimal values ...

Page 103: ...a on Page 49 also applies to EZ800 EZD Operands Meaning Read write Command Page IW0 Read local inputs IW0 Read 01 100 IW1 IW8 Read inputs of the stations IW1 to IW8 Read 01 102 IA1 IA4 Read local analog inputs IA1 to IA4 Read 02 103 ID1 ID16 Read local diagnostics ID1 to ID16 Read 03 105 QW0 QW1 QW8 Read and write local QW0 outputs outputs of the stations QW1 to QW8 Read write 04 107 QA1 Reading a...

Page 104: ...d in Intel format Telegram structure Table 45 Byte 5 to 6 Data 1 to 2 Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Response Read successful C2 Command rejected C0 2 Len 02 02 3 Type 01 01 4 Index 00 00 5 Data 1 Low Byte 00 J Table 45 6 Data 2 High Byte 00 J Table 45 7 8 Data 3 4 00 00 Data 1 Bit 7 6 5 4 3 2 1 0 I1 0 1 I2 0 1 I8 0 1 Data 2 Bit 7 6 5 4 3 2 1 ...

Page 105: ...4 and Data 2 02 indicate that the inputs I8 I7 I3 and I10 have been set to 1 Byte Meaning Value hex sent by Master Slave 0 Toggle byte 81 80 1 Command Read 91 Response Read successful C2 2 Len 02 02 3 Type 01 01 4 Index 00 00 5 Data 1 00 C4 6 Data 2 00 02 7 Data 3 00 00 8 Data 4 00 00 J All values must be transferred as hexadecimal values ...

Page 106: ... offered here makes it possible to implement read access to the inputs of individual NET stations Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Response Read successful C2 Command rejected C0 2 Len 02 02 3 Type 01 01 4 Index 01 081 01 081 5 Data 1 Low Byte 00 J Table 45 on Page 100 6 Data 2 High Byte 00 7 8 Data 3 4 00 00 1 Corresponds to ...

Page 107: ... bit value is transferred in Intel format LowByte first Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Response Read successful C2 Command rejected C0 2 Len 02 02 3 Type 02 02 4 Index 01 041 01 041 5 Data 1 Low Byte 00 See example 6 Data 2 High Byte 00 See example 7 8 Data 3 4 00 00 1 01 Analog input I7 02 Analog input I8 03 Analog input I1...

Page 108: ...reading the analog value are as follows Byte 5 Data 1 Low Byte D9hex Byte 6 Data 2 High Byte 02hex J corresponding 16 bit value 02D9hex 729 7 29 V Byte Meaning Value hex sent by Master Slave 0 Toggle byte 81 80 1 Command Read 91 Response Read successful C2 2 Len 02 02 3 Type 02 02 4 Index 011 011 5 Data 1 00 D9 6 Data 2 00 02 7 Data 3 00 00 8 Data 4 00 00 1 01 Analog input 1 ...

Page 109: ...tus of the individual NET stations The connection to the remote station only EZD is indicated via ID9 Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Response Read successful C2 Command rejected C0 2 Len 02 02 3 Type 03 03 4 Index 00 00 5 Data 1 Low Byte 00 J Table 46 6 Data 2 High Byte 00 J Table 46 7 8 Data 3 4 00 00 ...

Page 110: ...13001E 106 Table 46 Byte 5 to 6 Data 1 to 2 Example Data 1 F8 Data 2 FF J In the EZ NET network the three stations are present with the NET IDs 1 2 3 Data 1 Bit 7 6 5 4 3 2 1 0 ID1 0 1 ID2 0 1 ID8 0 1 Data 2 Bit 7 6 5 4 3 2 1 0 ID9 0 1 1 1 0 1 active inactive NET station not assigned ...

Page 111: ...n mode and the addressed output is not being used in the circuit diagram J Section Read write image data on Page 99 Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Write B1 Response Read successful C2 Write successful C1 Command rejected C0 2 Len 02 02 3 Type 04 04 4 Index1 00 01 08 00 01 08 5 Data 1 Read operation 00 J Table 46 For write op...

Page 112: ...For more information visit www EatonElectrical com EZ800 EZD Control Commands MN05013001E 108 Table 47 Byte5 Data Data 1 Bit 7 6 5 4 3 2 1 0 Q1 0 1 Q2 0 1 Q3 0 1 Q4 0 1 Q5 0 Q6 0 Q7 0 Q8 0 ...

Page 113: ...Run mode and the image concerned has not been overwritten by actual program J Section Read write image data on Page 99 Example The analog output is to output a value of approx 5 V 500 01F4hex Byte 5 Data 1 LowByte F4hex Byte 6 Data 2 HighByte 01hex Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Write B1 Response Read successful C2 Write successful C1 Command ...

Page 114: ... scan the buttons in both Run and Stop mode Only one byte has to be transferred for the P buttons J Ensure that the P buttons are also activated via the SYSTEM menu in the basic unit Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Response Read successful C2 Command rejected C0 2 Len 02 02 3 Type 06 06 4 Index 00 00 5 Data 1 Low Byte 00 J Table 48 6 8 Data 2 4...

Page 115: ...Read write image data For more information visit www EatonElectrical com MN05013001E 111 Table 48 Byte 5 Data Data 1 Bit 7 6 5 4 3 2 1 0 P1 0 1 P2 0 1 P3 0 1 P4 0 1 0 0 0 0 ...

Page 116: ...nsferred via EZ LINK again from the relevant EZ800 EZD image Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Response Read successful C2 Command rejected C0 2 Len 02 02 3 Type For RW 07 For RW 07 For SW 09 For SW 09 4 Index 00 01 081 00 01 081 5 Data 1 Low Byte 00 J Table 49 6 Data 2 High Byte 00 J Table 49 7 8 Data 3 4 00 00 1 00 Local input output 01 08 Addr...

Page 117: ...ctrical com MN05013001E 113 Table 49 Byte 5 to 6 Data 1 to 2 Data 1 Bit 7 6 5 4 3 2 1 0 RW SW R1 S1 0 1 R2 S2 0 1 R3 S3 0 1 R4 S4 0 1 R5 S5 0 1 R6 S6 0 1 R7 S7 0 1 R8 S8 0 1 Data 2 Bit 7 6 5 4 3 2 1 0 R9 0 1 R10 0 1 R11 0 1 R12 0 1 R13 0 1 R14 0 1 R15 0 1 R16 0 1 ...

Page 118: ...RN1 RN32 send data network SN1 SN32 EZ NET allows a point to point connection to be implemented between the individual NET stations The RN and SN data are used for the data exchange see the EZ800 manual and EZD manual The latest editions of these manuals are available as PDF files from the Internet at www EatonElectrical com EZ800 manual search term MN05013004E EZD manual search term MN05013005E J...

Page 119: ...com MN05013001E 115 Table 50 Byte 5 to 8 Data 1 to 4 Data 1 Bit 7 6 5 4 3 2 1 0 RN1 SN1 0 1 0 1 RN8 SN8 0 1 Data 2 Bit 7 6 5 4 3 2 1 0 RN9 SN9 0 1 RN16 SN16 0 1 Data 3 Bit 7 6 5 4 3 2 1 0 RN17 SN17 0 1 RN24 SN24 0 1 Data 4 Bit 7 6 5 4 3 2 1 0 RN25 SN25 0 1 RN32 SN32 0 1 ...

Page 120: ...rate the allocation principle Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 91 Write B1 Response Read successful C2 Write successful C1 Command rejected C0 2 Len J Table 51 J Table 51 3 Type 4 Index 5 8 Data 1 4 Read operation 00 J Example 1 on Page 118 For write operation J Example 2 on Page 119 00 Operand Len Type Index Marker bit M1 M96 01hex 0Bhex 01 to 60h...

Page 121: ... MW2 MW1 8 bit MB4 MB3 MB2 MB1 1 bit M32 to M25 M24 to M17 M16 to M9 M8 to M1 32 bit MD2 16 bit MW4 MW3 8 bit MB8 MB7 MB6 MB5 1 bit M64 to M57 M56 to M49 M48 to M41 M40 to M33 J The relevant marker values are transferred in Intel format In other words the first byte is the low byte Byte 5 and the last byte the high byte The latest editions of these manuals are available as PDF files from the Inter...

Page 122: ...013001E 118 Example 1 Read marker bit M62 Result Data 1 01hex J M62 was set Byte Meaning Value hex sent by Master Slave 0 Toggle byte 81 80 1 Command Read 91 Response Read successful C2 2 Len 01 01 3 Type 0B 0B 4 Index 3E 3E 5 Data 1 00 01 6 Data 2 00 00 7 Data 3 00 00 8 Data 4 00 00 ...

Page 123: ...ample 2 Write marker word MW32 with 823 823dec 337hex J Data 1 37hex Data 2 03hex Byte Meaning Value hex sent by Master Slave 0 Toggle byte 81 80 1 Command Write B1 Response Write successful C1 2 Len 02 02 3 Type 0D 0D 4 Index 20 20 5 Data 1 37 00 6 Data 2 03 00 7 Data 3 00 00 8 Data 4 00 00 ...

Page 124: ...ow byte Byte 5 and the last byte byte 8 the high byte The maximum data length is 4 bytes All values must be transferred in hexadecimal format All 32 bit values are treated as signed values When transferring 32 bit values ensure that the appropriate value range is suitable for long integers i e signed 32 bit value 2147483648 0 2147483647 Please also note the relevant description of the function blo...

Page 125: ...32 Read write 19 142 DB01 DB32 Data function blocks DB01 DB32 Read write 1A 145 DC01 DC32 PID controllers DC01 DC32 Read write 27 147 FT01 FT32 Signal smoothing filters FT01 FT32 Read write 28 150 GT01 GT32 Receive network data function blocks GT01 GT32 Read 1B 152 HW01 HW32 7 day time switches HW01 HW32 Read 1C 154 HY01 HY32 Year time switches HY01 HY32 Read 1D 157 LS01 LS32 Value scaling functio...

Page 126: ...arators A01 A32 Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 11 11 3 Instance 01 20 01 20 4 Index J Table 52 J Table 52 5 8 Data 1 4 00 depending on index J Table 53 54 ...

Page 127: ... value F2 c1 06 Offset for value I1 OS c1 07 Switching hysteresis for value I2 the value of HY is for both positive and negative hysteresis HY c1 1 The value can only be written if it is assigned to a constant in the program J The data for index 2 to 7 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB output Data 3 CY1 Q12 1 Status 1 if the...

Page 128: ...ure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 12 12 3 Instance 01 20 01 20 4 Index J Table 55 J Table 55 5 8 Data 1 4 Read operation 00 depending on index J Table 56 57 Write operation depending on index J Table 56 57 00 ...

Page 129: ...1 04 Result QV 1 The value can only be written if it is assigned to a constant in the program J The data for index 2 to 4 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 FB output Data 3 ZE1 CY1 1 Status 1 if the value of the function block output QV the calculation result equals zero 2 Status 1 if the value range is exceeded Data 1 hex 00 ADD...

Page 130: ...Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 25 25 3 Instance 01 20 01 20 4 Index J Table 58 J Table 58 5 8 Data 1 4 Read operation 00 depending on index J Table 59 60 Write operation depending on index J Table 59 60 00 ...

Page 131: ...gram J The data for index 2 to 4 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB input Data 1 EN1 FB output Data 3 EQ2 E33 E24 E15 1 Activates the function block on status 1 2 Status 1 if the data ranges are equal status 0 if not equal Error outputs 3 Status 1 if the number of elements exceeds the source or target range 4 Status 1 if the ...

Page 132: ...se Read successful C2 Write successful C1 Command rejected C0 2 Type 26 26 3 Instance 01 20 01 20 4 Index J Table 61 J Table 61 5 8 Data 1 4 Read operation 00 depending on index J Table 62 63 Write operation depending on index J Table 62 63 00 Index hex Operand Read Write 00 Bit IO J Table 62 01 Mode J Table 63 02 Source range 1 I1 c1 03 Target range 2 I2 c1 04 Number of elements to compare max 19...

Page 133: ...sfer of the source address specified at I1 to the target address specified at I2 on rising edge Error outputs 2 Status 1 if the number of elements exceeds the source or target range 3 Status 1 if the source and target range overlap 4 Status 1 if the source or target range are outside of the available marker range offset error Data 1 hex Operating mode 00 INI Initializes the target range with a byt...

Page 134: ...ucture Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 13 13 3 Instance 01 20 01 20 4 Index J Table 64 J Table 64 5 8 Data 1 4 Read operation 00 depending on index J Table 65 66 Write operation depending on index J Table 65 66 00 ...

Page 135: ...1 The value can only be written if it is assigned to a constant in the program J The data for index 2 to 4 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 FB output Data 3 ZE1 1 Status 1 if the value of the function block output QV the operation result equals zero Data 1 hex 00 AND And sequence 01 OR Or sequence 02 XOR Exclusive Or sequence 03...

Page 136: ...e Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 14 14 3 Instance 01 20 01 20 4 Index J Table 67 J Table 67 5 8 Data 1 4 Read operation 00 depending on index J Table 68 Write operation depending on index J Table 68 00 ...

Page 137: ...onstant in the program J The data for index 2 to 5 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB input Data 1 SE1 D2 C3 RE4 FB output Data 3 ZE5 CY6 FB7 OF8 1 Transfer preset actual value on rising edge 2 Count direction 0 up counting 1 down counting 3 Count coil counts on every rising edge 4 Reset actual value to zero 5 Zero Status 1 i...

Page 138: ...re Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 15 15 3 Instance 01 04 01 04 4 Index J Table 69 J Table 69 5 8 Data 1 4 Read operation 00 depending on index J Table 70 Write operation depending on index J Table 70 00 ...

Page 139: ...mode QV 1 The value can only be written if it is assigned to a constant in the program J The data for index 2 to 4 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB input Data 1 EN1 FB output Data 3 ZE2 FB3 OF4 1 Counter enable 2 Zero Status 1 if the value of the function block output QV the counter status equals zero 3 Fall below Status 1 ...

Page 140: ...re Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 16 16 3 Instance 01 04 01 04 4 Index J Table 71 J Table 71 5 8 Data 1 4 Read operation 00 depending on index J Table 72 Write operation depending on index J Table 72 00 ...

Page 141: ...igned to a constant in the program J The data for index 2 to 5 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB input Data 1 EN1 SE2 D3 RE4 FB output Data 3 ZE5 CY6 FB7 OF8 1 Counter enable 2 Transfer preset actual value on rising edge 3 Count direction 0 up counting 1 down counting 4 Reset actual value to zero 5 Zero Status 1 if the value...

Page 142: ...ructure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 17 17 3 Instance 01 02 01 02 4 Index J Table 73 J Table 73 5 8 Data 1 4 Read operation 00 depending on index J Table 74 Write operation depending on index J Table 74 00 ...

Page 143: ...y be written if it is assigned to a constant in the program J The data for index 2 to 5 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB input Data 1 EN1 SE2 RE3 FB output Data 3 ZE4 CY5 FB6 OF7 1 Counter enable 2 Transfer preset actual value on rising edge 3 Reset actual value to zero 4 Zero Status 1 if the value of the function block out...

Page 144: ...yte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 18 18 3 Instance 01 20 01 20 4 Index J Table 75 J Table 75 5 8 Data 1 4 Read operation 00 depending on index J Table 76 Write operation depending on index J Table 76 00 ...

Page 145: ... I2 c1 1 The value can only be written if it is assigned to a constant in the program J The data for index 2 and 3 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 FB output Data 3 GT1 EQ2 LT3 1 greater than Status 1 if the value at I1 is greater than value at I2 I1 I2 2 equal Status 1 if the value at I1 is equal to value at I2 I1 I2 3 less tha...

Page 146: ...cture Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 19 19 3 Instance 01 20 01 20 4 Index J Table 77 J Table 77 5 8 Data 1 4 Read operation 00 depending on index J Table 78 Write operation depending on index J Table 78 00 ...

Page 147: ...e 2 column 1 4 07 Text line 2 column 5 8 08 Text line 2 column 9 12 09 Text line 2 column 13 16 10 Text line 3 column 1 4 11 Text line 3 column 5 8 12 Text line 3 column 9 12 13 Text line 3 column 13 16 14 Text line 4 column 1 4 15 Text line 4 column 5 8 16 Text line 4 column 9 12 17 Text line 4 column 13 16 18 Variable 1 c1 19 Variable 2 c1 20 Variable 3 c1 21 Variable 4 c1 22 Scaling minimum val...

Page 148: ...information line 2 32 Control information line 3 33 Control information line 4 1 The value can only be written if it is assigned to a constant in the program Index hex Operand Read Write J The variables 1 to 4 index 18 to 21 are transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB input Data 1 EN1 FB output Data 3 Q12 1 Text function block enable...

Page 149: ...cture Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 1A 1A 3 Instance 01 20 01 20 4 Index J Table 79 J Table 79 5 8 Data 1 4 Read operation 00 depending on index J Table 80 Write operation depending on index J Table 80 00 ...

Page 150: ... that is transferred to the QV output when the FB is triggered I1 c1 03 Output value QV 1 The value can only be written if it is assigned to a constant in the program J The data for index 2 and 3 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB input Data 1 T1 FB output Data 3 Q12 1 Transfer of the value present at I1 on rising edge 2 Stat...

Page 151: ...e Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 27 27 3 Instance 01 20 01 20 4 Index J Table 81 J Table 81 5 8 Data 1 4 Read operation 00 depending on index J Table 82 83 Write operation depending on index J Table 82 83 ...

Page 152: ... time 0 1 s Value range 0 to 65535 TV c1 07 Scan time Time between function block calls Value range 0 1s to 6553 5s If 0 is entered as the value the scan time will be determined by the program cycle time TC c1 08 Manual manipulated variable value range 4096 to 4095 MV c1 09 Manipulated variable QV Mode UNI value range 0 to 4095 12 bit Mode BIP value range 4096 to 4095 13 bit 1 The value can only b...

Page 153: ...ivation of D component on status 1 3 Activation of I component on status 1 4 Activation of P component on status 1 5 Activates the function block on status 1 6 Status 1 if the value range of the medium voltage was exceeded Data 1 Operating mode UNP unipolar The manipulated variable is output as a unipolar 12 bit value Corresponding value range for QV 0 to 4095 BIP bipolar The manipulated variable ...

Page 154: ... Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 28 28 3 Instance 01 20 01 20 4 Index J Table 84 J Table 84 5 8 Data 1 4 Read operation 00 depending on index J Table 85 Write operation depending on index J Table 85 00 ...

Page 155: ...able 85 01 Mode Parameter 02 Input value value range 32768 to 32767 I1 c1 03 Recovery time 0 1 s Value range 0 to 65535 TG c1 04 Proportional gain Value range 0 to 65535 KP c1 05 Delayed output value value range 32768 to 32767 QV 1 The value can only be written if it is assigned to a constant in the program Bit 7 6 5 4 3 2 1 0 FB output Data 3 EN1 1 Activates the function block on status 1 ...

Page 156: ... 0 Toggle byte J page 94 1 Command Read 92 Response Read successful C2 Command rejected C0 2 Type 1B 1B 3 Instance 01 20 01 20 4 Index J Table 86 5 8 Data 1 4 00 depending on index J Table 87 88 Index hex Operand Read Write 00 Bit IO J Table 87 01 Mode Parameters J Table 88 02 Output value actual value from the network QV J The data for index 2 is transferred as a 32 bit value in Intel format Data...

Page 157: ... with data to be received Bit 7 6 5 4 3 2 1 0 FB output Data 3 Q1 1 Status 1 if a new value is present that is transferred from the NET network Mode Data 1 NET ID1 0 NET ID 1 7 NET ID 8 Parameters Data 3 Instance2 0 PT01 31 PT32 1 Number of station sending the value Possible station numbers 01 to 08 2 Send FB e g PT 20 of the sending NET station Possible station numbers 01 32 ...

Page 158: ...e Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Response Read successful C2 Command rejected C0 2 Type 1C 1C 3 Instance 01 20 01 20 4 Index J Table 89 5 8 Data 1 4 00 depending on index J Table 90 Index hex Operand Read Write 00 Bit IO J Table 90 01 Mode Parameter 02 Parameters J Table 91 Channel A 03 Channel B 04 Channel C 05 Channel D ...

Page 159: ...dex 2 5 Parameter channels A D Bit 7 6 5 4 3 2 1 0 FB output Data 3 Q1 1 Status 1 if the switch on condition is fulfilled Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Date 2 Date 1 ON d4 d3 d2 d1 d0 h4 h3 h2 h1 h0 m5 m4 m3 m2 m1 m0 Weekday Hour Minute Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Date 4 Date 3 OFF d4 d3 d2 d1 d0 h4 h3 h2 h1 h0 m5 m4 m3 m2 m1 m0 Weekday Hour Minute m5 to m0 Minute 0 to 59 h4 to h0 Ho...

Page 160: ...3 Instance 13 13 4 Index 02 02 5 Data 1 00 62 6 Data 2 00 0B 7 Data 3 00 7B 8 Data 4 00 25 Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Date 2 0Bhex Date 1 62hex ON 0 0 0 0 1 0 1 1 0 1 1 0 0 0 1 0 Weekday Hour Minute Switch on time Weekday 01hex Monday Hour 0Dhex 1300 hours Minute 22hex 34 minutes Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Date 4 25hex Date 3 7Bhex OFF 0 0 1 0 0 1 0 1 0 1 1 1 1 0 1 1 Weekday Hour...

Page 161: ...yte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Response Read successful C2 Command rejected C0 2 Type 1D 1D 3 Instance 01 20 01 20 4 Index J Table 92 5 8 Data 1 4 00 depending on index J Table 93 Index hex Operand Read Write 00 Bit IO J Table 93 01 Mode Parameter 02 Parameters J Table 94 Channel A 03 Channel B 04 Channel C 05 Channel D ...

Page 162: ...t Data 3 Q1 1 Status 1 if the switch on condition is fulfilled Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Date 2 Date 1 ON y6 y5 y4 y3 y2 y1 y0 m3 m2 m1 m0 d4 d3 d2 d1 d0 Year Month Day Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Date 4 Date 3 OFF y6 y5 y4 y3 y2 y1 y0 m3 m2 m1 m0 d4 d3 d2 d1 d0 Year Month Day d4 d0 Day 1 31 m3 m0 Month 1 12 y6 y0 Year 0 2000 99 2099 Index 2 5 Parameter channels A D Bit 7 6 5 4 3...

Page 163: ... d0 Year Month Day Switch off time Day 3 03hex 0000 0011b Month 10 October 0Ahex 0000 1010b Year 2012 0Chex 0000 1100b Index 2 5 Parameter channels A D Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Date 2 Date 1 Byte Meaning Value hex sent by Master Slave 0 Toggle byte 81 80 1 Command Write B2 Response Write successful C1 2 Type 1D 1D 3 Instance 0E 0E 4 Index 02 02 5 Data 1 8E 00 6 Data 2 06 00 7 Data 3 43 ...

Page 164: ...ture Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 29 29 3 Instance 01 20 01 20 4 Index J Table 95 J Table 95 5 8 Data 1 4 Read operation 00 depending on index J Table 96 Write operation depending on index J Table 96 ...

Page 165: ...nterpolation point 1 X coordinate value range 32 bit X1 c1 04 Interpolation point 1 Y coordinate value range 32 bit Y1 c1 05 Interpolation point 2 X coordinate value range 32 bit X2 c1 06 Interpolation point 2 Y coordinate value range 32 bit Y2 c1 07 Output value contains the scaled input value QV 1 The value can only be written if it is assigned to a constant in the program Bit 7 6 5 4 3 2 1 0 FB...

Page 166: ... reset function blocks MR01 MR32 Telegram structure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 1 Command Read 92 Response Read successful C2 Command rejected C0 2 Type 0F 0F 3 Instance 01 20 01 20 4 Index Bit IO 00 00 Mode 01 01 5 8 Data 1 4 00 depending on index J Table 97 98 ...

Page 167: ...7 6 5 4 3 2 1 0 FB input Data 1 T1 FB output Data 3 Q12 1 Trigger coil The appropriate Reset is executed if the coil is triggered with a rising edge 2 Status 1 if the trigger coil MR T is 1 Data 1 hex 00 Q Outputs Q Q S S SN QA01 are reset to 0 depending on the NET ID 01 M The marker range MD01 to MD48 is reset to 0 02 ALL Has an effect on Q and M ...

Page 168: ...eaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 2A 2A 3 Instance 01 20 01 20 4 Index J Table 99 J Table 99 5 8 Data 1 4 Read operation 00 depending on index J Table 100 101 Write operation depending on index J Table 100 101 00 ...

Page 169: ...nverted I1 c1 03 Output value contains the conversion result QV 1 The value can only be written if it is assigned to a constant in the program J The data for index 2 and 3 is transferred as a 32 bit value in Intel format Data 1 Low Byte Data 2 High Byte Bit 7 6 5 4 3 2 1 0 FB output Data 3 EN1 1 Activates the function block on status 1 Data 1 hex 00 BCD Converts a BCD coded decimal value to an int...

Page 170: ...yte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 1E 1E 3 Instance 01 04 01 04 4 Index J Table 102 J Table 102 5 8 Data 1 4 Read operation 00 depending on index J Table 103 Write operation depending on index J Table 103 00 ...

Page 171: ...I1 c1 03 Actual value of operating hours counter QV 1 The value can only be written if it is assigned to a constant in the program Bit 7 6 5 4 3 2 1 0 FB input Data 1 RE1 EN2 FB output Data 3 Q13 1 Reset coil Status 1 resets the counter actual value to zero 2 Enable coil 3 Status 1 if the setpoint was reached greater than equal to J The data for index 2 and 3 is transferred as a 32 bit value in In...

Page 172: ...oggle byte J page 94 1 Command Read 92 Response Read successful C2 Command rejected C0 2 Type 1F 1F 3 Instance 01 20 01 20 4 Index J Table 104 5 8 Data 1 4 00 depending on index J Table 105 Index hex Operand Read Write 00 Bit IO J Table 105 01 Mode Parameter 02 Input value Setpoint that it transmitted to the NET network I1 J The data for index 2 is transferred as a 32 bit value in Intel format Dat...

Page 173: ...w EatonElectrical com MN05013001E 169 Table 105 Index 0 Bit IO Bit 7 6 5 4 3 2 1 0 FB input Data 1 T1 FB output Data 3 Q12 1 Trigger coil The value is provided on the NET if the coil is triggered with a rising edge 2 Status 1 if the trigger coil PT T_ is also 1 ...

Page 174: ...cture Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 2B 2B 3 Instance 01 02 01 02 4 Index J Table 106 J Table 106 5 8 Data 1 4 Read operation 00 depending on index J Table 107 Write operation depending on index J Table 107 00 ...

Page 175: ...er 02 Manipulated variable value range 0 to 4095 12 bit SV c1 03 Period duration ms Value range 0 to 65535 PD c1 04 Minimum on duration ms Value range 0 to 65535 ME c1 1 The value can only be written if it is assigned to a constant in the program Bit 7 6 5 4 3 2 1 0 FB input Data 1 EN1 FB output Data 3 E12 1 Activates the function block on status 1 2 Status 1 if below the minimum on duration or mi...

Page 176: ... Read 92 Response Read successful C2 Command rejected C0 2 Type 20 20 3 Instance 01 01 4 Index J Table 108 5 8 Data 1 4 00 depending on index J Table 109 Index hex Operand Read Write 00 Bit IO J Table 109 01 Mode Parameter Bit 7 6 5 4 3 2 1 0 FB input Data 1 T1 FB output Data 3 Q12 1 Trigger coil If the coil is triggered rising edge the current date weekday and time of the sending station are auto...

Page 177: ...ure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 2C 2C 3 Instance 01 01 4 Index J Table 110 J Table 110 5 8 Data 1 4 Read operation 00 depending on index J Table 111 Write operation depending on index J Table 111 00 ...

Page 178: ...d overview Table 111 Index 0 Bit IO Index hex Operand Read Write 00 Bit IO J Table 111 01 Mode Parameter 02 Cycle time in ms value range 0 1000 I1 c1 1 The value can only be written if it is assigned to a constant in the program Bit 7 6 5 4 3 2 1 0 FB output Data 3 EN1 1 Activates the function block on status 1 ...

Page 179: ...ning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 21 21 3 Instance 01 20 01 20 4 Index J Table 112 J Table 112 5 8 Data 1 4 Read operation 00 depending on index J Table 113 114 Write operation depending on index J Table 113 114 ...

Page 180: ...h timing relay with 2 setpoints I2 c1 04 Actual value Time elapsed in Run mode QV 1 The value can only be written if it is assigned to a constant in the program J The data for index 2 to 4 is transferred as a 32 bit value in Intel format Data 1 Low Byte to Data 4 High Byte Bit 7 6 5 4 3 2 1 0 FB input Data 1 ST1 EN2 RE3 FB output Data 3 Q14 1 Stop the timing relay is stopped Stop coil 2 Enable the...

Page 181: ...ith random setpoint 2 Off delayed 3 Off delayed with random setpoint 4 On and off delayed two time setpoints 5 On and off delayed each with random setpoint two time setpoints 6 Impulse transmitter 7 Flashing relay two time setpoints 8 Off delayed retriggerable 9 Off delayed with random setpoint retriggerable Para meters Data 3 Operating mode 0 S milliseconds 1 M S seconds 2 H M minutes ...

Page 182: ...ure Byte Meaning Value hex sent by Master Slave 0 Toggle byte J page 94 J page 94 1 Command Read 92 Write B2 Response Read successful C2 Write successful C1 Command rejected C0 2 Type 2D 2D 3 Instance 01 20 01 20 4 Index J Table 115 J Table 115 5 8 Data 1 4 Read operation 00 depending on index J Table 116 Write operation depending on index J Table 116 ...

Page 183: ... Read Write 00 Bit IO J Table 116 01 Mode Parameter 02 Input value I1 c1 03 Upper limit value SH c1 04 Lower limit value SL c1 05 Output value outputs the value present at input I1 within the set limits QV 1 The value can only be written if it is assigned to a constant in the program Bit 7 6 5 4 3 2 1 0 FB output Data 3 EN1 1 Activates the function block on status 1 ...

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Page 185: ...tart PROFIBUS DP BUS LED lit Data transfer via PROFIBUS DP OK Slave not signalling No slave address set No bus terminating resistor present Cable plug faulty No power supply Set slave address Set bus terminating resistors Check connection Provide power supply to device Write command rejected Command not permissible EZ display not on the Status display Change command Show Status display Actual valu...

Page 186: ...Write T8 timing relay setpoint 09 Write C1 counter relay setpoint 0A Write C2 counter relay setpoint 0B Write C3 counter relay setpoint 0C Write C4 counter relay setpoint 0D Write C5 counter relay setpoint 0E Write C6 counter relay setpoint 0F Write C7 counter relay setpoint 10 Write C8 counter relay setpoint 12 Write time switch 1 channel A 13 Write time switch 1 channel B 14 Write time switch 1 ...

Page 187: ...ue comparator A3 25 Write analog value comparator A4 26 Write analog value comparator A5 27 Write analog value comparator A6 28 Write analog value comparator A7 29 Write analog value comparator A8 2A Write time 2B Read time switch 1 channel A 2C Read time switch 1 channel B 2D Read time switch 1 channel C 2E Read time switch 1 channel D 2F Read time switch 2 channel A 30 Read time switch 2 channel...

Page 188: ...omparators 40 Read status of markers digital outputs and text display markers 41 Read T1 actual value 42 Read T2 actual value 43 Read T3 actual value 44 Read T4 actual value 45 Read T5 actual value 46 Read T6 actual value 47 Read T7 actual value 48 Read T8 actual value 49 Read C1 counter relay actual value 4A Read C2 counter relay actual value 4B Read C3 counter relay actual value 4C Read C4 count...

Page 189: ...local analog inputs IA1 to IA4 02 1 4 Read local diagnostics ID1 to ID16 03 0 Read and write local QW0 outputs outputs of the stations QW1 to QW8 04 0 1 8 Reading and writing local analog output QA1 05 0 Reading local P buttons 1 06 0 Reading RW inputs SW outputs from EZ LINK 2 07 09 0 Reading receive data network RN1 RN32 send data network SN1 SN32 1 8 Reading receive data network RN1 RN32 send d...

Page 190: ...s D01 D32 19 1 20 Data function blocks DB01 DB32 1A 1 20 Receive network data function blocks GT01 GT32 1B 1 20 7 day time switches HW01 HW32 1C 1 20 Year time switches HY01 HY32 1D 1 20 Operating hours counters OT01 OT04 1E 1 4 Send network data function blocks PT01 PT32 1F 1 20 Synchronize clock function block SC01 20 1 Set cycle time function block ST01 21 1 20 Block compare function blocks BC0...

Page 191: ... to DIN 50022 35 mm Screw fixing with fixing brackets EZB4 101 GF1 accessories Ambient temperature Installed horizontally vertically Cold to IEC 60068 2 1 Heat to IEC 60068 2 2 25 to 55 C Condensation Prevent condensation with suitable measures Storage transport temperature 40 to 70 C Relative air humidity IEC 60068 2 30 5 to 95 non condensing Air pressure operation 795 to 1080 hPa Corrosion resis...

Page 192: ...sinusoidal 15 g 11 ms Drop IEC 60068 2 31 Drop height 50 mm Free fall packaged IEC 60068 2 32 1 m Electrostatic discharge IEC EN 61000 4 2 degree of severity 3 8 kV air discharge 6 kV contact discharge Electromagnetic fields IEC EN 61000 4 3 Field strength 10 V m Radio interference suppression EN 55011 EN 55022 Limit class A Burst IEC EN 61000 4 4 degree of severity 3 2kVsupplylines 1 kV signal li...

Page 193: ... strength EN 50178 Solid min 0 2 mm2 AWG 22 max 4 mm2 AWG 12 Flexible with ferrule min 0 2 mm2 AWG 22 max 2 5 mm2 AWG 12 Slot head screwdriver width 3 5 0 8 mm Tightening torque max 0 5 Nm Rated voltage Rated value 24 V DC 15 20 Permissible range 20 4 to 28 8 V DC Residual ripple 5 Input current at 24 V DC Normally 200 mA Voltage dips IEC EN 61131 2 10 ms Power dissipation at 24 V DC Normally 4 8 ...

Page 194: ...Function PROFIBUS DP slave Interface RS 485 Bus protocol PROFIBUS DP Baud rates Automatic search up to 12 MBd Bus terminating resistors Connectable via plug Bus addresses 1 to 126 addressable via EZ basic unit with display or EZSoft Services Inputs module All data S1 to S8 EZ EZD Outputs module All data R1 to R16 EZ EZD Control commands module Read Write Time day summer winter time DST All paramet...

Page 195: ...Dimensions For more information visit www EatonElectrical com MN05013001E 191 Dimensions Figure 9 Dimensions EZ204 DP mm M4 7 5 35 5 7 5 90 102 110 47 5 56 5 62 45 4 5 ...

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Page 197: ...ce with inputs and outputs that is connected to a technical process Programmable controllers PLCs are a special group of automation devices Baud Unit for the data transfer rate One baud corresponds to the transmission of one bit per second bit s Baud rate Unit of measure of the data transmission speed in bit s Bidirectional Operation in both directions Bus Bus cable system for data exchange betwee...

Page 198: ... modules are modules with an internal memory that are capable of executing particular commands such as output substitute values Common potential Electrical interconnection of the reference potentials of the control and load circuit of I O modules Configuring Systematic arrangement of the I O modules of a station CPU Abbreviation for Central Processing Unit Central unit for data processing which re...

Page 199: ...g A galvanic coupling occurs when two circuits use the same cable Typical sources of interference are for example starting motors static discharges clocked devices and a potential difference between the housing of components and the common power supply GND Abbreviation for GROUND 0 potential Ground In electrical engineering the name for conductive grounding with an electrical potential at any poin...

Page 200: ...ables Lightning protection Represents all measures for preventing system damage due to overvoltage caused by lightning strike Low impedance connection Connection with low alternating current resistance LSB Abbreviation for Least Significant Bit Bit with the least significant value Master Station or node in a bus system that controls communication between the other stations of the bus system Master...

Page 201: ...odules PROFIBUS DP PROFIBUS bus system with the DP protocol DP stands for decentralized periphery PROFIBUS DP is based on DIN 19245 Part 1 4 and was integrated in the European fieldbus standard EN 50170 It is used for high speed data exchange between the central DP master and the decentralized peripheral devices the DP slaves The comprehensive use is implemented by means of a multi master concept ...

Page 202: ... Represents a reference point for measuring and or visualizing the voltage of any connected electrical circuits Repeater Amplifier for signals transferred across a bus Response time In a bus system the time interval between the sending of a read job and the receipt of the response Within an input module it represents the time interval between the signal change at an input and its output to the bus...

Page 203: ...ic structure of a network or circuit arrangement UART Abbreviation for Universal Asynchronous Receiver Transmitter A UART is a logic circuit used for converting an asynchronous serial data sequence into a bit parallel data sequence or vice versa Unidirectional Working in one direction ...

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Page 205: ...103 Analog output Read write EZ800 EZD 109 Arithmetic function block Read write EZ800 EZD 124 B Bit array 47 Block Compare read write EZ800 EZD 126 Block Transfer read write EZ800 EZD 128 Boolean operation read write EZ800 EZD 130 Bus cable lengths 22 BUS LED 29 Bus terminating resistors 20 C Comparators Read write EZ800 EZD 140 Control commands EZ700 43 EZ800 EZD 93 Counter relays EZ700 76 Counte...

Page 206: ...status 65 E Electrical isolation 21 Error codes via EZ LINK EZ700 91 F Frequency counters Read write EZ800 EZD 134 Function blocks overview EZ700 72 EZ800 EZD 121 G GSD file 32 H High speed counter Read write EZ800 EZD 136 I Image data General information 49 Overview EZ700 50 Overview of EZ800 EZD 99 Incremental encoder counters Read write EZ800 EZD 138 Input data definition 35 Inputs EZ800 EZD re...

Page 207: ...ite EZ800 EZD 116 Master reset EZ700 70 Module Inputs 1 byte 38 Inputs 3 bytes 36 Outputs 1 byte 42 Outputs 3 bytes 38 N Network data EZ800 EZD read 152 168 Numerical converter Read write EZ800 EZD 164 O Operating hours counter EZ700 79 Read write EZ800 EZD 166 Operating mode invalid 91 Output data definition 35 Outputs of EZ LINK EZ700 read status 66 EZ800 EZD read status 112 Outputs local and ne...

Page 208: ...ZD read 152 Receiving network data EZ800 EZD 152 Resetting EZ EZD inputs outputs 38 S Send data network stations EZ800 EZD 114 EZ800 EZD read 168 Set cycle time Read write EZ800 EZD 173 Set operating mode 39 Setting the station address 26 Setting EZ EZD inputs outputs 38 Signal smoothing filter Read write EZ800 EZD 150 Standard diagnostics bytes 32 Status display EZ outputs S1 to S8 37 EZ EZD inpu...

Page 209: ...ch EZ700 73 Time change EZ800 96 Timing relays EZ700 81 EZ700 read status 68 Read write EZ800 EZD 173 Toggle byte EZ700 44 EZ800 EZD 94 Transfer rates 22 Transmit data network stations EZ800 EZD 114 V Value limitation Read write EZ800 EZD 178 Value scaling Read write EZ800 EZD 160 W Winter time EZ700 47 EZ800 EZD 96 Y Year time switch EZ700 85 EZ700 read status 69 EZEZD800 EZD read 157 ...

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Page 212: ... Eaton Corporation All Rights Reserved Printed in USA Publication No MN05013001E May 2005 Eaton Electrical 1000 Cherrington Parkway Moon Township PA 15108 4312 USA Tel 1 800 525 2000 www EatonElectrical com ...

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