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Siemens SIMOCODE pro, Function Manual

The Siemens SIMOCODE pro is a cutting-edge motor management system that ensures reliable and efficient operation. Obtain full control and optimization of your motors with this high-quality product. Enhance your operating experience by accessing the comprehensive Operating Manual, available for free download at manualshive.com.

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Tables, data records 

 

3.4 Tables, PROFINET data records 

 

SIMOCODE pro - Communication 

236

 

Function Manual, 11/2018, A5E40508495002A/RS-AC/003 

Byte.Bit  Designation 

Information 

PNIO 

diagnostic 

status **) 

PNIO error 

number (channel 

error type) 

Error no. 

29.5

 

 

Reserved bit[3]

 

 

 

 

 

30.0 

Faults - 

Miscellaneous 

Fault - External fault 1 

 

0x1070 

56 

30.1 

 

Fault - External fault 2 

 

0x1071 

57 

30.2 

 

Fault - External fault 3 

 

0x1072 

58 

30.3 

 

Fault - External fault 4 

 

0x1073 

59 

30.4 

 

Fault - External fault 5 

 

0x1074 

60 

30.5 

 

Fault - External fault 6 

 

0x1075 

61 

30.6 

 

Fault - Dry running pump 

 

0x104D 

62 

30.7 

 

Fault - Underfill protection -

 Fault 

 

0x104E 

63 

31.0 

 

Fault - AM1 open circuit 

AM1 

0x105B 

64 

31.1 

 

Fault - Test trip 

 

0x1055 

65 

31.2 

 

Fault - DM-F safety-related 

tripping 

DM-F 

0x0019 

66 

31.3 

 

Fault - DM-F wiring 

DM-FL 

0x1061 

67 

31.4 

 

Fault - DM-FL cross circuit 

DM-FL 

0x1062 

68 

31.5

 

 

Reserved bit[3]

 

 

 

 

 

32.0 

Faults - 

Protection 

extended 

Fault - TM2 trip T > 

TM2 

0x102E 

 

32.1 

 

Fault - TM2 sensor fault 

TM2 

0x102F 

 

32.2 

 

Fault - TM2 out of range 

TM2 

0x1030 

 

32.3

 

 

Reserved bit[5]

 

 

 

 

 

33.0 

Faults - Level 

monitoring 

extended 

Fault - Trip 0/4-20mA > 

AM2 

0x104A 

 

33.1 

 

Fault - Trip 0/4-20mA < 

AM2 

0x104B 

 

33.2

 

 

Reserved bit[6]

 

 

 

 

 

34.0 

Faults - 

Miscellaneous 

extended 

Fault - AM2 open circuit 

AM2 

0x105C 

 

34.1

 

 

Reserved bit[7]

 

 

 

 

 

35.0

 

 

Reserved bit[8]

 

 

 

 

 

36.0 

Warnings - 

Protection 

extended 

Warning - TM2 warning T > 

TM2 

0x102E 

 

36.1

 

 

Reserved

 

 

 

 

 

36.2 

 

Warning - TM2 sensor fault 

TM2 

0x102F 

 

36.3 

 

Warning - TM2 out of range 

TM2 

0x1030 

 

36.4

 

 

Reserved bit[4]

 

 

 

 

 

Summary of Contents for SIMOCODE pro

Page 1: ..._______________ ___________________ Industrial Controls Motor management and control devices SIMOCODE pro Communication Function Manual 11 2018 A5E40508495002A RS AC 003 Introduction 1 Communication 2 Tables data records 3 List of abbreviations A ...

Page 2: ...ersonnel qualified for the specific task in accordance with the relevant documentation in particular its warning notices and safety instructions Qualified personnel are those who based on their training and experience are capable of identifying risks and avoiding potential hazards when working with these products systems Proper use of Siemens products Note the following WARNING Siemens products ma...

Page 3: ...ion of SIMOCODE pro as an S7 slave via OM SIMOCODE pro 32 2 1 5 6 Compatibility of SIMOCODE pro S and SIMOCODE pro V 33 2 1 6 Evaluating diagnostics data 34 2 1 6 1 Evaluating diagnostics data 34 2 1 6 2 SIMOCODE pro integrated with GSD 34 2 1 6 3 Integration of SIMOCODE pro in SIMATIC S7 with OM SIMOCODE ES 36 2 1 7 Data records 37 2 1 8 Parameterization via PROFIBUS 38 2 1 8 1 SIMOCODE ES Premiu...

Page 4: ...5 2 4 8 Parameterizing the device 116 2 4 9 Integrating SIMOCODE pro into the automation system PLC 117 2 4 10 Integration and commissioning in Rockwell Studio 5000 118 2 4 11 Ethernet IP Device Level Ring functionality 119 2 4 12 EtherNet IP system redundancy 119 2 4 13 Web diagnostics 120 2 4 14 Time of day synchronization by the NTP procedure 122 2 4 15 Simple Network Management Protocol SNMP 1...

Page 5: ... Extended device parameters 2 196 3 3 2 17 Data record 139 Marking 197 3 3 2 18 Data record 160 Communication parameters 198 3 3 2 19 Data record 165 Identification 198 3 3 2 20 Data record 202 Acyclic receive 199 3 3 2 21 Data record 203 Acyclic send 200 3 3 2 22 Data record 224 Password protection 201 3 4 Tables PROFINET data records 202 3 4 1 PROFINET tables 202 3 4 1 1 OPC UA variables 202 3 4...

Page 6: ...2 5 Device diagnostics 282 3 5 2 6 Error memory 289 3 5 2 7 Event memory 290 3 5 2 8 Trace data 291 3 5 2 9 I M0 device identification 292 3 5 2 10 I M1 data 292 3 5 2 11 I M2 Installation date 293 3 5 2 12 I M3 Comment 293 3 5 2 13 Basic device parameter 1 294 3 5 2 14 Extended device parameters 1 301 3 5 2 15 Marking 312 3 6 EtherNet IP data tables 313 3 6 1 Supported objects 313 3 6 2 Identity ...

Page 7: ...e manual SIEMENS reserves the right to include updated information about new components or new versions of components in a Product Information Manual Collection A Manual Collection https support industry siemens com cs document 109743951 a collection of the following five SIMOCODE pro manuals is at your disposal in Industry Online Support SIMOCODE pro 1 Getting Started SIMOCODE pro 2 System Manual...

Page 8: ...25 5 s default 0 Brief description of the responses Tripping The contactor controls QE are tripped A fault message is generated which is available as a diagnosis via PROFIBUS DP The fault message and the device internal signal remain on until the appropriate length of time has elapsed or the cause of the fault has been eliminated and acknowledged Warning In addition to the device internal signal a...

Page 9: ...bility The products described here have been developed to carry out safety related functions as part of a complete plant or machine In general a complete safety system consists of sensors evaluation units signaling devices and methods for safe tripping The manufacturer is responsible for ensuring safe functioning of the complete plant or machine Siemens AG its subsidiaries and associated companies...

Page 10: ...ponents should only be connected to the enterprise network or the internet if and to the extent necessary and with appropriate security measures e g use of firewalls and network segmentation in place Additionally Siemens guidance on appropriate security measures should be taken into account For more information about industrial security please visit https www siemens com industrialsecurity Siemens...

Page 11: ...afety requirements on the part of the operator The supplier is also obliged to comply with special product monitoring measures For this reason we publish a special newsletter containing information on product developments and features that are or could be relevant to operation of safety related systems By subscribing to the appropriate newsletter in the Industry newsletter system https www industr...

Page 12: ...Introduction 1 3 Current information about operational safety SIMOCODE pro Communication 12 Function Manual 11 2018 A5E40508495002A RS AC 003 ...

Page 13: ...r with characteristics to EN 50 170 Volume 2 PROFIBUS with the DP protocol is referred to as the DP master Class 1 master A Class 1 master is an active station on PROFIBUS DP It is characteristically used for cyclic data exchange with other stations Typical Class 1 masters include PLCs with a PROFIBUS DP connection Class 2 master A class 2 master is an optional station on the PROFIBUS DP Typical c...

Page 14: ...missioning and maintenance of devices e g transducers controllers SIMOCODE and for configuring networks and PCs SIMOCODE pro S7 slave A SIMOCODE pro S7 slave is a slave which is fully integrated into STEP7 It is connected via OM SIMOCODE pro It supports the S7 model diagnosis interrupts hardware interrupts Writing data Writing data means that data is transmitted to the SIMOCODE pro system Reading ...

Page 15: ...communication SIMOCODE pro Communication Function Manual 11 2018 A5E40508495002A RS AC 003 15 2 1 2 Data transfer Options for data transfer The following figure shows the data transfer options Figure 2 1 Options for data transfer ...

Page 16: ...s Figure 2 2 Communication principle 2 1 3 Fail safe data transfer via PROFIBUS PROFIsafe SIMOCODE pro V as from version E07 in conjunction with a fail safe control F CPU and the SIMOCODE pro expansion module DM F PROFIsafe supports fail safe shutdown of motors by means of data transmission via the PROFIsafe profile You will find more information on using this function in the manual SIMOCODE pro f...

Page 17: ...r to SIMOCODE pro Designation Length Designation Information Basic type 1 4 bytes of receive data Cyclic receive bits 0 0 to 1 7 GG SIMOCODE pro S pro V PB Cyclic receive analog value Basic type 2 2 bytes of receive data Cyclic receive bits 0 0 to 1 7 GG SIMOCODE pro C pro S PROFIsafe 5 bytes of receive data 1 bit net data assigned permanently to the relay enabling circuits BU SIMOCODE pro V Table...

Page 18: ...the transmission of diagnostics data or interrupts to the PLC Diagnostics for device faults e g parameterization errors hardware faults Diagnostics for process faults In the case of events identified as S in the column headed DP diagnostics in the Data record 92 Diagnostics table the diagnostics data or interrupts are transferred to the PLC Diagnostics for process warnings In the case of events id...

Page 19: ...Communication Function Manual 11 2018 A5E40508495002A RS AC 003 19 2 1 4 3 Structure of the slave diagnostics Standard diagnostics extended diagnostics Figure 2 3 Structure of the slave diagnostics The diagnostics telegram has a maximum length of 62 bytes ...

Page 20: ...ave configuration have been entered in the configuring software 3 External diagnostics data exists group diagnostics indication Evaluate the identifier related diagnostics the status information and or the channel related diagnostics Bit 3 is reset as soon as all faults have been rectified The bit will be set again when there is a new diagnostics message in the bytes of the aforementioned diagnost...

Page 21: ... 0 7 The DP slave is deactivated i e it is decoupled from the current processing 1 Bit is updated only if another diagnostic message also changes Station status 3 Station status 3 is not relevant for the slave diagnostics Table 2 5 Structure of station status3 Bit Meaning 0 to 7 Bits are always 0 Master PROFIBUS address definition The PROFIBUS address of this DP master class 1 master is stored in ...

Page 22: ...n 22 Function Manual 11 2018 A5E40508495002A RS AC 003 Identifier related diagnostics definition Identifier related diagnostics begins at byte 6 and is 2 bytes long Identifier related diagnostics configuration Figure 2 4 Configuration of identifier related diagnostics ...

Page 23: ...OCODE pro If SIMOCODE pro is operated downstream from a Y Link module for connecting single channel DP slaves to S7 400H the so called H_STATUS is also signaled see Fig Structure of H_STATUS Status information configuration The status information is configured as follows Figure 2 5 Configuration of status messages You will find the detailed messages in Chapter Detailed messages of the slave diagno...

Page 24: ...Communication 2 1 PROFIBUS communication SIMOCODE pro Communication 24 Function Manual 11 2018 A5E40508495002A RS AC 003 The H_STATUS has the following structure Figure 2 6 Structure of H_STATUS ...

Page 25: ...diagnostics is configured as follows Figure 2 7 Configuration of the channel related diagnostics The block for the channel related diagnostics which has a length of 3 bytes is either missing if there is no channel related diagnostics or is available once or twice Fault types The diagnostic message is output on channel 0 Table 2 7 Fault types No Fault type Meaning cause F9 01001 Error Internal faul...

Page 26: ...pt the OB 82 diagnostic interrupt will be started in the SIMATIC S7 Diagnosis interrupt structure The diagnostic interrupt has the following structure Figure 2 8 Structure of the diagnostic interrupt The first byte of the block for diagnostic interrupt can be shifted by 3 or 6 bytes depending on the number of blocks for channel related diagnostics You will find a description of the information con...

Page 27: ...pt the hardware interrupt OB 40 will be started in the SIMATIC S7 Hardware interrupt structure The hardware interrupt has the following structure Figure 2 9 Structure of the hardware interrupt The first byte of the block for hardware interrupts can be shifted by 3 or 6 bytes depending on the number of blocks for channel related diagnostics The detailed messages can be found in Chapter Detailed mes...

Page 28: ... Cyclic data exchange Standard diagnostics Status information Hardware and diagnostic interrupts Parameterization during starting SIMOCODE pro C basic unit only Acyclic reading and writing of DPV1 data records Cyclic data exchange Standard diagnostics Status information Hardware and diagnostic interrupts Parameterization during starting SIMOCODE pro C basic unit only Acyclic reading and writing of...

Page 29: ... profibus gsd switching devices The following GSD files are available for SIMOCODE pro C SI0180FD GSG German SI0180FD GSE English SI0180FD GSF French The following GSD files are available for SIMOCODE pro S SI0181A7 GSG German SI0181A7 GSE English SI0181A7 GSF French The following GSD files are available for SIMOCODE pro V SI1180FD GSG German SI1180FD GSE English SI1180FD GSF French Note If you wa...

Page 30: ...c data Page 17 The default setting is basic type 2 If you wish to use basic type 1 delete the default basic type 2 module and insert basic type 1 instead Only in conjunction with the fail safe digital module DM F PROFIsafe Insert the PROFIsafe module in the second position in addition to Basic type 1 or Basic type 2 You will find more information about using the DM F PROFIsafe in the manual SIMOCO...

Page 31: ...or SIMOCODE pro S and SIMOCODE pro V only SIMOCODE pro S and SIMOCODE pro V can be integrated into two basic types basic type 1 or basic type 2 see Chapter Cyclic data Page 17 The default setting is basic type 2 If you wish to use basic type 1 delete the default basic type 2 module and insert basic type 1 instead Only in conjunction with the fail safe digital module DM F PROFIsafe Insert the PROFI...

Page 32: ...o basic types basic type 1 or basic type 2 see Chapter Cyclic data Page 17 Enter the desired basic type Basic type 1 or Basic type 2 as the module Only in conjunction with the fail safe digital module DM F PROFIsafe Enter the desired basic type Basic type 1 PROFIsafe or Basic type 2 PROFIsafe as the module You will find more information about using the DM F PROFIsafe in the manual SIMOCODE pro fai...

Page 33: ...DE pro S basic units can be addressed with unchanged functionality by configuring with a SIMOCODE pro C gsd file SIMOCODE pro C parameter settings using output 3 of the basic unit are changed in such a way when using SIMOCODE pro S that output 1 of the multifunction module is used instead of output 3 of the basic unit For configurations that use the new functions of the SIMOCODE pro S multifunctio...

Page 34: ... took place in the DP slave properties and specify whether interrupts are enabled In SIMATIC STEP7 this is carried out in HW Config via the properties of the DP slave Behavior and sequence in STEP7 Behavior and sequence in STEP7A diagnosis interrupt OB 82 is triggered in the CPU every time a new device fault is diagnosed whereas a hardware interrupt OB 40 is triggered every time a new process faul...

Page 35: ...ch are recorded by the process via SIMOCODE pro Information concerning hardware faults is transmitted via channel related diagnostics Behavior and sequence in STEP7 OB 82 is started in the CPU every time a new device or process fault warning status information is diagnosed If OB 82 has not been programmed the CPU switches to STOP mode Readout of the slave diagnostics data with STEP7 You can determ...

Page 36: ...nformation described in Section Structure of the slave diagnostics Page 19 The first byte which is read corresponds to byte 28 You will find further information on SFB 54 in the STEP7 online help DP masters operated in DP mode S7 compatible e g all early SIMATIC S7 300 400 DP master systems Behavior and sequence in STEP7 Behavior and sequence in STEP7A diagnosis interrupt OB 82 is triggered in the...

Page 37: ...terization is possible for example by SIMOCODE pro You can use these services as long as they are supported by your DP master You will find an overview of the records provided by SIMOCODE pro in Chapter PROFIBUS data records Page 157 Unlike when cyclic I O data is accessed special function blocks must be called in the PLC to access DPV1 data records in the user program Access to data records in ST...

Page 38: ...ystem connections for PROFIBUS mentioned above are operated in conjunction with SIMOCODE ES Premium as master class 2 and use acyclic DPV1 communication functions for communication with SIMOCODE pro If SIMOCODE pro has been integrated as an S7 slave you can utilize the routing functionality provided by SIMOCODE ES Premium A prerequisite for the availability of this function is that an online conne...

Page 39: ...c transfer of parameter data during startup Routing via S7 stations Example Parameterization of all SIMOCODE pro devices from a central engineering station together with hardware components which provide a data record gateway CP443 5 Extended IE PB link beyond the boundaries of different networks where required Note The startup parameter block Device parameters Bus parameters must always be set fo...

Page 40: ...OCODE pro C The SIMOCODE pro parameters are created by configuring the device specific parameters on the slave properties page in the SIMOCODE ES software with integration of SIMOCODE pro into STEP7 HW Config as an S7 slave via OM SIMOCODE pro This option is available for SIMOCODE pro C SIMOCODE pro S and SIMOCODE pro V You can start the SIMOCODE ES software for easy configuration of the parameter...

Page 41: ...cause names are easier to handle than complex IP addresses Assignment of a device name for a specific IO device is comparable to setting the PROFIBUS address on a DP slave An IO device does not have a device name when it is delivered It can only be addressed by an IO controller once a device name has been assigned to it e g for transmission of the configuration data including the IP address during...

Page 42: ...he process data is made possible by the OPC UA server OPC UA server The OPC server provides the OPC client with a wide range of functions with which it can communicate via industrial networks SIMOCODE pro V PN GP provides extensive process data via OPC UA PROFINET Within the context of Totally Integrated Automation TIA PROFINET is the systematic development of the following systems PROFIBUS DP the...

Page 43: ...ply data security solutions for offices to industrial applications without any adaptation Requirements The special requirements of communication in an industrial environment e g communication in real time result in additional requirements for security in industrial use Protection against interaction between automated cells Protection of network segments Protection from unauthorized access Scalabil...

Page 44: ...using authentication procedures This prevents access to a protected segment by unauthorized persons from outside Encryption of the data traffic The confidentiality of the data is ensured by encrypting the data traffic For this purpose every security module is given a VPN certificate which includes the encryption key Guidelines on information security in industrial automation VDI guideline The VDI ...

Page 45: ...IMOCODE pro IO device via PROFINET Ethernet 2 Communication between PC with parameterization software SIMOCODE ES and SIMOCODE pro via PROFINET 3 Communication between PC with parameterization software SIMOCODE ES Premium and SIMOCODE pro via SIMATIC S7 SIMOCODE pro integrated into SIMOCODE ES TIA Portal 4 Communication between PC parameterization software SIMOCODE and SIMOCODE pro via the SIMOCOD...

Page 46: ... performs the standard control tasks while a second fail safe automation system via PROFINET IO can be used for safety related tripping using the PROFIsafe profile Use of this function depends on whether the automation system supports the function It is configured using the configuration tool of the automation system e g with STEP 7 HW Config Media redundancy SIMOCODE pro V PN supports media redun...

Page 47: ...tral universal system for flexible short term and intelligent shutdown of individual loads or whole production units SIMOCODE pro V PN supports the functions defined in the protocol in the form of a switchgear with switching and measuring functions You will find more information in the system manual SIMATIC PROFINET System Description see System manual SIMATIC PROFINET System Description https sup...

Page 48: ...ions which define the structure and length of the I O data that are cyclically transferred between the IO controller PLC and the IO device SIMOCODE pro In the case of SIMOCODE pro these configurations are termed Basic types Cyclic data to SIMOCODE pro V PN GP The following basic types are available Basic type 1 4 bytes Figure 2 11 Cyclic data to SIMOCODE pro basic type 1 4 bytes Basic type 2 2 byt...

Page 49: ...munication Function Manual 11 2018 A5E40508495002A RS AC 003 49 Basic type 3 6 bytes Figure 2 13 Cyclic data to SIMOCODE pro basic type 3 6 bytes PROFIsafe 1 F DO Permanently assigned to the fail safe relay enable circuits of the DM F PROFIsafe length 5 bytes ...

Page 50: ...ation 50 Function Manual 11 2018 A5E40508495002A RS AC 003 Cyclic data from SIMOCODE pro V PN Basic type 1 10 bytes Figure 2 14 Cyclic data from SIMOCODE pro basic type 1 10 bytes Basic type 2 4 bytes Figure 2 15 Cyclic data from SIMOCODE pro basic type 2 4 bytes ...

Page 51: ...nloading at the following link PROFINET GSD https www siemens com profinet gsd Note GSD for SIMOCODE pro V PN GP Different GSDs are available for 1 port 2 port devices After installation of the GSD you will find SIMOCODE pro V PN GP in the hardware catalog of STEP7 V5 under Hardware Catalog Additional Field Devices PROFINET IO Switching Devices Siemens AG Motor Management System Insert the SIMOCOD...

Page 52: ... the device parameters are available in the form of start up parameter data records in the CPU and are automatically transmitted during start up The necessary OM SIMOCODE pro V PN software is part of SIMOCODE ES During installation of SIMOCODE ES select the Integration in STEP 7 installation option to use the described function When the hardware is being configured SIMOCODE pro V PN is integrated ...

Page 53: ...ration and then the complete device parameterization performed with SIMOCODE ES of the replaced device Note Do not use a memory module or initialization module To use this function you do not have to and indeed must not use of a memory module or an initialization module For further information see Chapter Restoring factory settings in SIMOCODE pro System Manual https support industry siemens com c...

Page 54: ...of the automation system e g STEP 7 or with the SIMOCODE ES configuration software and transmitted into the IO device via Ethernet For transmission the basic unit must be connected and accessible via the Ethernet interface Using the MAC address e g 00 0E 8C BD 1F 27 printed on the front of the basic unit the device can be accessible via LAN In this case the Overwrite device name in device paramete...

Page 55: ...n the Online Diagnostic Functions This function is not identical with parameterization with the PROFINET parameter dialog box Unlike in this dialog box under PROFINET Parameters Station the Overwrite device name in device parameter must not be active Note Changing the device name Every change to the device name with SIMOCODE ES in the PROFINET Parameters dialog box requires a restart of the commun...

Page 56: ...write IP parameters in device parameter under PROFINET Parameters IP Parameters must be active Note Transferring the device parameters It is always possible to transfer the device parameters via the system interface If the PROFINET IO device name has already been configured in a different way the device parameters can be transferred via PROFINET too Note Assigning the IP parameters The IP paramete...

Page 57: ...and with SIMOCODE ES and transferred to the device or read out of the device In STEP 7 the identification data are displayed on the Module status and Properties tab cards and loaded into the modules with Load module identification data with menu item Target System It is possible to transfer data already in the device into the configuration with Load module identification data into the programming ...

Page 58: ...e system redundancy function is not available when the Shared Device Function is used 2 2 12 Media redundancy Media redundancy support The media redundancy protocol manages a redundant network The data that are exchanged between IO controller and IO device are transmitted via two different paths If both Ethernet ports are used the function enables communication to be maintained even if one of the ...

Page 59: ... device In this mode only one of the two CPUs establishes a communication link to the IO device The disadvantage of operating an IO device as a non redundant device is that it will fail in the event of failure of the CPU to which it is linked Note Firmware version of the H CPU System redundancy is supported with H CPU firmware version V6 0 3 and higher SIMOCODE pro V PN with system redundancy The ...

Page 60: ...nd the other three IO devices as redundant system units Figure 2 18 S7 400 H system with redundant and non redundant I Os S7 400H system SCALANCE e g X400 SIMOCODE pro as a redundant IO device SIMOCODE pro as a non redundant IO device Maximum number of IO devices You can connect a maximum number of 256 IO devices to the two integrated PN IO interfaces The station numbers range from 1 to 256 and mu...

Page 61: ...iguring H systems Procedure Set up a new H station in the SIMATIC Manager and open HW Config for the station 1 Insert a rack 400 e g UR2 H for redundant controllers 2 Insert a CPU 400 H PN DP e g CPU 4174 5H PN DP 3 Network the Ethernet interface in the normal way and set the IP parameters 4 Configure a power supply module and the H Sync modules 5 Copy the station that you have set up To do this s...

Page 62: ... a redundant IO device as described above and then navigate to the tab card labeled Redundancy in the module properties dialog By activating the checkbox you can assign the IO device to a single IO system and thus to a single CPU Figure 2 20 Redundancy tab card in module properties screen Configure the SIMOCODE pro V PN GP specifically as a non redundant IO at the relevant IO system Figure 2 21 SI...

Page 63: ...tem are in the same subnet As an alternative each CPU can be networked with a different subnet In this case the IO devices will always be connected as non redundant units Note Shared device function The system redundancy function is not available when the Shared Device Function is used Note Product version of SIMOCODE pro V PN basic unit System redundancy is supported by product version E05 and hi...

Page 64: ...LANCE X400 non redundant IO device SIMOCODE pro V PN GP non redundant redundant system IO device SIMOCODE pro V PN GP MRP non redundant redundant system IO device Note Response monitoring time of IO devices RT communication is interrupted station failure if the reconfiguration time setting of the ring is higher than the response monitoring time setting of the IO devices For this reason make sure t...

Page 65: ...with different diagnostics states Maintenance required Maintenance demand maintenance requested All SIMOCODE pro monitoring functions with warn configured as their response are transmitted with this diagnostics status Failure All SIMOCODE pro monitoring functions with trip configured as their response are transmitted with this diagnostics status Configuring the diagnostics response The diagnostics...

Page 66: ...larm is generated with the maintenance demand diagnostics status Tripping A diagnostics alarm is generated with the fault diagnostics status Evaluating diagnostics with SIMATIC S7 300 400 and STEP 7 V5 Diagnostics with STEP 7 HW Config In the online display of STEP 7 HW Config after selection of the corresponding module in this case SIMOCODE pro V PN the status of the module is determined with the...

Page 67: ... the programming manual PROFINET IO from PROFIBUS DP to PROFINET IO https support automation siemens com WW view en 19289930 Chapter 8 Diagnostics in the STEP 7 User Program Evaluating diagnostics alarms with SFB 54 RALRM in OB 82 SIMOCODE pro V PN GP as a diagnostics capable IO device detects both internal faults e g of hardware components and events relating to the motor feeder and generates a d...

Page 68: ...formation with the 0xE00A diagnostics data record for the pending faults from SIMOCODE pro V PN at the device level INDEX W 16 E00A With the MLEN variable you specify the maximum number of bytes to be read For this reason you select the target area RECORD to be at least the same size as MLEN The true value of the VALID output parameter indicates that the data record has been successfully transferr...

Page 69: ...s information from SIMOCODE pro V PN is evaluated at the addressing level for the slot Overview of the diagnostics data records Table 2 14 Diagnostics data records at slot level Diagnostics data record No Diagnostic status 0xC010 Maintenance required 0xC011 Maintenance demand 0xC00A Fault 0xC00C All maintenance required maintenance demand fault Example Reading the diagnostics data record 0xC00C pr...

Page 70: ...ucture Identifier 2 bytes Number of repeats number of entries ChannelNumber 2 bytes ChannelProperties 2 bytes ChannelErrorType 2 bytes Data block BlockType Table 2 16 Data block BlockType BlockType Meaning 0x0010 Diagnostics data record 0x0001 Alarm transport channel 1 0x0002 Alarm transport channel 2 Data block BlockLength In the BlockLength data field the number of the following bytes of the dia...

Page 71: ...e 2 18 Data blocks SlotNumber SubslotNumber Designation SlotNumber SubslotNumber Head module Interface Port 1 Port 2 0x0000 0x0001 0x8000 0x8001 0x8002 I O module 0x0001 0x0001 PROFIsafe 1 0x0002 0x0001 1 Only in conjunction with fail safe DM F PROFIsafe expansion module Data block ChannelNumber Table 2 19 ChannelNumber ChannelNumber Meaning 0x0000 0x7FFF Manufacturer specific 0x8000 Submodule Dat...

Page 72: ...nance Demanded Bit 10 Specifier Bit 12 11 Meaning Diagnostics in user programs SIMATIC S7 300 and SIMATIC S7 400 0 0 00 All lower level diagnostics are no longer pending Evaluation of diagnostic interrupts with SFB54 in the OB82 01 Diagnostics active Evaluation of diagnostic interrupts with SFB54 in the OB82 read data records with SFB52 10 Diagnostics no longer active Evaluation of diagnostic inte...

Page 73: ...gnostics is active Evaluation of diagnostic interrupts with SFB54 in the OB82 read data records with SFB52 10 Graded diagnostics no longer active Evaluation of diagnostic interrupts with SFB54 in the OB82 11 Graded diagnostics no longer active all others still active Data block ChannelProperties Specifier Bit 11 12 Table 2 23 ChannelProperties Specifier bit 11 12 Value Meaning Diagnostics in user ...

Page 74: ...zation bus end 0x8004 Loss of clock synchronization device end 0x8005 Slave to slave traffic connection error 0x8008 Error in network component 0x8009 Timebase error Device diagnostics 0x1000 Execution ON command 0x1001 Execution stop command 0x1002 Feedback FB ON 0x1003 Feedback FB OFF 0x1004 Stalled positioner 0x1005 Double 0 0x1006 Double 1 0x1007 End position 0x1008 Antivalence 0x100A Cold sta...

Page 75: ...l 0 4 20mA 0x104C Stalled rotor 0x1055 Test trip 0x1057 Number of starts 0x105B AM1 open circuit 0x105C AM2 open circuit 0x105D DM F safety related tripping 0x1061 DM F wiring 0x1062 DM F cross circuit 0x1070 External fault 1 0x1071 External fault 2 0x1072 External fault 3 0x1073 External fault 4 0x1074 External fault 5 0x1075 External fault 6 1 Further details of the cause of error can be obtaine...

Page 76: ...n ON command BlockType 0x0010 Diagnostics data record BlockLength 0x0016 Block length 22 bytes BlockVersion 0x0101 always 0x0101 in the case of SIMOCODE API 0x00000000 always 0 in the case of SIMOCODE SlotNumber 0x0001 Slot 1 I O address SubslotNumber 0x0001 Sub slot 1 ChannelNumber 0x8000 Submodule ChannelProperties 0x0800 Pending diagnostics USI User Structure Identifier 0x8000 Channel diagnosti...

Page 77: ...6 0 Logical address 0 LEN W 16 00AC Data record length 172 bytes 0x00AC With SFB 53 WRREC you read the data record with number INDEX into the SIMOCODE pro V PN GP IO device addressed by means of ID ID contains the logical address with which SIMOCODE pro V PN GP was configured in STEP 7 HW Config Example SIMOCODE pro V PN GP was configured in STEP 7 HW Config with basic type 2 I address 16 O addres...

Page 78: ...gy saving modes Read out the energy saving mode PEM_Status 0x04 Read out of the PROFIenergy status PE_Identify 0x05 Read out of the supported PROFIenergy services Query_Measurement get measurement list get measurement values 0x10 Measured values Query the list of supported measured values Read out the supported measured values Start_Pause The Start_Pause command result in direct shutdown of the mo...

Page 79: ...a enabled control stations Note Command End_Pause The command to switch on has to be output again because subsequent automatic switch on is not performed Note Switching on the motor in the paused condition If the PLC PCS control station is disabled the motor can also be switched on in the paused condition Query_Measurement Depending on the use of the current measuring or the current voltage measur...

Page 80: ...P In the application description in Chapter 4 2 FB 815 PE_START_END functionality you will find the description of the block with which the PE_START_Pause or PE_END_Pause commands can be directly transferred to an IO device With the FB 815 PE_START_END function block you can transfer the START_Pause or END_Pause commands directly to SIMOCODE pro V PN GP For use of further functions in Chapter 4 3 ...

Page 81: ...l and can therefore be easily integrated on Microsoft operating systems COM or DCOM Distributed COM provides the functionality of interprocess communication and organizes information exchange between applications including across computer boundaries DCOM An OPC client COM client can therefore exchange information with an OPC server COM server using mechanisms of the Microsoft operating system The ...

Page 82: ...g the SIMOCODE pro V PN OPC UA server Requirements Activating the OPC UA server In the default setting the OPC UA server is not active For activation the parameter PROFINET Parameters OPC UA Server Activated must be set Note Restarting the communication interface Each change to the Activate OPC UA server parameter requires that the communication interface be restarted A new start of the communicat...

Page 83: ... PROFINET Parameters IP Parameters Note If the IP parameters are changed during an active OPC UA connection under Online access Accessible nodes Online Diagnostics Functions Assign IP address then a restart is necessary with Commissioning Command Restart Cold start Connecting to the SIMOCODE pro OPC UA server Introduction An OPC UA client can access process values in the hierarchical namespace of ...

Page 84: ...ty Policy MessageSecurityMode None 1 None Basic128Rsa152 SignAndEncrypt 2 1 Exchange of certificates is deactivated 2 The data packets are signed and encrypted with the certificates Note When using the MessageSecurityMode SignAndEncrypt the connection timeout effective in the OPC UA Client must be set to at least 15 s DANGER Unsecured connection between the client and the server possible Use the s...

Page 85: ...nostics Read Diagnostic events Diagnostic status Diagnostic trips Diagnostic warnings Measured values Measured values Read Statistics Display and statistical data Read Acyclic receive Receive data OPC UA Receive Read write Analog value Analog value Bit 0 0 1 7 Digital receive data Acyclic send Send data OPC UA Send Read Bit 0 0 1 7 1 Digital send data 1 The current assignment of the OPC UA send da...

Page 86: ...d send data with SIMOCODE ES OPC UA Receive The bit information that is to be transferred via OPC UA Receive to SIMOCODE pro is also assigned by configuring with SIMOCODE ES OPC UA variables write Receive data byte 0 bits 0 7 Receive data byte 1 bits 0 7 Receive data byte 2 3 Data to SIMOCODE pro V PN GP Figure 2 24 OPC UA Receive 0 1 2 3 function blocks ...

Page 87: ...c receive Bit 0 0 Motor ON OPC UA Acyclic receive Bit 0 1 Motor OFF OPC UA Acyclic receive Bit 0 2 Motor ON Figure 2 25 Example of OPC UA motor control Note Write access Write access is only possible if a secure connection is used with Security policy Basic128Rsa15 and with Message security mode SignAndEncrypt Note Non maintained command mode Do not use the non maintained command mode for motor co...

Page 88: ...OCODE pro no fault is triggered If failure of the OPC UA connection of SIMOCODE pro is to be monitored this can be done as follows WARNING The drive cannot be controlled Can result in death serious injury or property damage If the connection is interrupted the drive cannot be controlled while the OPC UA connection monitoring time is active Take suitable safety measures to avoid personal injury or ...

Page 89: ... configuring with SIMOCODE ES OPC UA variables read Send data byte 0 bits 0 7 Send data byte 1 bits 0 7 Data from SIMOCODE PRO V PN GP Figure 2 27 OPC UA Send 0 1 function blocks Example The feedback of the switching state of the motor is transferred to the client via OPC UA When selecting the variables in the OPC UA client the assigned status signals are then as follows Figure 2 28 Configuration ...

Page 90: ... OPC UA Send Bit 0 0 Status ON Acyclic Send Status On OPC UA Send Bit 0 1 Status Off Acyclic Send Status Off OPC UA Send Bit 0 2 Status ON Acyclic Send Status On OPC UA Send Bit 0 3 Not connected Acyclic Send Not connected OPC UA Send Bit 1 7 Not connected Acyclic Send Status On Note Restarting the communication interface Each change to the configuration of the OPC UA send data requires that the c...

Page 91: ...aults Execution of the test function Number of web server connections One connection is supported Web diagnostics are available in Chinese Russian English and German Activating the web server The default setting of the web server is not active To activate it the PROFINET Parameters Web Server Activated parameter must be active Note Restarting the communication interface Each change to the configur...

Page 92: ...ended version Version 11 Firefox recommended version Version 56 Google Chrome recommended version Version 62 Opera recommended version Version 49 0 Note Connection to a web client Connection to a web client is supported Settings of the web browser for access to the information Check the following settings which are a precondition for access to the information made available via the web To load the...

Page 93: ...o install the SIMOCODE pro CA certificate once for the web client inquestion and it then applies to all SIMOCODE pro V PN devices If you do not install the CA certificate the web browser will signal a certificate error when the connection is established to SIMOCODE pro V PN Time of day synchronization by the NTP procedure SIMOCODE pro V PN GP has a non battery backed realtime clock that can be syn...

Page 94: ...ject navigation window and then select Connect online to establish a direct connection to the device Expand the list of device settings by clicking on the arrow on the left of the SIMOCODE device You can now select Commissioning Set time PC time in UTC to download the time of day of your PC to the SIMOCODE device Note Command execution Commands are executed immediately If a valid time of day is av...

Page 95: ...lave address 0 which are not acknowledged by the slaves 2 3 1 2 Supported data transfer rates for RTU SIMOCODE pro supports the following data transfer rates in Modbus RTU mode 300 baud 600 baud 1 200 baud 2 400 baud 4 800 baud 9 600 baud 19 200 baud default setting 57 600 baud 2 3 1 3 Assignment of SIMOCODE data to Modbus addresses with Modbus RTU All SIRIUS data are available in datasets or in t...

Page 96: ...he master or it accepts the bits registers written by the master into the internal SIMOCODE memory The master sends requests to one or more slaves The slave processes the requests of the master and responds within a certain time with an acknowledgment or with the requested data or an error code if applicable The requests contain the function code and additional data The data can only be transferre...

Page 97: ... Defines the slave function desired by the frame DATA frame data Function code dependent administration data and net data When transferring the register data the high byte is always transferred first followed by the low byte in accordance with the Modbus specification CRC CHECK frame checksum The end of the frame is identified by the CRC 16 checksum of two bytes in length End of frame The end of f...

Page 98: ...ese are supported by SIMOCODE pro depends on the start address see Section Modbus RTU data tables Page 277 Table 2 33 Overview of the function codes Function code decimal hexadecimal Designation according to Modbus specification 01 0x01 Page 100 Read Coils 02 0x02 Page 100 Read Discrete Inputs 03 0x03 Page 101 Read Holding Registers 04 0x04 Page 101 Read Input Registers 05 0x05 Page 102 Write Sing...

Page 99: ...mation and the register information The function codes for bit information 01 02 05 15 thus always access the bit memory area The function codes for register information 03 04 06 16 23 always access the register memory area The distinction as to whether information is read only r or read writeable r w can be seen from the dataset tables see Section Modbus RTU data tables Page 277 Figure 2 31 Memor...

Page 100: ...s refers to the number of fully returned bytes Note Start address and number of coils The start address and the number of coils must be within the valid range Request message frame Slave address Function code Start address Number of bits CRC 1 byte 1 byte 2 bytes 2 bytes 2 bytes Response message frame Slave address Function code Number of bytes n Bit status CRC 1 byte 1 byte 1 byte n bytes 2 bytes...

Page 101: ...tart address Up to 125 registers per frame can be read Request message frame Slave address Function code Start address Number of registers CRC 1 byte 1 byte 2 bytes 2 bytes 2 bytes Response message frame Slave address Function code Number of bytes Register value CRC 1 byte 1 byte 1 byte n registers 2 bytes Example Reading in of the SIMOCODE pro current measured values from slave number 16 The curr...

Page 102: ...ode Start address Data CRC 1 byte 1 byte 2 bytes 2 bytes 2 bytes Response message frame Slave address Function code Start address Data CRC 1 byte 1 byte 2 bytes 2 bytes 2 bytes Example Controlling a motor connected to SIMOCODE pro from slave address 16 assuming the assignment of the process image corresponds to the default settings For this purpose bit address 00 0x02 see the tables in Section Mod...

Page 103: ...rameters that can be written via Modbus RTU are the motor protection parameters e g rated motor current trip class as well as delay times of the function blocks Request message frame Slave address Function code Start address Data CRC 1 byte 1 byte 2 bytes 2 bytes 2 bytes 0x10 0x06 0x419A 0x0258 0x Response message frame Slave address Function code Start address Data CRC 1 byte 1 byte 2 bytes 2 byt...

Page 104: ... bits CRC 1 byte 1 byte 2 bytes 2 bytes 2 bytes Example Several output bits in the area of the PIQ process image output of the SIMOCODE pro with slave address 16 are to be written via Modbus Using these bits the motor is usually switched on and off Remote Manual mode selected or a reset command output In the case shown the motor is to be started and Remote mode activated for a SIMOCODE device oper...

Page 105: ...only registers cannot be written to as a block Request message frame Slave address Function code Start address Number of registers Number of bytes Data CRC 1 byte 1 byte 2 bytes 2 bytes 1 byte n x 2 bytes 2 bytes Response message frame Slave address Function code Start address Number of registers CRC 1 byte 1 byte 2 bytes 2 bytes 2 bytes Example The rated motor current of the SIMOCODE pro with sla...

Page 106: ...f registers N write access Number of bytes write access Data write access CRC 1 byte 1 byte 2 bytes 2 bytes 2 bytes 2 bytes 1 byte Nx2bytes 2 bytes Response message frame Slave address Function code Number of bytes N Data CRC 1 byte 1 byte 1 byte Nx2 bytes 2 bytes Example Writing the outputs and reading back the input signals of the SIMOCODE pro device To do this register 0x0000 in the PIQ process...

Page 107: ... bytes 0x10 0x17 0x04 0x00 0x0004 0x00 0x00 0x00 0x01 0x02 0x00 0x24 Response message frame Slave address Function code Number_bytes Data CRC 1 byte 1 byte 1 byte Nx2 bytes 2 bytes 0x10 0x17 0x08 0x00 0x00 0x00 0x00 Note Read Write Multiple Registers function The Read Write Multiple Registers function cannot be used for writing parameter values via Modbus Writing of parameter values results in an ...

Page 108: ... the device I M0 data Table 2 34 Assignment of the I M0 for Modbus identification Modbus object ID SIRIUS device information Type Mandatory optional Assignment of I M0 Manufacturer SIEMENS AG ASCII string Mandatory Name of manufacturer Article number MLFB ASCII string Mandatory FW version Vx x ASCII string Mandatory Software revision Internet address of the manufacturer Device specific ASCII strin...

Page 109: ...ro Error code Meaning in accordance with Modbus specification Cause Brief description 1 Illegal function Illegal function code The requested function code is not supported It is not included in the list of function codes supported by SIMOCODE pro see Modbus RTU function codes Page 98 2 Illegal data address Illegal bit or register address on the slave Address does not exist For functions that work ...

Page 110: ...ibed in an EDS file EDS Electronic Data Sheet containing all the information required to integrate the device into an EtherNet IP system You can find the EDS file in Industry Online Support at Generating an EDS file https support industry siemens com cs ww en view 109741009 IP address To enable a PROFINET device to be addressed as a node on Industrial Ethernet this device also requires an IP addre...

Page 111: ...red to parameterize the device MAC address The MAC address can generally be read from the front on the device e g 08 00 06 6B 80 C0 CIP Message based application protocol This protocol implements a relative path for sending a message from the modules that generate the message in one system to the modules that consume the message CIP operates with a generator consumer model rather than a source des...

Page 112: ...wing sections Figure 2 32 EtherNet IP communication functions 1 Communication between PLC I O scanner and SIMOCODE pro I O adapter via EtherNet IP 2 Communication between PC with parameterization software SIMOCODE ES TIA Portal and SIMOCODE pro via Ethernet 3 Communication between PC with parameterization software SIMOCODE ES TIA Portal and SIMOCODE pro via the SIMOCODE pro system interface point ...

Page 113: ...10 This can be downloaded from Siemens Industry Online Support via the following link EDS file https support industry siemens com cs ww en view 109741009 The EDS file contains various information such as Product symbol Manufacturer and device names Available cyclic data Note Integration in Rockwell Studio 5000 To facilitate integration of SIMOCODE pro EIP into Rockwell Studio 5000 a function examp...

Page 114: ... navigation window You can choose between the following online access options COM x SIRIUS PtP if the device is connected to the PC via the system interface Intel R Gigabit Network Connection or comparable designation if the device is connected to the PC via Ethernet Click Show accessible nodes Double click on the relevant device to select it from the list To do this you will need the MAC address ...

Page 115: ...ription to the device After the IP address has been assigned the device with appear in the Relation List the list of all devices in this network segment with a valid IP address After the IP address has been successfully assigned deactivate the BOOTP DHCP mechanism in the SIMOCODE device by selecting the device and clicking on the button labeled Disable BOOTP DHCP Note Behavior of SIMOCODE pro if B...

Page 116: ...ation software If the IP parameters are managed and assigned to the device via a BOOTP DHCP tool the Overwrite IP parameters in device parameter set in the SIMOCODE ES parameterization software under PROFINET Parameters IP Parameters must not be active This ensures that no changes are made to previously set IP parameters when parameters are downloaded If IP parameters are configured and downloaded...

Page 117: ...the chosen assembly instances when the device is integrated in Studio 5000 The data that are exchanged with the EtherNet IP scanner can be set by means of function blocks such as for example Cyclic receive byte 0 or Cyclic send byte 0 in the SIMOCODE ES software Detailed information about the relationship between SIMOCODE ES function blocks and assembly instances can be found in Chapter Assembly o...

Page 118: ... requested packet interval time on the Connection tab Predefined device connections Input data Output data SIMOCODE Basic Type 1 10 byte 4 bytes SIMOCODE Basic Type 2 4 bytes 2 bytes SIMOCODE Basic Type 3 20 bytes 6 bytes SIMOCODE Basic Type 4 488 bytes 6 bytes Basic Overload 1 byte 1 byte Extended Overload 1 byte 1 byte Sequence of steps for integrating by means of a generic Ethernet module 1 Con...

Page 119: ...IP functions as a ring node within the DLR For a DLR to function properly it must also contain a supervisor node e g a control system a switch with supervisor node functionality A DLR network is configured by means of the supervisor node parameters Enable Supervisor Node Beacon Time Beacon TimeOut No parameter settings for DLR need to be set in the SIMOCODE pro V EIP devices There should be fewer ...

Page 120: ...the communication interface interrupts all Ethernet and PROFINET links and reestablishes them afterward Setting the IP parameters To enable a link to be established via the web SIMOCODE pro V EIP must have valid IP parameters You can find out how to make these settings in Chapter Setting up the IP address Page 114 Configuration of the user name and password If the functions are to be used to contr...

Page 121: ...er possible with product version E04 and higher You can only use functions for controlling the motor feeder after you have logged on to the web server with user name and password Only then are the buttons with a controlling function active The log on dialog box is only available via a secure https connection Certificates To enable the web browser to access the web server via an https connection ce...

Page 122: ...ected Note Adoption of the NTP server address The NTP server address is not accepted until the device has been restarted or after the supply voltage has been switched off and on again Cyclic update interval Time interval in seconds at which synchronization of the time of day with the NTP server is performed Time shift Time difference in minutes between UTC time UTC Universal Time Coordinated and t...

Page 123: ...work protocol for monitoring and controlling network elements e g switches SIMOCODE pro V EIP supports the Ethernet service SNMP MIB 2 RFC1213 is supported R W objects can be changed with SNMP tools and are stored in the basic unit After replacement with a new basic unit from the factory or a basic unit that has undergone a general reset the R W objects will be in the factory settings ...

Page 124: ...Communication 2 4 EtherNet IP communication SIMOCODE pro Communication 124 Function Manual 11 2018 A5E40508495002A RS AC 003 ...

Page 125: ...ON Reversing starter 1 2 3 CCW OFF CW Circuit breaker 1 2 3 OFF ON Star delta starter 2 3 OFF ON Star delta reversing starter 3 CCW OFF CW Dahlander starter 3 OFF SLOW FAST Dahlander reversing starter 3 CCW FAST CCW SLOW OFF CW SLOW CW FAST Pole changing starter 3 OFF SLOW FAST Pole changing reversing starter 3 CCW FAST CCW SLOW OFF CW SLOW CW FAST Solenoid valve 3 CLOSED OPEN Positioner 1 3 CLOSE...

Page 126: ...delta reversing starter 3 Star contactor Delta contactor RIGHT line contactor LEFT line contactor Dahlander starter 3 FAST SLOW Star contactor FAST Dahlander reversing starter 3 CW FAST CW SLOW Star contactor FAST CCW SLOW CCW FAST Pole changing starter 3 FAST SLOW Pole changing reversing starter 3 CW FAST CW SLOW CCW SLOW CCW FAST Solenoid valve 3 OPEN Positioner 1 3 OPEN CLOSED Positioner 2 3 OP...

Page 127: ...eversing starter 3 CCW OFF CW Dahlander starter 3 OFF SLOW FAST Dahlander reversing starter 3 CCW FAST CCW SLOW OFF CW SLOW CW FAST Pole changing starter 3 OFF SLOW FAST Pole changing reversing starter 3 CCW FAST CCW SLOW OFF CW SLOW CW FAST Solenoid valve 3 CLOSED OPEN Positioner 1 3 CLOSED Stop OPEN Positioner 2 3 CLOSED Stop OPEN Positioner 3 3 CLOSED Stop OPEN Positioner 4 3 CLOSED Stop OPEN P...

Page 128: ...ctions Test Reset Reset1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cycl send data Bit 0 0 Not connected Bit 0 1 Not connected Bit 0 2 Not connected Bit 0 3 Event Prewarning overload I 115 Bit 0 4 Not co...

Page 129: ... S1 Bit 0 6 Further function blocks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cycl send data Bit 0 0 Not connected Bit 0 1 Status Off Bit 0 2 Status ON Bit 0 3 Even...

Page 130: ... selector S1 Bit 0 6 Further function blocks Standard functions Test Reset Reset1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cyclic send data Bit 0 0 Status ON Bit 0 1 Status Off Bit 0 2 Status ON Bit 0 ...

Page 131: ...lector S1 Bit 0 6 Further function blocks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cyclic send data Bit 0 0 Not connected Bit 0 1 Status Off Bit 0 2 Status ON Bit ...

Page 132: ...her function blocks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cycl send data Bit 0 0 Not connected Bit 0 1 Status Off Bit 0 2 Status ON Bit 0 3 Event Prewarning ove...

Page 133: ...de selector S1 Bit 0 6 Further function blocks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cyclic send data Bit 0 0 Status ON Bit 0 1 Status Off Bit 0 2 Status ON Bit...

Page 134: ... selector S1 Bit 0 6 Further function blocks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cyclic send data Bit 0 0 Status ON Bit 0 1 Status Off Bit 0 2 Status ON Bit 0...

Page 135: ... Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Device parameters Motor control Control stations PLC PCS DP ON Bit 1 1 Not connected Bit 1 2 Device parameters Motor control Control stations PLC PCS DP ON Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cyclic send data Bit 0 ...

Page 136: ...Mode selector S1 Bit 0 6 Further function blocks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cyclic send data Bit 0 0 Status ON Bit 0 1 Status Off Bit 0 2 Status ON B...

Page 137: ...locks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Device parameters Motor control Control stations PLC PCS DP ON Bit 1 1 Not connected Bit 1 2 Device parameters Motor control Control stations PLC PCS DP ON Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cyclic send data B...

Page 138: ...s Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cycl send data Bit 0 0 Not connected Bit 0 1 Status OFF CLOSED Bit 0 2 Status ON OPEN Bit 0 3 Not connected Bit 0 4 Not ...

Page 139: ...locks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cycl send data Bit 0 0 Status ON CLOSED Bit 0 1 Status OFF Stop Bit 0 2 Status ON OPEN Bit 0 3 Event Prewarning over...

Page 140: ...urther function blocks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cycl send data Bit 0 0 Not connected Bit 0 1 Status Off Bit 0 2 Status ON Bit 0 3 Event Prewarning ...

Page 141: ...Control stations Mode selector S1 Bit 0 6 Further function blocks Standard functions Test Reset Reset 1 Input Bit 0 7 Not connected Bit 1 0 Not connected Bit 1 1 Not connected Bit 1 2 Not connected Bit 1 3 Not connected Bit 1 4 Not connected Bit 1 5 Not connected Bit 1 6 Not connected Bit 1 7 Not connected Byte 2 3 analog value Not connected Cycl send data Bit 0 0 Status ON Bit 0 1 Status Off Bit ...

Page 142: ... apply in the tables Table 3 18 Table specifications example Designation Type Range Unit Information Reserved Byte 4 Cos phi Byte 0 100 1 BU2 Reserved Byte 5 Max current I_max Word 0 65535 1 Is BU0 BU1 BU2 Items in italics are not relevant reserved and must be filled with 0 when written to Entry relevant for basic unit 1 and basic unit 2 Parameters that can be changed during operation Event PRM er...

Page 143: ... Fixed level 1 BU0 BU1 BU2 3 Reserved 4 Reserved 5 Reserved 6 Reserved 7 Reserved 8 Basic unit BU BU Test Reset button BU0 BU1 BU2 9 BU Input 1 BU0 BU1 BU2 10 BU Input 2 BU0 BU1 BU2 11 BU Input 3 BU0 BU1 BU2 12 BU Input 4 BU0 BU1 BU2 13 Reserved 14 Reserved 15 Reserved 16 Digital module DM DM1 Input 1 DM1 MM 17 DM1 Input 2 DM1 MM 18 DM1 Input 3 DM1 MM 19 DM1 Input 4 DM1 MM 20 DM2 Input 1 DM2 21 DM...

Page 144: ...ata Bit 1 5 BU0 BU1 BU2 54 Acyclic receive data Bit 1 6 BU0 BU1 BU2 55 Acyclic receive data Bit 1 7 BU0 BU1 BU2 56 PLC PCS interface PLC DPV0 cyclic data Cyclic receive data Bit 0 0 BU0 BU1 BU2 57 Cyclic receive data Bit 0 1 BU0 BU1 BU2 58 Cyclic receive data Bit 0 2 BU0 BU1 BU2 59 Cyclic receive data Bit 0 3 BU0 BU1 BU2 60 Cyclic receive data Bit 0 4 BU0 BU1 BU2 61 Cyclic receive data Bit 0 5 BU0...

Page 145: ...fault BU0 BU1 BU2 94 Reserved 95 Reserved 96 Status information General Status General fault BU0 BU1 BU2 97 Status General warning BU0 BU1 BU2 98 Status Device BU0 BU1 BU2 99 Status Bus BU0 BU1 BU2 100 Status PLC PCS BU0 BU1 BU2 101 Status Current flowing IM UM 102 Reserved 103 Reserved 104 Status information Receive Status ON Dependent on the control function 105 Status ON 106 Status Off 107 Stat...

Page 146: ...t Overload IM UM 131 Event overload phase failure IM UM 132 Event Internal ground fault IM UM 133 Event External ground fault EM MM 134 Event Warning ext ground fault EM MM 135 Event Thermistor overload Th 136 Event Thermistor short circuit Th 137 Event Thermistor open circuit Th 138 Event TM warning T TM MM 139 Event TM trip T TM MM 140 Event TM sensor fault TM MM 141 Event TM out of range TM MM ...

Page 147: ...176 Event External fault 5 BU2 177 Event External fault 6 BU2 178 Reserved 179 Reserved 180 Event Analog module open circuit AM 181 Event DM F safety related tripping DM F 182 Event DM F Test requirement DM F 183 Reserved 184 Events Time stamp function Event Timestamping function active OK BU2 185 Reserved 186 Events Miscellaneous Event DM FL safety o k DM FL 187 Event DM FP PROFIsafe active DM FP...

Page 148: ...eely programmable elements Truth table 1 3I 1O output BU0 BU1 BU2 217 Truth table 2 3I 1O output BU0 BU1 BU2 218 Truth table 3 3I 1O output BU0 BU1 BU2 219 Truth table 4 3I 1O output BU0 BU2 220 Truth table 5 3I 1O output BU2 221 Truth table 6 3I 1O output BU2 222 Truth table 7 2I 1O output BU0 BU2 223 Truth table 8 2I 1O output BU0 BU2 224 Truth table 9 5I 2O output 1 BU2 225 Truth table 9 5I 2O ...

Page 149: ...ut BU0 BU2 244 Non volatile element 1 output BU0 BU1 BU2 245 Non volatile element 2 output BU0 BU1 BU2 246 Non volatile element 3 output BU2 247 Non volatile element 4 output BU2 248 Flashing 1 output BU0 BU1 BU2 249 Flashing 2 output BU0 BU1 BU2 250 Flashing 3 output BU0 BU1 BU2 251 Flicker 1 output BU0 BU1 BU2 252 Flicker 2 output BU0 BU1 BU2 253 Flicker 3 output BU0 BU1 BU2 254 Reserved 255 Res...

Page 150: ...U1 BU2 1 Reserved 2 Reserved 3 Reserved 4 Timer 1 Actual value 100 ms BU0 BU1 BU2 5 Timer 2 Actual value 100 ms BU0 BU1 BU2 6 Timer 3 Actual value 100 ms BU2 7 Timer 4 Actual value 100 ms BU2 8 Counter 1 Actual value BU0 BU1 BU2 9 Counter 2 Actual value BU0 BU1 BU2 10 Counter 3 Actual value BU2 11 Counter 4 Actual value BU2 12 Reserved 13 Reserved 14 Reserved 15 Reserved 16 Max current I_max 1 Is ...

Page 151: ...50 Reserved 51 Number of parameterizations BU0 BU1 BU2 52 Motor operating hours H word 1 s BU0 BU1 BU2 53 Motor operating hours L word BU0 BU1 BU2 54 Int motor operating hours H word BU0 BU1 BU2 55 Int motor operating hours L word BU0 BU1 BU2 56 Device operating hours H word BU0 BU1 BU2 57 Device operating hours L word BU0 BU1 BU2 58 Number of starts H word BU0 BU1 BU2 59 Number of starts L word B...

Page 152: ...100 mA 111 2 Current I_L3_100mA 100 mA 255 Reserved 1 S7 format 0 4mA 0 20mA 27648 2 For SIMOCODE pro S only Table 3 21 Socket assignment table analog in float format No Designation Unit Info 0 Not connected BU0 BU1 BU2 1 Reserved 2 Reserved 3 Reserved 4 Current I_max_A_F 1 A UM 5 Current I_avg_A_F 1 A UM 6 Current I_L1_A_F 1 A UM 7 Current I_L2_A_F 1 A UM 8 Current I_L3_A_F 1 A UM 9 Active power ...

Page 153: ...slave diagnostics Byte Bit Status message Information 0 0 Faults control Fault execution ON command BU0 BU1 BU2 0 1 Fault execution STOP command BU0 BU1 BU2 0 2 Fault feedback FB ON BU0 BU1 BU2 0 3 Fault feedback FB OFF BU0 BU1 BU2 0 4 Fault stalled positioner BU2 0 5 Fault double 0 BU2 0 6 Fault double 1 BU2 0 7 Fault end position BU2 1 0 Fault antivalence BU2 1 1 Fault Cold start TPF fault BU0 B...

Page 154: ...rnal fault 3 BU0 BU1 BU2 6 3 Fault external fault 4 BU0 BU1 BU2 6 4 Fault external fault 5 BU2 6 5 Fault external fault 6 BU2 6 6 Reserved 6 7 Reserved 7 0 Fault analog module open circuit AM 7 1 Fault test trip BU0 BU1 BU2 7 2 DM F safety related tripping DM FL DM FP 7 3 Fault DM F wiring DM FL DM FP 7 4 Fault DM FL cross circuit DM FL 8 0 Warnings Protection Warning Overload operation IM UM 8 1 ...

Page 155: ...s BU0 BU1 BU2 11 7 Warning Motor stop time BU0 BU1 BU2 12 0 Warnings Miscellaneous Warning external fault 1 BU0 BU1 BU2 12 1 Warning external fault 2 BU0 BU1 BU2 12 2 Warning external fault 3 BU0 BU1 BU2 12 3 Warning external fault 4 BU0 BU1 BU2 12 4 Warning external fault 5 BU2 12 5 Warning external fault 6 BU2 12 6 Reserved 12 7 Reserved 13 0 Warning Analog module open circuit BU2 13 1 Warning D...

Page 156: ...he current operating state BU0 BU1 BU2 15 2 Event Device does not support the required functions BU0 BU1 BU2 15 3 Event Wrong parameter BU0 BU1 BU2 15 4 Event Wrong password BU0 BU1 BU2 15 5 Event Password protection active BU0 BU1 BU2 15 6 Event Factory settings BU0 BU1 BU2 15 7 Event Parameterization active BU0 BU1 BU2 17 0 Event DM FL configuration mode DM FL 17 1 Event DM FL configuration devi...

Page 157: ...stics faults warnings status information Page 165 Read 94 Measured values Page 172 Read 95 Service statistical data Page 174 Read write 130 Basic device parameters 1 Page 175 BU0 BU1 BU2 Read write 131 Basic device parameters 2 Page 181 BU0 BU1 BU2 Read write 132 Extended device parameters 1 Page 185 BU2 Read write 133 Extended device parameters 2 Page 193 BU0 BU2 Read write 139 Labeling Page 197 ...

Page 158: ...er by calling SFB 52 RD_REC or SFC 59 S7 master by calling SFC 59 Further information You will find further information about the SFBs in Reference Manual System software for the S7 300 400 system and standard functions https support automation siemens com WW view en 44240604 In the STEP7 online help Byte arrangements When data longer than one byte is stored the bytes are arranged as follows big e...

Page 159: ...levant reserved and must be filled with 0 when written to Parameters that can be changed during operation BU0 BU1 BU2 Entry relevant for basic units SIMOCODE pro S SIMOCODE pro C and SIMOCODE pro V Settings are valid can only be made when the corresponding system components are used Float data type 32 bit floating point number S Sign 0 positive 1 negative E Exponent M Mantissa 3 1 3 0 2 9 2 8 2 7 ...

Page 160: ...1 7 X X Reserved 0 Bit 0 0 2 0 X X Application module wrong missing Bit 0 0 2 1 X X Communication fault Bit 0 0 2 2 X X Operating state 0 RUN 1 STOP Bit 0 0 2 3 X X Time monitoring activated Bit 0 0 2 4 X X Supply voltage within module failed Bit 0 0 2 5 X X Battery flat BATTF Bit 0 0 2 6 X X Total backup power failed Bit 0 0 2 7 X X Reserved 0 Bit 0 0 3 0 X X Rack failure detected by IM UM Bit 0 ...

Page 161: ...eserved Bit 0 0 9 6 X Reserved Bit 0 0 9 7 X Reserved Bit 0 0 10 0 X Parameterization error Bit 0 X Fault F16 10 1 X Sensor or load voltage missing Bit 0 0 10 2 X Fuse defective Bit 0 0 10 3 X Reserved Bit 0 0 10 4 X Earth fault Bit 0 0 10 5 X Reference channel fault Bit 0 0 10 6 X Process alarm missing Bit 0 0 10 7 X Actuator warning Bit 0 0 11 0 X Actuator trip Bit 0 0 11 1 X Safety related trip...

Page 162: ... 67 Process image output Table 3 26 Data record 67 Process image output Byte Bit Designation Default also see parameters Type Information 0 0 Cyclic receive Bit 0 0 Control station PLC PCS DP ON Bit BU0 BU1 BU2 0 1 Cyclic receive Bit 0 1 Control station PLC PCS DP OFF Bit 0 2 Cyclic receive Bit 0 2 Control station PLC PCS DP ON Bit 0 3 Cyclic receive Bit 0 3 Test 1 Bit 0 4 Cyclic receive Bit 0 4 M...

Page 163: ...ic send Bit 0 5 Status Remote mode Bit 0 6 Cyclic send Bit 0 6 Status General fault Bit 0 7 Cyclic send Bit 0 7 Status general warning Bit 1 0 Cyclic send Bit 1 0 Not assigned Bit 1 1 Cyclic send Bit 1 1 Not assigned Bit 1 2 Cyclic send Bit 1 2 Not assigned Bit 1 3 Cyclic send Bit 1 3 Not assigned Bit 1 4 Cyclic send Bit 1 4 Not assigned Bit 1 5 Cyclic send Bit 1 5 Not assigned Bit 1 6 Cyclic send...

Page 164: ... BU2 124 0 Type Byte 125 0 Error number Byte Time stamp The operating hours of the device are used as a time stamp resolution 1 s Type error number Refer to the error numbers for detailed information You will find the meaning in Chapter Data record 92 Device diagnostics Page 165 in column Error number of table Data record 92 Diagnostics 3 3 2 7 Data record 73 Event memory Table 3 29 Data record 73...

Page 165: ...Off 2 3 Status ON 2 4 Status ON 2 5 Status Start active BU0 BU1 BU2 2 6 Status Interlocking time active All reversing starters and positioners 2 7 Status Change over pause active Star delta starter Dahlander starter pole changing starter 3 0 Status Runs in open direction Dependent on the control function 3 1 Status Runs in close direction 3 2 Status FC 3 3 Status FO 3 4 Status TC 3 5 Status TO 3 6...

Page 166: ...nsor fault TM MM 6 5 Event TM out of range TM MM 6 6 Event EM open circuit MM EM 1 6 7 Event EM short circuit MM EM 1 7 0 Events Level monitoring Event Warning I IM UM 7 1 Event Warning I IM UM 7 2 Event Warning P UM 7 3 Event Warning P UM 7 4 Event Warning cos phi UM 7 5 Event Warning U UM 7 6 Event Warning 0 4 20mA AM 7 7 Event Warning 0 4 20mA AM 8 0 Event Trip I IM UM 8 1 Event Trip I IM UM 8 ...

Page 167: ...BU2 11 4 Events Miscellaneous Event Analog module open circuit AM 11 5 Event DM F safety related tripping DM F 11 6 Event DM F Test requirement DM F 11 7 Reserved 12 0 Events Time stamp function Event Timestamping function active OK BU2 12 1 Reserved 12 2 Events Miscellaneous Event DM FL safety ok DM FL 12 3 Event DM FP PROFIsafe active DM FP 12 4 Events System interfaces Event Configured operator...

Page 168: ...ent Parameterization active BU0 BU1 BU2 15 0 Event PRM error number bytes BU0 BU1 BU2 16 0 Event DM FL configuration mode DM FL 16 1 Event DM FL actual and set configuration are different DM FL 16 2 Event DM FL waiting for start up test DM FL 16 3 Event DM FP PRM error DM FP 16 4 Reserved 17 0 Warnings Protection Warning Overload operation IM UM W 17 1 Warning Unbalance IM UM W 17 2 Warning Overlo...

Page 169: ...ng Motor operating hours BU0 BU1 BU2 W 20 7 Warning Motor stop time BU0 BU1 BU2 W 21 0 Warnings Miscellaneous Warning ext fault 1 BU0 BU1 BU2 W 21 1 Warning ext fault 2 BU0 BU1 BU2 W 21 2 Warning ext fault 3 BU0 BU1 BU2 W 21 3 Warning ext fault 4 BU0 BU1 BU2 W 21 4 Warning ext fault 5 BU2 W 21 5 Warning ext fault 6 BU2 W 21 6 Reserved 21 7 Reserved 22 0 Warning Analog module open circuit AM W 22 1...

Page 170: ...U0 BU1 BU2 F 17 25 2 Fault power failure UVO BU2 F 18 25 3 Fault Operational Protection Off OPO BU2 F 19 25 4 Reserved 26 0 Reserved 26 1 Faults Protection Fault unbalance IM UM F 25 26 2 Fault overload IM UM F 26 26 3 Fault overload phase failure IM UM F 27 26 4 Fault int ground fault IM UM F 28 26 5 Fault ext ground fault EM MM F 29 26 6 Reserved 26 7 Fault thermistor overload Th F 31 27 0 Fault...

Page 171: ...nal fault 6 BU2 F 61 31 0 Fault analog module open circuit AM F 64 31 1 Fault test trip BU0 BU1 BU2 F 65 31 2 Fault DM F safety related tripping DM F F 66 31 3 Fault DM F wiring DM F F 67 31 4 Fault DM FL cross circuit DM FL F 68 31 5 Reserved The DP Diagnostics column contains the bits that are additionally available in the diagnostics using PROFIBUS DP F Fault M Status information W Warning F9 F...

Page 172: ... 0 65535 1 V UM 28 0 Voltage U_L2 Word 0 65535 1 V UM 30 0 Voltage U_L3 Word 0 65535 1 V UM 32 0 AM output Word 0 32767 See 1 AM 34 0 AM Input 1 Word 0 32767 AM 36 0 AM Input 2 Word 0 32767 AM 38 0 Reserved 40 0 TM Max temperature Word 0 65535 1 K see 3 TM MM 42 0 TM Temperature 1 Word 0 65535 1 K see 3 TM MM 44 0 TM Temperature 2 Word 0 65535 1 K see 3 TM 46 0 TM Temperature 3 Word 0 65535 1 K se...

Page 173: ... U1_F Float 1 V UM 176 0 Voltage U2_F Float 1 V UM 180 0 Voltage U3_F Float 1 V UM 184 0 Cos phi_F Float UM 188 0 Frequency_F Float 1 Hz UM 192 0 Reserved Byte 8 1 S7 format 0 4 mA 0 20 mA 27648 2 Representation of the Thermal motor model Value always refers to symm trip level representation in 2 increments in bits 6 0 range 0 to 254 bit 7 shows unbalance fixed level 50 3 Representation in Kelvin ...

Page 174: ...Timer 1 Actual value Word 0 65535 100 ms r BU0 BU1 BU2 18 0 Timer 2 Actual value Word 0 65535 100 ms r BU0 BU1 BU2 20 0 Timer 3 Actual value Word 0 65535 100 ms r BU2 22 0 Timer 4 Actual value Word 0 65535 100 ms r BU2 24 0 Counter 1 Actual value Word 0 65535 r BU0 BU1 BU2 26 0 Counter 2 Actual value Word 0 65535 r BU0 BU1 BU2 28 0 Counter 3 Actual value Word 0 65535 r BU2 30 0 Counter 4 Actual va...

Page 175: ...U0 BU2 6 0 Operator panel OP Bit 0 1 BU0 BU1 BU2 6 1 Analog module 1 AM1 Bit 0 1 BU2 6 2 Temperature module 1 TM1 Bit 0 1 BU0 BU2 6 3 3UF7500 ground fault module for 3UL22 residual current transformer Bit 0 1 BU2 6 4 Digital module 1 DM1 Bit 2 0 3 0 no digital module 1 monostable 2 bistable 3 special type see 3 4 BU0 BU2 6 6 Digital module 2 DM2 Bit 2 0 2 BU2 7 0 Operator panel with display OPD Bi...

Page 176: ...g reversing starter 0x50 Solenoid valve 0x60 Positioner 1 0x61 Positioner 2 0x62 Positioner 3 0x63 Positioner 4 0x64 Positioner 5 0x70 Soft starter 0x71 Soft starter with reversing contactor BU0 BU1 BU2 BU0 BU1 BU2 BU0 BU1 BU2 BU0 BU1 BU2 BU0 BU2 BU2 BU2 BU2 BU2 BU2 BU2 BU2 BU2 BU2 BU2 BU2 BU0 BU2 BU2 11 0 Reserved Bit 8 12 0 Bit parameters 16 12 0 No configuration fault due to OP Bit 0 1 0 BU0 BU...

Page 177: ...15 0 External fault 1 Type Bit 0 1 0 0 NO contact 1 NC contact BU0 BU1 BU2 15 1 External fault 2 Type Bit 0 1 0 BU0 BU1 BU2 15 2 External fault 3 Type Bit 0 1 0 BU0 BU1 BU2 15 3 External fault 4 Type Bit 0 1 0 BU0 BU1 BU2 15 4 External fault 1 active status Bit 0 1 0 0 Always 1 Only motor ON BU0 BU1 BU2 15 5 External fault 2 Activity Bit 0 1 0 BU0 BU1 BU2 15 6 External fault 3 Activity Bit 0 1 0 B...

Page 178: ...d Bit 2 0 21 2 Basic unit Debounce time inputs Bit 2 0 3 10 ms 1 Offset 6 ms BU0 BU1 BU2 21 4 Timer 1 Type Bit 2 0 1 2 3 0 0 With closing delay 1 Closing delay with memory 2 With opening delay 3 With fleeting closing BU0 BU1 BU2 21 6 Timer 2 Type Bit 2 0 1 2 3 0 BU0 BU1 BU2 22 0 Signal conditioning 1 Type Bit 2 0 1 2 3 0 0 Non inverting 1 Inverting 2 Edge rising with memory 3 Edge falling with mem...

Page 179: ...UM 31 0 Motor protection Unbalance protection level Byte 0 100 1 40 IM UM 32 0 Unbalance protection Delay with unbalance Byte 0 255 100 ms 5 IM UM 33 0 Interlocking time Byte 0 255 1 s 0 34 0 FB time Byte 0 255 100 ms 5 0 disabled 35 0 Trip level I Byte 0 255 4 Is 0 IM UM 36 0 Warning level I Byte 0 255 4 Is 0 IM UM 37 0 Trip level I Byte 0 255 4 Is 0 IM UM 38 0 Warning level I Byte 0 255 4 Is 0 I...

Page 180: ...er of starts Interlocking time Word 0 65535 1 s 0 BU0 BU1 BU2 62 0 Motor stop time level Word 0 65535 1 h 0 BU0 BU1 BU2 64 0 Timer 1 Limit Word 0 65535 100 ms 0 BU0 BU1 BU2 66 0 Timer 2 Limit Word 0 65535 100 ms 0 BU0 BU1 BU2 68 0 Counter 1 Limit Word 0 65535 0 BU0 BU1 BU2 70 0 Counter 2 Limit Word 0 65535 0 BU0 BU1 BU2 72 0 EM 2 trip level Word 30 40000 1 mA 1000 BU0 BU2 74 0 EM 2 warning level W...

Page 181: ...Bit 0 0 Byte 0 255 105 Default Status ON BU0 BU1 BU2 17 0 Cyclic send Bit 0 1 Byte 0 255 106 Default Status Off BU0 BU1 BU2 18 0 Cyclic send Bit 0 2 Byte 0 255 107 Default Status ON BU0 BU1 BU2 19 0 Cyclic send Bit 0 3 Byte 0 255 128 Default Event Overload operation BU0 BU1 BU2 20 0 Cyclic send Bit 0 4 Byte 0 255 110 Default Status Interlocking time active BU0 BU1 BU2 21 0 Cyclic send Bit 0 5 Byte...

Page 182: ...45 0 Acyclic send Bit 1 5 Byte 0 255 0 BU0 BU1 BU2 46 0 Acyclic send Bit 1 6 Byte 0 255 0 BU0 BU1 BU2 47 0 Acyclic send Bit 1 7 Byte 0 255 0 BU0 BU1 BU2 48 0 Monitoring PLC PCS input Byte 0 255 0 BU0 BU1 BU2 49 0 Motor protection Emergency start Byte 0 255 60 Default Cyclic receive Bit 0 4 IM UM 50 0 Reserved Byte 0 51 0 Reserved Byte 0 52 0 Mode selector S1 Byte 0 255 61 Default Cyclic receive Bi...

Page 183: ...73 0 External fault 4 input Byte 0 255 0 BU0 BU1 BU2 74 0 External fault 1 Reset Byte 0 255 0 BU0 BU1 BU2 75 0 External fault 2 Reset Byte 0 255 0 BU0 BU1 BU2 76 0 External fault 3 Reset Byte 0 255 0 BU0 BU1 BU2 77 0 External fault 4 Reset Byte 0 255 0 BU0 BU1 BU2 78 0 Cold starting TPF Byte 0 255 0 BU0 BU1 BU2 79 0 Test 1 Input Byte 0 255 59 Default Cyclic receive Bit 0 3 BU0 BU1 BU2 80 0 Test 2 ...

Page 184: ...nter 2 input Byte 0 255 0 BU0 BU1 BU2 107 0 Counter 2 reset Byte 0 255 0 BU0 BU1 BU2 108 0 Signal conditioning 1 input Byte 0 255 0 BU0 BU1 BU2 109 0 Signal conditioning 1 reset Byte 0 255 0 BU0 BU1 BU2 110 0 Signal conditioning 2 input Byte 0 255 0 BU0 BU1 BU2 111 0 Signal conditioning 2 reset Byte 0 255 0 BU0 BU1 BU2 112 0 Non volatile element 1 ιnput Byte 0 255 0 BU0 BU1 BU2 113 0 Non volatile ...

Page 185: ...3 OPD Faults Bit 0 1 0 BU2 5 4 Analog module Measuring range input Bit 0 1 0 0 0 20mA 1 4 20mA AM1 5 5 Analog module Measuring range output Bit 0 1 0 AM1 5 6 Reserved Bit 0 5 7 Reserved Bit 0 6 0 Overshooting undershooting limit 1 Bit 0 1 0 0 overshooting 1 undershooting BU2 6 1 Overshooting undershooting limit 2 Bit 0 1 0 BU2 6 2 Overshooting undershooting limit 3 Bit 0 1 0 BU2 6 3 Overshooting u...

Page 186: ...0 DM FL 9 2 DM FL Configuration 3 Bit 0 1 0 DM FL 9 3 DM FL Configuration 4 Bit 0 1 0 DM FL 9 4 DM FL Configuration 5 Bit 0 1 0 DM FL 9 5 DM FL Configuration 6 Bit 0 1 0 DM FL 9 6 DM FL Configuration 7 Bit 0 1 0 DM FL 9 7 DM FL Configuration 8 Bit 0 1 0 DM FL 10 0 Bit 2 Parameters 21 10 0 3UF50 basic type Bit 2 0 1 2 0 BU2 10 2 Reserved Bit 2 0 10 4 UVO timebase Bit 2 0 1 2 0 0 100 ms 1 1 s 2 10 s...

Page 187: ...16 2 Reserved Bit 2 0 16 4 DM F Test requirement response Bit 2 0 1 2 0 0 disabled 1 signal 2 warn 3 tripping DM F 16 6 DM F safety related tripping response Bit 2 0 1 2 3 0 DM F 17 0 TM1 Trip response T Bit 2 1 3 3 TM1 MM 17 2 TM1 Warning response T Bit 2 0 1 2 2 TM1 MM 17 4 TM1 Response to a sensor fault out of range Bit 2 0 1 2 3 2 TM1 MM 17 6 TM1 Active sensors Bit 2 0 1 2 2 0 1 sensors 1 2 se...

Page 188: ...0 24 4 Reserved Bit 2 0 24 6 Reserved Bit 2 0 25 0 Timer 3 Type Bit 2 0 1 2 3 0 0 With closing delay 1 Closing delay with memory 2 With opening delay 3 With fleeting closing BU2 25 2 Timer 4 Type Bit 2 0 1 2 3 0 BU2 25 4 Signal conditioning 3 Type Bit 2 0 1 2 3 0 0 Non inverting 1 Inverting 2 Edge rising with memory 3 Edge falling with memory BU0 BU2 25 6 Signal conditioning 4 Type Bit 2 0 1 2 3 0...

Page 189: ...o 3 Bit 4 0 33 0 BU2 31 4 OPD Profile bit 4 to 7 Bit 4 BU2 32 0 Truth table 7 type 2I 1O Bit 4 0 1111B 0 BU0 BU2 32 4 Truth table 8 type 2I 1O Bit 4 0 1111B 0 BU0 BU2 33 0 Is1 conversion factor Denominator Bit 4 0 15 0 BU2 33 4 Is2 conversion factor Denominator Bit 4 0 15 0 BU2 34 0 Hysteresis P Cos phi U Bit 4 0 15 5 1 UM 34 4 Hysteresis 0 4 20 mA Bit 4 0 15 5 1 AM1 35 0 Hysteresis free limits Bi...

Page 190: ... 20 mA Byte 0 255 100 ms 5 AM1 55 0 Warning delay 0 4 20 mA Byte 0 255 100 ms 5 AM1 56 0 Trip delay 0 4 20 mA Byte 0 255 100 ms 5 AM1 57 0 Warning delay 0 4 20 mA Byte 0 255 100 ms 5 AM1 58 0 Delay limit 1 Byte 0 255 100 ms 5 BU2 59 0 Delay limit 2 Byte 0 255 100 ms 5 BU2 60 0 Delay limit 3 Byte 0 255 100 ms 5 BU2 61 0 Delay limit 4 Byte 0 255 100 ms 5 BU2 62 0 TM Hysteresis Byte 0 255 1 K 5 TM1 M...

Page 191: ...M Warning level T Word 0 65535 1 K 0 TM1 MM 84 0 Limit monitor 1 Limit Word 0 65535 0 BU2 86 0 Limit monitor 2 Limit Word 0 65535 0 BU2 88 0 Limit monitor 3 Limit Word 0 65535 0 BU2 90 0 Limit monitor 4 Limit Word 0 65535 0 BU2 92 0 Timer 3 Limit Word 0 65535 100 ms 0 BU2 94 0 Timer 4 Limit Word 0 65535 100 ms 0 BU2 96 0 Counter 3 Limit Word 0 65535 0 BU2 98 0 Counter 4 Limit Word 0 65535 0 BU2 10...

Page 192: ...nge Unit Default Note Information 128 0 Truth Table 9 5I 2O type Output 1 Bit 32 0 1 1B 0 BU2 132 0 Truth Table 9 5I 2O type Output 2 Bit 32 0 1 1B 0 BU2 136 0 Calculation module 2 offset D word 0x800000000 x7FFFFFFF 0 BU2 140 0 Calculation module 1 numerator offset D word 2x 32768 32767 0 BU2 1 Value range dependent on current range of the IM UM and the conversion factor ...

Page 193: ... 0 255 0 BU2 17 0 Time stamping input 5 Byte 0 255 0 BU2 18 0 Time stamping input 6 Byte 0 255 0 BU2 19 0 Time stamping input 7 Byte 0 255 0 BU2 20 0 Analog value recording Trigger input Byte 0 255 0 BU2 21 0 Reserved Byte 0 22 0 Control station Local control LC ON Byte 0 255 0 Dependent on the control function 23 0 Control station Local control LC ON Byte 0 255 0 24 0 Control station PLC PCS DP O...

Page 194: ...nput 1 Byte 0 255 0 BU0 BU2 56 0 Truth table 7 2I 1O input 2 Byte 0 255 0 BU0 BU2 57 0 Truth table 8 2I 1O input 1 Byte 0 255 0 BU0 BU2 58 0 Truth table 8 2I 1O input 2 Byte 0 255 0 BU0 BU2 59 0 Truth table 9 5I 2O input 1 Byte 0 255 0 BU2 60 0 Truth table 9 5I 2O input 2 Byte 0 255 0 BU2 61 0 Truth table 9 5I 2O input 3 Byte 0 255 0 BU2 62 0 Truth table 9 5I 2O input 4 Byte 0 255 0 BU2 63 0 Truth...

Page 195: ... Byte 0 87 0 Reserved Byte 0 88 0 Analog parameters 45 88 0 Analog module output Byte 0 255 0 AM1 89 0 Analog input limit 1 Byte 0 255 0 BU2 90 0 Analog input limit 2 Byte 0 255 0 BU2 91 0 Analog input limit 3 Byte 0 255 0 BU2 92 0 Analog input limit 4 Byte 0 255 0 BU2 93 0 Calculator 1 input Byte 0 255 0 BU2 94 0 Analog value recording analog input Byte 0 255 0 BU2 95 0 PLC PCS analog input 2 Byt...

Page 196: ...ent on current range of the UM UM 44 0 Internal ground fault Warning level Word 10 120 I_e 0 Value range dependent on current range of the UM UM 148 Part Float parameters 172 0 Reserved Float 3 3 2 16 Data record 135 Extended device parameters 2 This data record is available for the SIMOCODE pro V PROFIBUS basic unit from version V4 0 and the SIMOCODE pro V Modbus RTU basic unit from version V2 0 ...

Page 197: ... SIMOCODE ES The texts do not contain any functions You can access the following texts via data record 139 Table 3 39 Data record 139 Marking Byte Bit Designation Type Information 0 0 Reserved Byte 4 4 0 Reserved Byte 6 10 0 Marking External fault 1 Byte 10 BU0 BU1 BU2 20 0 Marking External fault 2 Byte 10 BU0 BU1 BU2 30 0 Marking External fault 3 Byte 10 BU0 BU1 BU2 40 0 Marking External fault 4 ...

Page 198: ...ata record 160 Communication parameters Byte Bit Designation Type Information 0 0 Reserved Byte 4 BU0 BU1 BU2 4 0 Station address Byte 5 0 Baud rate Byte 6 0 to 9 0 Reserved Byte 6 10 0 PROFIsafe address read only Word BU2 3 3 2 19 Data record 165 Identification Table 3 41 Data record 165 Identification Byte Bit Designation Type Information 0 0 Reserved Byte 4 BU0 BU1 BU2 4 0 Plant identifier Byte...

Page 199: ...ion 0 0 Reserved Byte 4 BU0 BU1 BU2 4 0 Acyclic receive Bit 0 0 Bit 4 1 Acyclic receive Bit 0 1 Bit 4 2 Acyclic receive Bit 0 2 Bit 4 3 Acyclic receive Bit 0 3 Bit 4 4 Acyclic receive Bit 0 4 Bit 4 5 Acyclic receive Bit 0 5 Bit 4 6 Acyclic receive Bit 0 6 Bit 4 7 Acyclic receive Bit 0 7 Bit 5 0 Acyclic receive Bit 1 0 Bit 5 1 Acyclic receive Bit 1 1 Bit 5 2 Acyclic receive Bit 1 2 Bit 5 3 Acyclic ...

Page 200: ...Acyclic send Byte Bit Designation Type Information 0 0 Acyclic send Bit 0 0 Bit BU0 BU1 BU2 0 1 Acyclic send Bit 0 1 Bit 0 2 Acyclic send Bit 0 2 Bit 0 3 Acyclic send Bit 0 3 Bit 0 4 Acyclic send Bit 0 4 Bit 0 5 Acyclic send Bit 0 5 Bit 0 6 Acyclic send Bit 0 6 Bit 0 7 Acyclic send Bit 0 7 Bit 1 0 Acyclic send Bit 1 0 Bit 1 1 Acyclic send Bit 1 1 Bit 1 2 Acyclic send Bit 1 2 Bit 1 3 Acyclic send B...

Page 201: ...word is not identical at the time of receipt the event Event Wrong password is set and no change will be made Password protection OFF If the data record is received with this control flag the password protection is deactivated If the password is incorrect the event Event Wrong password is set and no change is made Table 3 44 Data record 224 Password protection Byte Bit Designation Type Information...

Page 202: ...3 GP Acyclic receive 11 Boolean Acyclic receive Bit 0 0 12 Boolean Acyclic receive Bit 0 1 13 Boolean Acyclic receive Bit 0 2 14 Boolean Acyclic receive Bit 0 3 15 Boolean Acyclic receive Bit 0 4 16 Boolean Acyclic receive Bit 0 5 17 Boolean Acyclic receive Bit 0 6 18 Boolean Acyclic receive Bit 0 7 19 Boolean Acyclic receive Bit 1 0 20 Boolean Acyclic receive Bit 1 1 21 Boolean Acyclic receive Bi...

Page 203: ...e 3 51 Unsigned Dword Active power P 52 Unsigned Dword Apparent power S 53 Unsigned word AM2 output 54 Unsigned word AM2 input 1 55 Unsigned word AM2 input 2 56 Unsigned word AM2 input 3 57 Unsigned word Max temperature 58 Unsigned word TM2 temperature 1 59 Unsigned word TM2 temperature 2 60 Unsigned word TM2 temperature 3 61 Unsigned word EM Ground Fault Current 62 Unsigned word EM Last Trip Curr...

Page 204: ...rts 92 Unsigned Dword Consumed energy 93 Unsigned word Timer 5 94 Unsigned word Timer 6 95 Unsigned word Counter 5 96 Unsigned word Counter 6 97 Unsigned word Calculation module 3 output 98 Unsigned word Calculation module 4 output 99 Unsigned word Analog multiplexer output 100 Float Consumed energy Diagnostic status 108 Boolean Status General fault 109 Boolean Status General warning 110 Boolean S...

Page 205: ...agnostic events 140 Boolean Event Prewarning overload I 115 Is 141 Boolean Event Unbalance 142 Boolean Event Overload 143 Boolean Event Overload loss of phase 144 Boolean Event Internal ground fault 145 Boolean Event External Ground Fault 146 Boolean Event Warning external ground fault 147 Boolean Event Thermistor trip level 148 Boolean Event Thermistor short circuit 149 Boolean Event Thermistor o...

Page 206: ...t Limit monitor 4 184 Boolean Event External fault 1 185 Boolean Event External fault 2 186 Boolean Event External fault 3 187 Boolean Event External fault 4 188 Boolean Event External fault 5 189 Boolean Event External fault 6 191 Boolean Event Module FW update active 192 Boolean Event AM1 open circuit 193 Boolean Event DM F safety related tripping 194 Boolean Event Monitoring interval for mandat...

Page 207: ...an Event DM F LOCAL actual configuration and desired configuration different 230 Boolean Event DM F LOCAL waiting for start up test 231 Boolean Event DM F incorrect PROFIsafe address or incorrect PROFIsafe parameter 232 Boolean Event Initialization Module write protected parameter changes not allowed 233 Boolean Event Memory module write protected 234 Boolean Event Initialization module write prot...

Page 208: ...ing Stalled rotor 263 Boolean Warning No start possible 264 Boolean Warning No of starts 265 Boolean Warning Just one start possible 266 Boolean Warning Motor operating hours 267 Boolean Warning Motor stop time 268 Boolean Warning External fault 1 269 Boolean Warning External fault 2 270 Boolean Warning External fault 3 271 Boolean Warning External fault 4 272 Boolean Warning External fault 5 273 ...

Page 209: ...trip level 316 Boolean Trip Thermistor short circuit 317 Boolean Trip Thermistor open circuit 319 Boolean Trip TM1 trip level T 320 Boolean Trip TM1 sensor fault 321 Boolean Trip TM1 out of range 322 Boolean Trip EM Open Circuit 323 Boolean Trip EM Short Circuit 324 Boolean Trip Trip level I 325 Boolean Trip Trip level I 326 Boolean Trip Trip level P 327 Boolean Trip Trip level P 328 Boolean Trip ...

Page 210: ...AM2 warning level 0 4 20mA 404 Boolean Warning AM2 open circuit Diagnostic events 420 Boolean Event TM2 warning level T 421 Boolean Event TM2 trip level T 422 Boolean Event TM2 sensor fault 423 Boolean Event TM2 out of range 428 Boolean Event AM2 warning level 0 4 20mA 429 Boolean Event AM2 warning level 0 4 20mA 430 Boolean Event AM2 trip level 0 4 20mA 431 Boolean Event AM2 trip level 0 4 20mA 4...

Page 211: ...Float Frequency 3 4 1 2 Abbreviations and specifications Abbreviations See SIMOCODE pro System Manual https support industry siemens com cs ww en view 109743957 Specifications The following specifications apply in the tables Table 3 47 Table specifications example Designation Type Range Unit Information Reserved Byte 4 Max current I_max Word 0 65535 1 Is Items in italics are not relevant reserved ...

Page 212: ...ning 0 4 20mA AM2 5 Events Level monitoring Event Warning 0 4 20mA AM2 6 Event Trip 0 4 20mA AM2 7 Event Trip 0 4 20mA AM2 8 Basic unit BU BU Test Reset button 9 BU Input 1 10 BU Input 2 11 BU Input 3 12 BU Input 4 13 Reserved 14 Reserved 15 Reserved 16 Digital module DM DM1 Input 1 DM1 17 DM1 Input 2 DM1 18 DM1 Input 3 DM1 19 DM1 Input 4 DM1 20 DM2 Input 1 DM2 21 DM2 Input 2 DM2 22 DM2 Input 3 DM...

Page 213: ...eceive data Bit 1 4 53 Acyclic receive data Bit 1 5 54 Acyclic receive data Bit 1 6 55 Acyclic receive data Bit 1 7 56 PLC PCS interface PLC PN cyclic data Cyclic receive data Bit 0 0 57 Cyclic receive data Bit 0 1 58 Cyclic receive data Bit 0 2 59 Cyclic receive data Bit 0 3 60 Cyclic receive data Bit 0 4 61 Cyclic receive data Bit 0 5 62 Cyclic receive data Bit 0 6 63 Cyclic receive data Bit 0 7...

Page 214: ...splay QLE ON 93 Display QLS fault 94 Reserved 95 Reserved 96 Status information General Status General fault 97 Status General warning 98 Status Device 99 Status Bus 100 Status PLC PCS 101 Status Current flowing IM UM 102 Status PE command Start_Pause pending 103 Reserved 104 Status information Receive Status ON Dependent on the control function 105 Status ON 106 Status Off 107 Status ON 108 Statu...

Page 215: ...M UM 131 Event overload phase failure IM UM 132 Event Internal ground fault IM UM 133 Event External ground fault EM 134 Event Warning ext ground fault EM 135 Event Thermistor overload Th 136 Event Thermistor short circuit Th 137 Event Thermistor open circuit Th 138 Event TM1 warning T TM1 139 Event TM1 trip T TM1 140 Event TM1 sensor fault TM 141 Event TM1 out of range TM 142 Event EM open circui...

Page 216: ...lt 4 176 Event External fault 5 177 Event External fault 6 178 Reserved 179 Event AM2 open circuit AM2 180 Event AM1 open circuit AM1 AM2 181 Event DM F safety related tripping DM F 182 Event DM F Test requirement DM F 183 Reserved 184 Reserved 185 Reserved 186 Events Miscellaneous Event DM FL safety o k DM FL 187 Event DM FP PROFIsafe active DM FP 188 Events System interface Event Configured oper...

Page 217: ...212 Reserved 213 Reserved 214 Freely programmable elements Signal conditioning 5 output 215 Signal conditioning 6 output 216 Truth table 1 3I 1O output 217 Truth table 2 3I 1O output 218 Truth table 3 3I 1O output 219 Truth table 4 3I 1O output 220 Truth table 5 3I 1O output 221 Truth table 6 3I 1O output 222 Truth table 7 2I 1O output 223 Truth table 8 2I 1O output 224 Truth table 9 5I 2O output ...

Page 218: ...al conditioning 2 output 242 Signal conditioning 3 output 243 Signal conditioning 4 output 244 Non volatile element 1 output 245 Non volatile element 2 output 246 Non volatile element 3 output 247 Non volatile element 4 output 248 Flashing 1 output 249 Flashing 2 output 250 Flashing 3 output 251 Flicker 1 output 252 Flicker 2 output 253 Flicker 3 output 254 PWM output 255 Reserved ...

Page 219: ...vel 2 Reserved 3 Reserved 4 Timer 1 Actual value 100 ms 5 Timer 2 Actual value 100 ms 6 Timer 3 Actual value 100 ms 7 Timer 4 Actual value 100 ms 8 Counter 1 Actual value 9 Counter 2 Actual value 10 Counter 3 Actual value 11 Counter 4 Actual value 12 Counter 5 Actual value 13 Counter 6 Actual value 14 Timer 5 Actual value 100 ms 15 Timer 6 Actual value 100 ms 16 Max current I_max 1 Is IM UM 17 Cur...

Page 220: ...eceive data analog value 49 Cyclic receive data analog value 1 50 Cyclic receive data analog value 2 51 Number of parameterizations 52 Motor operating hours H word 1 s 53 Motor operating hours L word 1 s 54 Int motor operating hours H word 1 s 55 Int motor operating hours L word 1 s 56 Device operating hours H word 1 s 57 Device operating hours L word 1 s 58 Number of starts H word 59 Number of st...

Page 221: ... 105 Current I_L1_10mA 10 mA UM IM 106 Current I_L2_10mA 10 mA UM IM 107 Current I_L3_10mA 10 mA UM IM 108 Max current I_max_100mA 100 mA UM IM 109 Current I_L1_100mA 100 mA UM IM 110 Current I_L2_100mA 100 mA UM IM 111 Current I_L3_100mA 100 mA UM IM 112 Reserved 113 Reserved 114 Reserved 115 Reserved 116 TM2 max temperature 1 K TM2 117 TM2 temperature 1 1 K TM2 118 TM2 temperature 2 1 K TM2 119 ...

Page 222: ... 5 Current I_avg_A_F 1 A UM 6 Current I_L1_A_F 1 A UM 7 Current I_L2_A_F 1 A UM 8 Current I_L3_A_F 1 A UM 9 Active power P_F 1 W UM 10 Apparent power S_F 1 VA UM 11 Voltage UL1_F 1 V UM 12 Voltage UL2_F 1 V UM 13 Voltage UL3_F 1 V UM 14 Cos phi_F 1 UM 15 Frequency_F 1 Hz UM 16 Reserved Reserved 49 Reserved 50 Active power Pa_F 1 1 W V2 1 UM 51 Active power Pb_F 1 1 W V2 1 UM 52 Reserved Reserved 2...

Page 223: ...aults warnings status information Page 229 Read 94 172 Measured values Page 238 Read 95 148 Service statistical data Page 240 Read write 130 92 Basic device parameters 1 Page 242 Read write 131 124 Basic device parameters 2 Page 248 Read write 132 144 Extended device parameters 1 Page 252 Read write 133 100 Extended device parameters 2 Page 260 Read write 134 180 Extended device parameters 1 Page ...

Page 224: ...g SFB 52 RD_REC Further information You can find additional information about the SFBs in System Software for S7 300 400 System and Standard Functions reference manual https support automation siemens com WW view en 1214574 In the STEP7 online help Byte arrangements When data longer than one byte is stored the bytes are arranged as follows big endian Figure 3 5 Byte arrangement in big endian forma...

Page 225: ...reserved and must be filled with 0 when written to Parameters that can be changed during operation Settings are valid can only be made when the corresponding system components are used The following specifications apply in the tables Settings are valid can only be made when the corresponding system components are used Float data type 32 bit floating point number S Sign 0 positive 1 negative E Expo...

Page 226: ...ecord 67 Process image output Table 3 54 Data record 67 Process image output Byte Bit Designation Default also see parameters Type Information 0 0 Cyclic receive Bit 0 0 Control station PLC PCS PN ON Bit 0 1 Cyclic receive Bit 0 1 Control station PLC PCS PN OFF Bit 0 2 Cyclic receive Bit 0 2 Control station PLC PCS PN ON Bit 0 3 Cyclic receive Bit 0 3 Test 1 Bit 0 4 Cyclic receive Bit 0 4 Motor pr...

Page 227: ... 1 0 Not assigned Bit 1 1 Cyclic send Bit 1 1 Not assigned Bit 1 2 Cyclic send Bit 1 2 Not assigned Bit 1 3 Cyclic send Bit 1 3 Not assigned Bit 1 4 Cyclic send Bit 1 4 Not assigned Bit 1 5 Cyclic send Bit 1 5 Not assigned Bit 1 6 Cyclic send Bit 1 6 Not assigned Bit 1 7 Cyclic send Bit 1 7 Not assigned Bit 2 0 PLC PCS analog Input 1 PLC PCS analog FI input 1 Max current I_max Word Float 4 0 PLC P...

Page 228: ...ion 1 s Type error number You will find the mean in Chapter Data record 92 Device diagnostics Page 229 in column Error number of table Data record 92 Device diagnostics If the type has the value 255 the entry displays Power On In this case the error number contains the number of power ON operations reduced by 1 0 1x power ON 3 4 2 6 Data record 73 Event memory Table 3 57 Data record 73 Event memor...

Page 229: ...ent flowing IM UM 1 6 Reserved 1 7 Reserved 2 0 Status information Receive Status ON Dependent on the control function 2 1 Status ON 2 2 Status Off 2 3 Status ON 2 4 Status ON 2 5 Status Start active 2 6 Status Interlocking time active All reversing starters and positioners 2 7 Status Change over pause active Star delta starter Dahlander starter pole changing starter 3 0 Status Runs in open direct...

Page 230: ...ad IM UM 5 3 Event Overload loss of phase IM UM 5 4 Event Internal ground fault IM UM 5 5 Event External ground fault EM 5 6 Event Warning ext ground fault EM 5 7 Event Thermistor overload Th 6 0 Event Thermistor short circuit Th 6 1 Event Thermistor open circuit Th 6 2 Event TM1 warning T TM1 6 3 Event TM1 trip T TM1 6 4 Event TM1 sensor fault TM1 6 5 Event TM1 out of range TM 6 6 Event EM open c...

Page 231: ...art possible 9 6 Event Motor operating hours 9 7 Event Motor stop time 10 0 Event Limit 1 10 1 Event Limit 2 10 2 Event Limit 3 10 3 Event Limit 4 10 4 Events Miscellaneous Event ext fault 1 10 5 Event ext fault 2 10 6 Event ext fault 3 10 7 Event ext fault 4 11 0 Event ext fault 5 11 1 Event ext fault 6 11 2 Events FW update Event BU FW update active 11 3 Event Module FW update active 11 4 Events...

Page 232: ...ry module cleared 13 3 Reserved 13 4 Event Initialization module read in 13 5 Event Initialization module programmed 13 6 Event Initialization module cleared 13 7 Reserved 14 0 Events parameterization Event Start up parameter block active 14 1 Event Parameter changes not allowed in the current operating state 1 0x0010 14 2 Event Device does not support the required functions 1 0x0010 14 3 Event Wr...

Page 233: ...failure IM UM 2 0x1023 17 4 Warning Internal ground fault IM UM 2 0x1027 17 5 Warning External ground fault EM 2 0x1028 17 6 Reserved 17 7 Warning Thermistor overload Th 2 0x1024 18 0 Warning Thermistor short circuit Th 2 0x1025 18 1 Warning Thermistor open circuit Th 2 0x1026 18 2 Warning TM1 warning T TM1 2 0x102B 18 3 Reserved 18 4 Warning TM1 sensor fault TM1 2 0x102C 18 5 Warning TM1 out of r...

Page 234: ...arning ext fault 6 2 0x1075 21 6 Reserved 21 7 Reserved 22 0 Warning AM1 open circuit AM1 2 0x105B 22 1 Warning DM F safety related tripping DM F 2 0x0019 22 2 Warning DM F test requirement DM F 2 0x105E 22 3 Reserved bit 3 22 6 Warning DM F feedback circuit DM F 2 0x105F 22 7 Warning DM FL simultaneity DM FL 2 0x1060 23 0 Faults General Fault HW fault basic unit 3 0x0009 0 23 1 Fault Module fault...

Page 235: ... UM 3 0x1023 27 26 4 Fault Int ground fault IM UM 3 0x1027 28 26 5 Fault Ext ground fault EM 3 0x1028 29 26 6 Reserved 26 7 Fault Thermistor overload Th 3 0x1024 31 27 0 Fault Thermistor short circuit Th 3 0x1025 32 27 1 Fault Thermistor open circuit Th 3 0x1026 33 27 2 Reserved 27 3 Fault TM1 trip T TM1 3 0x102B 35 27 4 Fault TM1 sensor fault TM1 3 0x102C 36 27 5 Fault TM1 out of range TM1 3 0x10...

Page 236: ... open circuit AM1 3 0x105B 64 31 1 Fault Test trip 3 0x1055 65 31 2 Fault DM F safety related tripping DM F 3 0x0019 66 31 3 Fault DM F wiring DM FL 3 0x1061 67 31 4 Fault DM FL cross circuit DM FL 3 0x1062 68 31 5 Reserved bit 3 32 0 Faults Protection extended Fault TM2 trip T TM2 3 0x102E 32 1 Fault TM2 sensor fault TM2 3 0x102F 32 2 Fault TM2 out of range TM2 3 0x1030 32 3 Reserved bit 5 33 0 F...

Page 237: ...2 trip T TM2 40 2 Event TM2 sensor fault TM2 40 3 Event TM2 out of range TM2 40 4 Reserved bit 4 41 0 Events Level monitoring Event Warning 0 4 20mA AM2 41 1 Event Warning 0 4 20mA AM2 41 2 Event Trip 0 4 20mA 2 AM2 41 3 Event Trip 0 4 20mA AM2 41 4 Event Limit 5 Limit monitor 5 41 5 Event Limit 6 Limit monitor 6 41 6 Reserved bit 2 42 0 Reserved bit 8 43 0 Events Miscellaneous extended Event AM2 ...

Page 238: ... V UM 28 0 Voltage U_L2 Word 0 65535 1 V UM 30 0 Voltage U_L3 Word 0 65535 1 V UM 32 0 AM1 output Word 0 32767 See 1 AM1 34 0 AM1 input Word 0 32767 AM1 36 0 AM1 input 2 Word 0 32767 AM1 38 0 Reserved 40 0 TM1 max temperature Word 0 65535 1 K see 3 TM1 42 0 TM1 temperature 1 Word 0 65535 TM1 44 0 TM1 temperature 2 Word 0 65535 TM1 46 0 TM1 temperature 3 Word 0 65535 TM1 48 0 EM 4 ground fault curr...

Page 239: ..._L2_F Float 1 A UM 160 0 Current I_L3_F Float 1 A UM 164 0 Active power P_F Float 1 W UM 168 0 Apparent power S_F Float 1 VA UM 172 0 Voltage U1_F Float 1 V UM 176 0 Voltage U2_F Float 1 V UM 180 0 Voltage U3_F Float 1 V UM 184 0 Cos phi_F Float UM 188 0 Frequency_F Float 1 Hz UM 192 0 Reserved Byte 8 1 S7 format 0 4 mA 0 20 mA 27648 2 Representation of the Thermal motor model Value always refers ...

Page 240: ...5535 1 h r w 16 0 Timer 1 Actual value Word 0 65535 100 ms r 18 0 Timer 2 Actual value Word 0 65535 100 ms r 20 0 Timer 3 Actual value Word 0 65535 100 ms r 22 0 Timer 4 Actual value Word 0 65535 100 ms r 24 0 Counter 1 Actual value Word 0 65535 r 26 0 Counter 2 Actual value Word 0 65535 r 28 0 Counter 3 Actual value Word 0 65535 r 30 0 Counter 4 Actual value Word 0 65535 r 32 0 Calculation module...

Page 241: ...ormation 118 0 Timer 6 Actual value Word 0 65535 100 ms r 120 0 Counter 5 Actual value Word 0 65535 r 122 0 Counter 6 Actual value Word 0 65535 r 124 0 Analog arithmetic 1 output Word 0 65535 r 126 0 Analog arithmetic 2 output Word 0 65535 r 128 0 Analog multiplexer output Word 0 65535 r 130 Reserved Word 9 1 Can only be written when the start monitoring function is active ...

Page 242: ...le InM Bit 0 1 6 0 Operator panel OP Bit 0 1 6 1 Analog module AM1 Bit 0 1 6 2 Temperature module TM1 Bit 0 1 6 3 Ground fault module EM Bit 0 1 6 4 Digital module 1 DM1 Bit 2 0 3 0 no digital module 1 monostable 2 bistable 3 DM F see Byte Bit 3 4 6 6 Digital module 2 DM2 Bit 2 0 2 7 0 Operator panel with display OPD Bit 0 1 7 1 Ground fault module for 3UL23 transformer EM Bit 0 1 7 2 Analog modul...

Page 243: ...der reversing starter 0x40 Pole changing starter 0x41 Pole changing reversing starter 0x50 Solenoid valve 0x60 Positioner 1 0x61 Positioner 2 0x62 Positioner 3 0x63 Positioner 4 0x64 Positioner 5 0x70 Soft starter 0x71 Soft starter with reversing contactor 11 0 Reserved Bit 8 12 0 Bit parameters 16 12 0 No configuration fault due to OP Bit 0 1 0 12 1 Startup parameter block active Bit 0 1 1 12 2 T...

Page 244: ... 1 External fault 2 Type Bit 0 1 0 15 2 External fault 3 Type Bit 0 1 0 15 3 External fault 4 Type Bit 0 1 0 15 4 External fault 1 Activity Bit 0 1 0 0 Always 1 Only motor ON 15 5 External fault 2 Activity Bit 0 1 0 15 6 External fault 3 Activity Bit 0 1 0 15 7 External fault 4 Activity Bit 0 1 0 16 0 Bit 2 Parameters 20 16 0 Thermistor Overload response Bit 2 1 2 3 3 0 Disabled 1 signaling 2 warn...

Page 245: ...pe Bit 2 0 1 2 3 0 22 0 Signal conditioning 1 Type Bit 2 0 1 2 3 0 0 Non inverting 1 Inverting 2 Edge rising with memory 3 Edge falling with memory 22 2 Signal conditioning 2 Type Bit 2 0 1 2 3 0 22 4 Non volatile element 1 Type Bit 2 0 1 2 3 0 22 6 Non volatile element 2 Type Bit 2 0 1 2 3 0 23 0 EM 2 monitoring Bit 2 0 1 2 3 0 0 on 1 on 2 run 3 run 23 2 EM 2 monitoring warning Bit 2 0 1 2 3 0 23...

Page 246: ...tection Delay in the event of unbalance Byte 0 255 100 ms 5 IM UM 33 0 Interlocking time Byte 0 255 1 s 0 34 0 FB time Byte 0 255 100 ms 5 0 disabled 35 0 Trip level I Byte 0 255 4 Is 0 IM UM 36 0 Warning level I Byte 0 255 4 Is 0 IM UM 37 0 Trip level I Byte 0 255 4 Is 0 IM UM 38 0 Warning level I Byte 0 255 4 Is 0 IM UM 39 0 Stalled rotor level Byte 0 255 4 Is 0 IM UM 40 0 Trip delay I Byte 0 25...

Page 247: ...itoring the number of starts Time range for starts Word 0 65535 1 s 0 60 0 Monitoring the number of starts Interlocking time Word 0 65535 1 s 0 62 0 Motor stop time level Word 0 65535 1 h 0 64 0 Timer 1 Limit Word 0 65535 100 ms 0 66 0 Timer 2 Limit Word 0 65535 100 ms 0 68 0 Counter 1 Limit Word 0 65535 0 70 0 Counter 2 Limit Word 0 65535 0 72 0 EM 2 trip level Word 30 40000 1 mA 1000 74 0 EM 2 w...

Page 248: ...us ON 17 0 Cyclic send Bit 0 1 Byte 0 255 106 Default Status Off 18 0 Cyclic send Bit 0 2 Byte 0 255 107 Default Status ON 19 0 Cyclic send Bit 0 3 Byte 0 255 128 Default Event Overload operation 20 0 Cyclic send Bit 0 4 Byte 0 255 110 Default Status Interlocking time active 21 0 Cyclic send Bit 0 5 Byte 0 255 120 Default Status Auto mode 22 0 Cyclic send Bit 0 6 Byte 0 255 96 Default Status Gener...

Page 249: ...fault Cyclic receive Bit 0 5 53 0 Mode selector S2 Byte 0 255 2 Default Fixed level value 1 54 0 Control station Local control LC ON Byte 0 255 0 Dependent on the control function 55 0 Control station Local control LC OFF Byte 0 255 0 56 0 Control station Local control LC ON Byte 0 255 0 57 0 Control station PLC PCS PN ON Byte 0 255 56 Default Cyclic receive Bit 0 0 58 0 Control station PLC PCS PN...

Page 250: ... 80 0 Test 2 Input Byte 0 255 0 81 0 Reset 1 Input Byte 0 255 62 Default Cyclic receive Bit 0 6 82 0 Reset 2 Input Byte 0 255 0 83 0 Reset 3 Input Byte 0 255 0 84 0 Reserved Byte 0 85 0 Reserved Byte 0 86 0 Reserved Byte 0 87 0 Reserved Byte 0 88 0 Truth table 1 3I 1O Input 1 Byte 0 255 0 89 0 Truth table 1 3I 1O Input 2 Byte 0 255 0 90 0 Truth table 1 3I 1O Input 3 Byte 0 255 0 91 0 Truth table 2...

Page 251: ...255 0 111 0 Signal conditioning 2 Reset Byte 0 255 0 112 0 Non volatile element 1 Input Byte 0 255 0 113 0 Non volatile element 1 Reset Byte 0 255 0 114 0 Non volatile element 2 Input Byte 0 255 0 115 0 Non volatile element 2 Reset Byte 0 255 0 116 0 Flashing 1 Input Byte 0 255 0 117 0 Flashing 2 Input Byte 0 255 0 118 0 Flashing 3 Input Byte 0 255 0 119 0 Flicker 1 Input Byte 0 255 0 120 0 Flicke...

Page 252: ...it 0 1 0 0 Do not display 1 Display 5 3 OPD Faults Bit 0 1 1 5 4 AM1 Measuring range input Bit 0 1 0 0 0 20mA 1 4 20mA AM1 5 5 AM1 Measuring range output Bit 0 1 0 AM1 5 6 Reserved Bit 0 5 7 Reserved Bit 0 6 0 Overshooting undershooting limit 1 Bit 0 1 0 0 overshootin g 1 undershooting 6 1 Overshooting undershooting limit 2 Bit 0 1 0 6 2 Overshooting undershooting limit 3 Bit 0 1 0 6 3 Overshootin...

Page 253: ...ation 2 Bit 0 1 0 DM FL 9 2 DM FL Configuration 3 Bit 0 1 0 DM FL 9 3 DM FL Configuration 4 Bit 0 1 0 DM FL 9 4 DM FL Configuration 5 Bit 0 1 0 DM FL 9 5 DM FL Configuration 6 Bit 0 1 0 DM FL 9 6 DM FL Configuration 7 Bit 0 1 0 DM FL 9 7 DM FL Configuration 8 Bit 0 1 0 DM FL 10 0 Bit 2 Parameters 21 10 0 Reserved Bit 2 10 2 Reserved Bit 2 0 10 4 UVO timebase Bit 2 0 1 2 0 10 6 UVO operating mode B...

Page 254: ... Reserved Bit 2 0 16 4 DM F Test requirement response Bit 2 0 1 2 0 0 Disabled 1 Signaling 2 Warn 3 Tripping DM F 16 6 DM F safety related tripping response Bit 2 0 1 2 3 0 DM F 17 0 TM1 Trip response T Bit 2 1 3 3 TM1 17 2 TM1 Warning response T Bit 2 0 1 2 2 TM1 17 4 TM1 Response to a sensor fault out of range Bit 2 0 1 2 3 2 TM1 17 6 TM1 Active sensors Bit 2 0 1 2 2 0 1 sensor 1 2 sensors 2 3 s...

Page 255: ...0 Reserved Bit 2 0 24 2 Reserved Bit 2 0 24 4 Reserved Bit 2 0 24 6 Reserved Bit 2 0 25 0 Timer 3 Type Bit 2 0 1 2 3 0 0 With closing delay 1 Closing delay with memory 2 With opening delay 3 With fleeting closing 25 2 Timer 4 Type Bit 2 0 1 2 3 0 25 4 Signal conditioning 3 Type Bit 2 0 1 2 3 0 0 Non inverting 1 Inverting 2 Edge rising with memory 3 Edge falling with memory 25 6 Signal conditioning...

Page 256: ...9 4 External fault 6 Reset also by Bit 4 0 1111B 0101B 30 0 OPD Contrast bit 0 to 3 Bit 4 0 255 1 50 30 4 OPD Contrast bit 4 to 7 Bit 4 31 0 OPD Profile bit 0 to 3 Bit 4 0 26 0 31 4 OPD Profile bit 4 to 7 Bit 4 32 0 Truth table 7 type 2I 1O Bit 4 0 1111B 0 32 4 Truth table 8 type 2I 1O Bit 4 0 1111B 0 33 0 Is1 conversion factor Denominator Bit 4 0 15 0 33 4 Is2 conversion factor Denominator Bit 4 ...

Page 257: ...0 255 100 ms 5 UM 52 0 Trip delay U Byte 0 255 100 ms 5 UM 53 0 Warning delay U Byte 0 255 100 ms 5 UM 54 0 Trip delay 0 4 20 mA Byte 0 255 100 ms 5 AM1 55 0 Warning delay 0 4 20 mA Byte 0 255 100 ms 5 AM1 56 0 Trip delay 0 4 20 mA Byte 0 255 100 ms 5 AM1 57 0 Warning delay 0 4 20 mA Byte 0 255 100 ms 5 AM1 58 0 Delay limit 1 Byte 0 255 100 ms 5 59 0 Delay limit 2 Byte 0 255 100 ms 5 60 0 Delay li...

Page 258: ...0 TM1 Warning level T Word 0 65535 1 K 0 TM1 84 0 Limit monitor 1 Limit Word 0 65535 0 86 0 Limit monitor 2 Limit Word 0 65535 0 88 0 Limit monitor 3 Limit Word 0 65535 0 90 0 Limit monitor 4 Limit Word 0 65535 0 92 0 Timer 3 Limit Word 0 65535 100 ms 0 94 0 Timer 4 Limit Word 0 65535 100 ms 0 96 0 Counter 3 Limit Word 0 65535 0 98 0 Counter 4 Limit Word 0 65535 0 100 0 Change over pause Word 0 65...

Page 259: ...24 0 Warning level P D word 0 0xFFFFF FFF 1 W 0 UM 128 0 Truth Table 9 5I 2O type Output 1 Bit 32 0 1 1B 0 132 0 Truth Table 9 5I 2O type Output 2 Bit 32 0 1 1B 0 136 0 Calculator 2 Offset D word 0x800000 00 0x7FFFF FFF 0 140 0 Calculator 1 Numerator Offset D word 2x 32768 32767 0 1 Value range dependent on current range of the IM UM and the conversion factor bit 31 1 i e conversion factor is acti...

Page 260: ... 20 0 Analog value recording Trigger input Byte 0 255 0 21 0 Reserved Byte 0 22 0 Control station Local control LC ON Byte 0 255 0 Dependent on the control function 23 0 Control station Local control LC ON Byte 0 255 0 24 0 Control station PLC PCS PN ON Byte 0 255 0 25 0 Control station PLC PCS PN ON Byte 0 255 0 26 0 Control station PC OPC UA OCM ON Byte 0 255 0 27 0 Control station PC OPC UA OCM...

Page 261: ...le 7 2I 1O Input 2 Byte 0 255 0 57 0 Truth table 8 2I 1O Input 1 Byte 0 255 0 58 0 Truth table 8 2I 1O Input 2 Byte 0 255 0 59 0 Truth table 9 5I 2O Input 1 Byte 0 255 0 60 0 Truth table 9 5I 2O Input 2 Byte 0 255 0 61 0 Truth table 9 5I 2O Input 3 Byte 0 255 0 62 0 Truth table 9 5I 2O Input 4 Byte 0 255 0 63 0 Truth table 9 5I 2O Input 5 Byte 0 255 0 64 0 Timer 3 Input Byte 0 255 0 65 0 Timer 3 R...

Page 262: ...ved Byte 0 88 0 Analog parameters 45 88 0 AM1 Output Byte 0 255 0 AM1 89 0 Analog input limit 1 Byte 0 255 0 90 0 Analog input limit 2 Byte 0 255 0 91 0 Analog input limit 3 Byte 0 255 0 92 0 Analog input limit 4 Byte 0 255 0 93 0 Calculator 1 Input Byte 0 255 0 94 0 Analog value recording Analog input Byte 0 255 0 95 0 PLC PCS analog input 2 Byte 0 255 0 96 0 PLC PCS analog input 3 Byte 0 255 0 9...

Page 263: ...input Bit 0 1 0 0 0 20 mA AM2 4 1 AM2 Measuring range output Bit 0 1 0 AM2 4 2 Overshooting undershooting limit 5 0 4 3 Overshooting undershooting limit 6 0 4 4 Reserved 4 5 Reserved 4 6 Reserved 4 7 Reserved 5 0 Reserved 5 1 Reserved 5 2 Reserved 5 3 Reserved 5 4 Reserved 5 5 Reserved 5 6 Reserved 5 7 Reserved 6 0 Reserved 6 1 Reserved 6 2 Reserved 6 3 Reserved 6 4 Reserved 6 5 Reserved 6 6 Reser...

Page 264: ...range Bit 2 0 1 2 3 2 TM2 10 6 TM2 Active sensors Bit 2 0 1 2 2 0 1 sensor 1 2 sensors 2 3 sensors TM2 11 0 Trip response 0 4 20 mA Bit 2 0 1 3 0 0 Disabled 1 Signaling 2 Warn 3 Tripping AM2 11 2 Warning response 0 4 20 mA Bit 2 0 1 2 0 AM2 11 4 Trip response 0 4 20 mA Bit 2 0 1 3 0 AM2 11 6 Warning response 0 4 20 mA Bit 2 0 1 2 0 AM2 12 0 Timer 5 type Bit 2 0 1 2 3 0 12 2 Timer 6 type Bit 2 0 1 ...

Page 265: ...isabled 1 Signaling 2 Warn UM 17 2 TLS performance Bit 2 0 3 0 0 Disabled 3 Tripping UM 18 2 Reserved 18 4 Reserved 18 6 Reserved 19 0 Reserved 19 2 Reserved 19 4 Reserved 19 6 Reserved 20 0 Reserved 20 2 Reserved 20 4 Reserved 20 6 Reserved 21 0 Reserved 21 2 Reserved 21 4 Reserved 21 6 Reserved 22 0 Part Bit 4 parameters 22 0 TM2 sensor type Bit 3 1 000B to 100B 000B Like TM1 TM2 22 4 Internal g...

Page 266: ...lay 0 4 20 mA Byte 0 255 100 ms 5 AM2 36 0 Trip delay 0 4 20 mA Byte 0 255 100 ms 5 AM2 37 0 Warning delay 0 4 20 mA Byte 0 255 100 ms 5 AM2 38 0 Delay limit 5 Byte 0 255 100 ms 5 39 0 Delay limit 6 Byte 0 255 100 ms 5 40 0 Truth table 10 type 3I 1O Byte 0 11111111B 0 41 0 Truth table 11 type 3I 1O Byte 0 11111111B 0 Part Byte parameters 42 0 Internal ground fault warning delay Byte 0 255 100 ms 1...

Page 267: ...2 64 0 TM2 Trip level T Word 0 65535 1K 0 TM2 66 0 TM2 Warning level T Word 0 65535 1K 0 TM2 68 0 Limit level 5 Word 0 65535 0 70 0 Limit level 6 Word 0 65535 0 72 0 Timer 5 value Word 0 65535 100 ms 0 74 0 Timer 6 value Word 0 65535 100 ms 0 76 0 Counter 5 value Word 0 65535 0 78 0 Counter 6 value Word 0 65535 0 80 0 Calculator 3 const 1 Word 0 65535 0 82 0 Calculator 3 const 2 Word 0 65535 0 84 ...

Page 268: ...nput Max Word 0 65535 0 110 0 PWM duration Word 0 65535 100 ms 20 Part Word parameters 112 0 Reserved Word 114 0 Reserved Word 116 0 Reserved Word 118 0 Reserved Word 120 0 Reserved Word 122 0 Reserved Word 124 0 Reserved Word 126 0 Reserved Word 128 0 Reserved Word 130 0 Reserved Word 132 0 Reserved Word 134 0 Reserved Word 136 0 Reserved Word 138 0 Reserved Word 140 0 Part D word parameters 140 ...

Page 269: ... 255 0 10 0 Timer 5 input DI byte 0 255 0 11 0 Timer 5 reset DI byte 0 255 0 12 0 Timer 6 input DI byte 0 255 0 13 0 Timer 6 reset DI byte 0 255 0 14 0 Counter 5 input DI byte 0 255 0 15 0 Counter 5 input DI byte 0 255 0 16 0 Counter 5 reset DI byte 0 255 0 17 0 Counter 6 input DI byte 0 255 0 18 0 Counter 6 input DI byte 0 255 0 19 0 Counter 6 reset DI byte 0 255 0 20 0 Signal conditioning 5 inpu...

Page 270: ...2 65 0 SPS PLS_analog input 5 AI byte 0 255 0 66 0 SPS PLS_analog input 6 AI byte 0 255 0 67 0 SPS PLS_analog input 7 AI byte 0 255 0 68 0 SPS PLS_analog input 8 AI byte 0 255 0 69 0 SPS PLS_analog input 9 AI byte 0 255 0 70 0 Analog input limit 5 AI byte 0 255 0 71 0 Analog input limit 6 AI byte 0 255 0 72 0 Analog arithmetic 1 input 1 AI byte 0 255 0 73 0 Analog arithmetic 1 input 2 AI byte 0 25...

Page 271: ...d AI byte 86 0 Reserved AI byte 87 0 Reserved AI byte 88 0 Reserved AI byte 89 0 Reserved AI byte 90 0 Reserved AI byte 91 0 Reserved AI byte 92 0 Reserved AI byte 93 0 Reserved AI byte 94 0 Reserved AI byte 95 0 Reserved AI byte 96 0 Reserved AI byte 97 0 Reserved AI byte 98 0 Reserved AI byte 99 0 Reserved AI byte Part FII byte parameters 100 0 PLC PCS analog FI input FII byte 0 255 0 101 0 PLC ...

Page 272: ...e texts do not contain any functions Note Changing the marking Each change to the marking requires that the communication interface be restarted when the web server is active A new start interrupts all Ethernet and PROFINET links and reestablishes them afterward Table 3 67 Data record 139 Marking Byte Bit Designation Type Information 0 0 Reserved Byte 4 4 0 Reserved Byte 6 10 0 Marking External fa...

Page 273: ...nging the marking Each change to the marking requires that the communication interface be restarted when the web server is active A new start interrupts all Ethernet and PROFINET links and reestablishes them afterward Table 3 68 Data record 140 Marking 2 Byte Bit Designation Type Information 0 0 Coordination Byte 4 4 0 Reserved 10 0 Marking limit 5 Byte 10 20 0 Marking limit 6 Byte 10 30 0 Marking...

Page 274: ...rd protection Description Password protection ON If the data record is received with this control flag the password protection is activated and the password applied If Password protection on and the password are not identical at the time of receipt the event Event Wrong password is set and no change will be made Password protection OFF If the data record is received with this control flag the pass...

Page 275: ...ring data Page 278 0x0800 See Measured values Page 279 0x0C00 See Display and statistical data Page 281 0x1C00 See Device diagnostics Page 282 0x2100 See Error memory Page 289 0x2200 See Event memory Page 290 0x2A80 See Trace data Page 291 0x4000 See I M0 device identification Page 292 0x4020 See I M1 data Page 292 0x4040 See I M2 Installation date Page 293 0x4060 See I M3 Comment Page 293 0x4180 ...

Page 276: ...t 3 5 1 3 Specifications The following specifications apply in the tables Table 3 71 Table specifications example Register address Identifier Type Area Units Access Info 15 Reserved Byte 4 R 16 Max current I_max Word 0 65535 1 Is R BU The values given are decimal values Items in italics are not relevant reserved and must be filled with 0 when written to Parameters that can be changed during operat...

Page 277: ...scription Default value Access 0x0000 low 0x0000 Bit Cyclic receive bit 0 0 Control station PLC PCS DP ON r w 0x0001 Bit Cyclic receive bit 0 1 Control station PLC PCS DP OFF r w 0x0002 Bit Cyclic receive bit 0 2 Control station PLC PCS DP ON r w 0x0003 Bit Cyclic receive bit 0 3 Test 1 r w 0x0004 Bit Cyclic receive bit 0 4 Motor protection emergency start r w 0x0005 Bit Cyclic receive bit 0 5 Mod...

Page 278: ...2 Bit Cyclic send bit 0 2 Status On r 0x0403 Bit Cyclic send bit 0 3 Event overload operation r 0x0404 Bit Cyclic send bit 0 4 Status Interlocking time active r 0x0405 Bit Cyclic send bit 0 5 Status Remote mode r 0x0406 Bit Cyclic send bit 0 6 Status group fault r 0x0407 Bit Cyclic send bit 0 7 Status group warning r high 0x0408 Bit Cyclic send bit 1 0 Unassigned r 0x0409 Bit Cyclic send bit 1 1 U...

Page 279: ...35 100 ms r 0x080D Voltage U_L1 Word 0 65535 1 V r 0x080E Voltage U_L2 Word 0 65535 1 V r 0x080F Voltage U_L3 Word 0 65535 1 V r 0x0810 AM1 output Word 0 32767 See 1 r 0x0811 AM1 input 1 Word 0 32767 r 0x0812 AM1 input 2 Word 0 32767 r 0x0813 Reserved Word 0 32767 r 0x0814 TM1 Temperature Word 0 65535 1 K see 3 r 0x0815 TM1 temperature 1 Word 0 65535 r 0x0816 TM1 temperature 2 Word 0 65535 r 0x081...

Page 280: ...ge UL2_F Float 1 V r from E03 0x085A Voltage UL3_F Float 1 V r from E03 0x085C Cos phi_F Float r from E03 0x085E Frequency_F Float 1 Hz r from E03 1 S7 format 0 4 mA 0 20 mA 27648 2 Representation of the Thermal motor model Value related to symmetrical trip level representation in steps of 2 in bits 6 0 range 0 to 254 bit 7 shows unbalance fixed level 50 3 Representation in Kelvin 4 3UF7510 1AA00 ...

Page 281: ...r of internal overload trips Word 0 65535 r 0x0C07 Motor stop time Word 0 65535 1 h r w 0x0C08 Timer 1 actual value Word 0 65535 100 ms r 0x0C09 Timer 2 actual value Word 0 65535 100 ms r 0x0C0A Timer 3 actual value Word 0 65535 100 ms r 0x0C0B Timer 4 actual value Word 0 65535 100 ms r 0x0C0C Counter 1 actual value Word 0 65535 r 0x0C0D Counter 2 actual value Word 0 65535 r 0x0C0E Counter 3 actua...

Page 282: ... r 0x1C04 Reserved r 0x1C05 Reserved r 0x1C06 Reserved r 0x1C07 Reserved r high Bit 0x1C08 Status group fault r 0x1C09 Status General warning r 0x1C0A Status Device r 0x1C0B Status Bus r 0x1C0C Status PLC PCS r 0x1C0D Status Current flowing r 0x1C0E Status PE command Start_Pause pending r 0x1C0F Status PE energy saving mode active r 0x1C01 low Bit 0x1C10 Status On r 0x1C11 Status On r 0x1C12 Statu...

Page 283: ...vent Internal ground fault r 0x1C2D Event External ground fault r 0x1C2E Event external ground fault warning r 0x1C2F Event Thermistor overload r 0x1C03 low Bit 0x1C30 Event Thermistor short circuit r 0x1C31 Event Thermistor open circuit r 0x1C32 Event TM warning T r 0x1C33 Event TM trip T r 0x1C34 Event TM sensor fault r 0x1C35 Event TM out of range r 0x1C36 Event EM open circuit r 0x1C37 Event E...

Page 284: ... External fault 4 r high Bit 0x1C58 Event External fault 5 r 0x1C59 Event External fault 6 r 0x1C5A Reserved event External fault 7 r 0x1C5B Reserved event External fault 8 r 0x1C5C Event AM1 open circuit r 0x1C5D Event DM F safety related tripping r 0x1C5E Event DM F Test requirement r 0x1C5F Reserved r 0x1C06 low Bit 0x1C60 Event timestamp function active ok r 0x1C61 Reserved r 0x1C62 Event DM F...

Page 285: ...Prm error number r 0x1C7F Event Prm error number r 0x1C08 low Bit 0x1C80 Event DM FL configuration operation r 0x1C81 Event DM FL actual and set configuration are different r 0x1C82 Event DM FL waiting for start up test r 0x1C83 Reserved r 0x1C84 Event initialization module write protected parameter changes not allowed r 0x1C85 Event memory module write protected r 0x1C86 Event initialization modu...

Page 286: ...ne start possible r 0x1CA6 Warning Motor operating hours r 0x1CA7 Warning Motor stop time r high Bit 0x1CA8 Warning External fault 1 r 0x1CA9 Warning External fault 2 r 0x1CAA Warning External fault 3 r 0x1CAB Warning External fault 4 r 0x1CAC Warning External fault 5 r 0x1CAD Warning External fault 6 r 0x1CAE Reserved warning External fault 7 r 0x1CAF Reserved warning External fault 8 r 0x1C0B lo...

Page 287: ...O r 0x1CCB Fault Operational Protection Off OPO r 0x1CCC Reserved r 0x1CCD Reserved r 0x1CCE Reserved r 0x1CCF Reserved r 0x1C0D low Bit 0x1CD0 Reserved r 0x1CD1 Fault unbalance r 0x1CD2 Fault overload r 0x1CD3 Fault overload phase failure r 0x1CD4 Fault int ground fault r 0x1CD5 Fault ext ground fault r 0x1CD6 Reserved r 0x1CD7 Fault thermistor overload r high Bit 0x1CD8 Fault thermistor short ci...

Page 288: ...EE Reserved r 0x1CEF Reserved r 0x1C0F low Bit 0x1CF0 Fault External fault 1 r 0x1CF1 Fault External fault 2 r 0x1CF2 Fault External fault 3 r 0x1CF3 Fault External fault 4 r 0x1CF4 Fault External fault 5 r 0x1CF5 Fault External fault 6 r 0x1CF6 Reserved fault External fault 7 r 0x1CF7 Reserved fault External fault 8 r high Bit 0x1CF8 Fault AM1 open circuit r 0x1CF9 Fault test trip r 0x1CFA Fault ...

Page 289: ...try Designation1 Type Units Access 2 Address high low 0x2100 1 Time stamp D word 1 s r 0x2102 high Entry Type Byte r low Entry Info Byte r 0x2103 2 Time stamp D word 1 s r 0x2105 high Entry Type Byte r low Entry Info Byte r r 0x213C 21 Time stamp D word 1 s r 0x213E high Entry Type Byte r low Entry Info Byte r 1 The meaning of the error events can be found in the table Alarm fault and system event...

Page 290: ...ntry Info part 2 1 Byte 2 r 0x2204 2 Time stamp D word 1 s r 0x2206 high Entry Type Byte r low Entry Info part 1 1 Byte r 0x2207 high low Entry Info part 2 1 Byte 2 r 0x2208 3 Time stamp D word 1 s r 0x220A high Entry Type Byte r low Entry Info part 1 1 Byte r 0x220B Entry Info part 2 1 Byte 2 r r 0x2250 21 Time stamp D word 1 s r 0x2252 high Entry Type Byte r low Entry Info part 1 1 Byte r 0x2253...

Page 291: ...Trace data Input holding register Identifier Type Range Access 1 Address high low byte bit position Bit 0x2A80 StartPos Word 0 r 0x2A81 high Channel No Byte 0 59 r low 0 Trace status Trace recording in progress Bit 0 1 r 1 Trace status Trigger event occurred Bit 0 1 r 2 7 Reserved Bit 6 0 r 0x2A82 Measured value 0 Word 0 65535 r 0x2A83 Measured value 1 Word 0 65535 r Word 0 65535 r 0x2ABD Measured...

Page 292: ...TWARE_REVISION 4 byte Va b c r 0x401B REVISION_COUNTER 2 bytes 0x0000 r 0x401C PROFILE_ID 2 bytes 0x5E10 VA GG3 0 r 0x401D PROFILE_SPECIFIC_TYPE 2 bytes 0x1039 GG2_MBR r 0x401E IM_VERSION 2 bytes 0x0101 V1 1 r 0x401F IM_SUPPORTED 2 bytes 0x000E r Data record length 64 bytes 1 r w Value is read write r Value is read only 3 5 2 10 I M1 data Read access to the I M1 data is possible via function codes...

Page 293: ...allation date Input holding register Content Size Access 1 Address 0x4040 Reserved 10 byte r 0x4045 Date 16 byte r w 1 Access to the installation date via Modbus read write 3 5 2 12 I M3 Comment Read access to the I M3 data is possible via function codes 03 and 04 Write access is possible via function codes 06 and 16 Max data length per access 32 registers Table 3 83 I M3 Comment Input holding reg...

Page 294: ...es see also Chapter Commissioning with Modbus RTU in the SIMOCODE pro System Manual https support industry siemens com cs ww en view 109743957 Table 3 84 Basic device parameter 1 Input holding register Designation Type Range Unit Default Comments Info Access 1 Address high low Bit 0x4180 Coordination Byte 4 r 0x4182 Device configuration Byte 8 r 0x4186 high 0 No configuration fault due to OP Bit 0...

Page 295: ...or 1 ohmic load r 7 Reserved Bit 0 r low 0 External fault level 1 Bit 0 1 0 0 NO contact 1 NC contact r 1 External fault level 2 Bit 0 1 0 r 2 External fault level 3 Bit 0 1 0 r 3 External fault level 4 Bit 0 1 0 r 4 Monitoring external fault 1 Bit 0 1 0 0 Always 1 Only motor ON r 5 Monitoring external fault 2 Bit 0 1 0 r 6 Monitoring external fault 3 Bit 0 1 0 r 7 Monitoring external fault 4 Bit ...

Page 296: ...0 r low 0 1 Response to number of starts Bit 2 0 1 2 3 0 r 2 3 Response to early warning number of starts Bit 2 0 1 2 0 r 4 5 Motor operating hours response Bit 2 0 1 2 0 r 6 7 Motor stop time response Bit 2 0 1 2 0 r 0x418A high 0 1 External fault response 1 Bit 2 1 2 3 1 r 2 3 External fault response 2 Bit 2 1 2 3 1 r 4 5 External fault response 3 Bit 2 1 2 3 1 r 6 7 External fault response 4 Bi...

Page 297: ...Bit 2 0 r Part Bit 4 parameters r 0x418C high Reset response external fault 1 Bit 4 0 1111B 0101B Bit 0 Panel reset Bit 1 Auto reset Bit 2 Remote reset Bit 1 OFF command reset r Reset response external fault 2 Bit 4 0 1111B 0101B r low Reset response external fault 3 Bit 4 0 1111B 0101B r Reset response external fault 4 Bit 4 0 1111B 0101B r 0x418D high 0 3 Hysteresis current levels Bit 4 0 15 1 5...

Page 298: ...255 1 s 0 r w 0x4191 high FB time Byte 0 255 100 ms 5 0 Disabled r w low Trip level I Byte 0 255 4 I_s 0 IM UM r w 0x4192 high Warning level I Byte 0 255 4 I_s 0 IM UM r w low Trip level I Byte 0 255 4 I_s 0 IM UM r w 0x4193 high Warning level I Byte 0 255 4 I_s 0 IM UM r w low Stalled rotor level Byte 0 255 4 I_s 0 IM UM r w 0x4194 high Trip delay I Byte 0 255 100 ms 5 IM UM r w low Warning delay...

Page 299: ...0 r low Truth table 2 type 3I 1O Byte 0 111111 11B 0 r 0x4199 high Truth table 3 type 3I 1O Byte 0 111111 11B 0 r low Reserved Byte 0 r Part Word parameters 0x419A Motor protection Cooling down period Word 600 65535 100 ms 3000 IM UM r w 0x419B Motor protection Pause time Word 0 65535 100 ms 0 0 Disabled IM UM r w 0x419C Execution time Word 0 65535 100 ms 10 0 Disabled r w 0x419D Monitoring the nu...

Page 300: ...r w 0x41A3 Counter 2 value Word 0 65535 0 r w 0x41A4 EM trip level Word 30 40000 1 mA 1000 r w 0x41A5 EM warning level Word 30 40000 1 mA 500 r w Part D word parameter 0x41A6 Operator control enables Bit 32 0 1 1B 0 0B r 0x41A8 Motor protection Set current Is1 2 D word 10 mA 30 IM UM r w 0x41AA Motor operating hours level D word 0 0xFFF FFFFF 1 s 0 r w 0x41AC Reserved D word 0 r 1 r w Value is rea...

Page 301: ... Commissioning with Modbus RTU in the SIMOCODE pro System Manual https support industry siemens com cs ww en view 109743957 Max data length per access 72 registers Table 3 85 Extended device parameters 1 Input holding register Designation Type Range Unit Default Comments Access 1 Info Address high low Bit 0x4380 Coordination Byte 4 r Part Bit parameters 0x4382 high 0 3UF50 compatibility mode Bit 0...

Page 302: ...OSED 1 OPEN r 7 Star delta Transformer mounting Bit 0 1 0 0 Delta 1 In supply cable r low 0 External fault level 5 Bit 0 1 0 0 NO contact 1 NC contact r 1 External fault level 6 Bit 0 1 0 r 2 Reserved Bit 0 r 3 Reserved Bit 0 r 4 Monitoring external fault 5 Bit 0 1 0 0 Always 1 Only motor ON r 5 Monitoring external fault 5 Bit 0 1 0 r 6 Reserved Bit 0 1 0 r 7 Reserved Bit 0 1 0 r 0x4384 high 0 Cal...

Page 303: ...eserved Bit 2 0 r 4 5 UVO timebase Bit 2 0 1 2 0 0 100 ms 1 1 s 2 10 s r 6 7 UVO operating mode Bit 2 0 1 2 0 0 Disabled 1 Device connected to voltage reserved 2 Voltage fails r low 0 1 Trip monitoring U Bit 2 0 1 2 1 0 ON always 1 ON always not TPF 2 RUN motor ON not TPF r 2 3 Warning monitoring U Bit 2 0 1 2 1 r 4 5 Reserved Bit 2 0 r 6 7 Reserved Bit 2 0 r 0x4386 high 0 1 Trip monitoring 0 4 20...

Page 304: ...M response to warning of an external ground fault Bit 2 0 1 2 0 r 0x4388 high 0 1 Reserved Bit 2 0 r 2 3 Reserved Bit 2 0 r 4 5 DM F Test requirement response Bit 2 0 1 2 0 r 6 7 DM F safety related tripping response Bit 2 0 1 2 3 0 r low 0 1 TM1 Trip response T Bit 2 1 3 3 r 2 3 TM1 Warning response T Bit 2 0 1 2 2 r 4 5 TM1 Response to a sensor fault out of range Bit 2 0 1 2 3 2 r 6 7 TM1 active...

Page 305: ...h 0 1 External fault response 5 Bit 2 1 2 3 1 r 2 3 External fault response 6 Bit 2 1 2 3 1 r 4 5 Reserved Bit 2 0 r 6 7 Reserved Bit 2 0 r low 0 1 Trace Trigger edge Bit 2 0 1 0 0 positive 1 negative r 2 3 Reserved Bit 2 0 r 4 5 Reserved Bit 2 0 r 6 7 Reserved Bit 2 0 r 0x438C high 0 1 Reserved Bit 2 0 r 2 3 Reserved Bit 2 0 r 4 5 Reserved Bit 2 0 r 6 7 Reserved Bit 2 0 r low 0 1 Timer 3 type Bit...

Page 306: ...OPD Operator panel display bit 2 3 Bit 2 r Part Bit 4 parameters r 0x438E high 0 2 TM1 sensor type Bit 3 000B to 100B 000B 000B PT100 001B PT1000 010B KTY83 011B KTY84 100B NTC r Reserved Bit r 4 7 OPD Language Bit 4 0 15 0 r from E03 low 0 3 Reset response external fault 5 Bit 4 0 1111B 0101B Bit 0 Panel reset Bit 1 Auto reset Bit 2 Remote reset Bit 3 OFF command reset r 4 7 Reset response extern...

Page 307: ...steresis 0 4 20 mA Bit 4 0 15 1 5 r low 0 3 Hysteresis free limits Bit 4 0 15 1 5 r 4 7 OPD Lighting Bit 4 0 4 2 0 OFF 1 3 s 2 10 s 3 1 min 4 5 min r from E03 Part Byte parameters 0x4392 high Byte r low EM Delay Byte 0 255 100 ms 5 r w EM 0x4393 high Trip level cos phi Byte 0 100 1 0 r w UM low Warning level cos phi Byte 0 100 1 0 r w UM 0x4394 high Trip level U Byte 0 255 8 V 0 r w UM low Warning...

Page 308: ... high Trip delay P Byte 0 255 100 ms 5 r w UM low Warning delay P Byte 0 255 100 ms 5 r w UM 0x4399 high Trip delay cos phi Byte 0 255 100 ms 5 r w UM low Warning delay cos phi Byte 0 255 100 ms 5 r w UM 0x439A high Trip delay U Byte 0 255 100 ms 5 r w UM low Warning delay U Byte 0 255 100 ms 5 r w UM 0x439B high Trip delay 0 4 20 mA Byte 0 255 100 ms 5 r w AM1 low Warning delay 0 4 20 mA Byte 0 2...

Page 309: ...r 0x43A1 high Trace Pre trigger Byte 0 20 5 0 r low Calculator 2 Denominator 1 Byte 0 255 0 r 0x43A2 high Calculator 2 Numerator 2 Byte 0 255 0 r low Calculator 1 Denominator Byte 0 255 0 r 0x43A3 high Truth table 4 type 3I 1O Byte 0 111 11111B 0 r low Truth table 5 type 3I 1O Byte 0 111 11111B 0 r 0x43A4 high Truth table 6 type 3I 1O Byte 0 111 11111B 0 r low Calculator 2 Numerator 1 Byte 128 127...

Page 310: ...d 0 65535 100 ms 0 r 0x43AE Timer 4 value Word 0 65535 100 ms 0 r 0x43B0 Counter 3 value Word 0 65535 0 r w 0x43B1 Counter 4 value Word 0 65535 0 r w 0x43B2 Change over pause Word 0 65535 10 ms 0 r w 0x43B3 Trace Sampling period Word 1 50000 1 ms 100 r w 0x43B4 Is1 Conversion factor Numerator Word 0 65535 1 8 0 r w 0x43B5 Is2 Conversion factor Numerator Word 0 65535 1 8 0 r w Part D word parameter...

Page 311: ...pe Range Unit Default Comments Access 1 Info Address high low Bit 0x43C0 Truth table 9 5I 2O type Output 1 Bit 32 0 1 1B 0 r 0x43C2 Truth table 9 5I 2O type Output 2 Bit 32 0 1 1B 0 r 0x43C4 Calculator 2 Offset D word 0x80000 000 0x7FFF FFFF 0 r 0x43C6 0x43C7 Calculator 1 Numerator offset D word 2x 32768 32767 0 r 1 r w Value is read write r Value is read only ...

Page 312: ...0 r w 0x488F Marking external fault 3 Byte 10 r w 0x4894 Marking external fault 4 Byte 10 r w 0x4899 Marking external fault 5 Byte 10 r w 0x489E Marking external fault 6 Byte 10 r w 0x48A3 Reserved Byte 10 r w 0x48A8 Reserved Byte 10 r w 0x48AD Marking limit 1 Byte 10 r w 0x48B2 Marking limit 2 Byte 10 r w 0x48B7 Marking limit 3 Byte 10 r w 0x48BC Marking limit 4 Byte 10 r w 0x48C1 Marking TM1 war...

Page 313: ...DE objects Object length Identity object Page 314 0x0001 X Message Router object Page 316 0x0002 X Assembly object Page 316 0x0004 X Connection Manager object Page 327 0x0006 X Control Supervisor object 0x0029 X DLR object 0x0047 X QoS object 0x0048 X Device Diagnosis object Page 328 0x0096 X 46 bytes Measurement object Page 329 0x0097 X 240 bytes Statistical Data object Page 331 0x0098 X 228 byte...

Page 314: ... WORD Defined in the Device_Status definition table below 6 Get Serial number UDINT Device serial number 7 Get Product Name SHORT_STRING SIMOCODE pro V EIP Table 3 89 Device_Status definitions for the Identity object Bit s Query Definition 0 Ownership 0 Not owned 1 Device has an owner I O communication is active Always 0 2 Configured 0 Device still in delivery state 1 Configuration changed 3 Reser...

Page 315: ...entity object Service code Available service Service designation Description Class Instance 0x01 No Yes Get_Attributes_All Supplies contents of all attributes 0x0E No Yes Get_Attribute_Single Supplies contents of one attribute Table 3 91 Class attributes Attribute ID Access Description Data type 1 Get Revision UINT 2 Get Max Instance UINT 3 Get Num of Instances UINT ...

Page 316: ...oad from ODVA Profile The tables below describe in each case the format of attribute 3 of the relevant assembly instance Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 0 Reserved Reserved Reserved Reserved Reserved Fault Reset Reserved Reserved Instance 50 Input assembly basic overload from ODVA Profile The table below describes the format of attribute 3 Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bi...

Page 317: ...it 0 2 Cycl receive byte 0 bit 0 1 Cycl receive byte 0 bit 0 0 1 Cycl receive byte 1 bit 1 7 Cycl receive byte 1 bit 1 6 Cycl receive byte 1 bit 1 5 Cycl receive byte 1 bit 1 4 Cycl receive byte 1 bit 1 3 Cycl receive byte 1 bit 1 2 Cycl receive byte 1 bit 1 1 Cycl receive byte 1 bit 1 0 2 3 Cycl receive byte 2 3 analog value 1 The values passed to SIMOCODE pro via instance 100 can be processed fu...

Page 318: ...Cycl receive byte 0 bit 0 2 Cycl receive byte 0 bit 0 1 Cycl receive byte 0 bit 0 0 1 Cycl receive byte 1 bit 1 7 Cycl receive byte 1 bit 1 6 Cycl receive byte 1 bit 1 5 Cycl receive byte 1 bit 1 4 Cycl receive byte 1 bit 1 3 Cycl receive byte 1 bit 1 2 Cycl receive byte 1 bit 1 1 Cycl receive byte 1 bit 1 0 The values passed to SIMOCODE pro via instance 101 can be processed further in the SIMOCOD...

Page 319: ...cl receive byte 0 bit 0 0 1 Cycl receive byte 1 bit 1 7 Cycl receive byte 1 bit 1 6 Cycl receive byte 1 bit 1 5 Cycl receive byte 1 bit 1 4 Cycl receive byte 1 bit 1 3 Cycl receive byte 1 bit 1 2 Cycl receive byte 1 bit 1 1 Cycl receive byte 1 bit 1 0 2 3 Cycl receive byte 2 3 analog value 1 4 5 Cycl receive byte 4 5 analog value 2 The values passed to SIMOCODE pro via instance 102 can be processe...

Page 320: ...ing of devices using a Configuration assembly is not supported by SIMOCODE Devices are parameterized by means of the SIMOCODE ES TIA Portal parameterization software Integrating a SIMOCODE device as a Generic Ethernet module into the Rockwell Studio 5000 environment For this purpose the Configuration assembly with the instance 120 and the length 0 must be specified as well ...

Page 321: ...byte 1 bit 1 6 Cycl send byte 1 bit 1 5 Cycl send byte 1 bit 1 4 Cycl send byte 1 bit 1 3 Cycl send byte 1 bit 1 2 Cycl send byte 1 bit 1 1 Cycl send byte 1 bit 1 0 2 3 Cycl send byte 2 3 analog value 1 Cycl analog float input 1 4 5 Cycl send byte 4 5 analog value 2 6 7 Cycl send byte 6 7 analog value 3 Cycl analog float input 2 8 9 Cycl send byte 8 9 analog value 4 The bit and analog values signa...

Page 322: ... send byte 0 bit 0 1 Cycl send byte 0 bit 0 0 1 Cycl send byte 1 bit 1 7 Cycl send byte 1 bit 1 6 Cycl send byte 1 bit 1 5 Cycl send byte 1 bit 1 4 Cycl send byte 1 bit 1 3 Cycl send byte 1 bit 1 2 Cycl send byte 1 bit 1 1 Cycl send byte 1 bit 1 0 2 3 Cycl send byte 2 3 analog value 1 The bit and analog values signaled by SIMOCODE pro to the control system via instance 151 can be freely assigned i...

Page 323: ...bit 1 4 Cycl send byte 1 bit 1 3 Cycl send byte 1 bit 1 2 Cycl send byte 1 bit 1 1 Cycl send byte 1 bit 1 0 2 3 Cycl send byte 2 3 analog value 1 Cycl analog float input 1 4 5 Cycl send byte 4 5 analog value 2 6 7 Cycl send byte 6 7 analog value 3 Cycl analog float input 2 8 9 Cycl send byte 8 9 analog value 4 10 11 Cycl send byte 8 9 analog value 5 Cycl analog float input 3 12 13 Cycl send byte 8...

Page 324: ... IP data tables SIMOCODE pro Communication 324 Function Manual 11 2018 A5E40508495002A RS AC 003 Default settings of cyclic receive and send data See Assignment of cyclic receive and send data for predefined control functions Page 128 ...

Page 325: ...it 1 1 Cycl send byte 1 bit 1 0 2 3 Cycl send byte 2 3 analog value 1 Cycl analog float input 1 4 5 Cycl send byte 4 5 analog value 2 6 7 Cycl send byte 6 7 analog value 3 Cycl analog float input 2 8 9 Cycl send byte 8 9 analog value 4 10 11 Cycl send byte 8 9 analog value 5 Cycl analog float input 3 12 13 Cycl send byte 8 9 analog value 6 14 15 Cycl send byte 8 9 analog value 7 Cycl analog float ...

Page 326: ...fined control functions Page 128 General services for the Assembly object Service code Available service Service designation Description Class Instance 0x0E Yes Yes Get_Attribute_Single Supplies contents of one attribute 0x10 No Yes Set_Attribute_Single Changes an attribute value Class attributes for the Assembly object Attribute ID Access Description Data type 1 Get Revision UINT 2 Get Max Instan...

Page 327: ...06 Class attributes 0 Number of instances 1 The instance attributes are defined according to Volume 1 of the CIP Specification All instance attributes that are defined as required in this specification are supported Table 3 92 General services for the Connection Manager object Service code Available service Service designation Description Class Instance 0x0E No Yes Get_Attribute_Single Supplies co...

Page 328: ...nosis object Service code Available service Service designation Description Class Instance 0x01 No Yes Get_Attributes_All Supplies contents of all attributes 0x0E No Yes Get_Attribute_Single Supplies contents of one attribute Table 3 94 Attributes of instance 1 for the Diagnosis object Attribute ID Access Designation Data type 1 Get Diagnostic bits Byte 46 Details of the meaning of individual diag...

Page 329: ...e 1 for the Measurement object Attribute ID Access Designation Data type Range Unit 1 Get Thermal motor model INT See 2 2 Get Phase unbalance SINT 0 127 1 3 Get Cos φ SINT 0 127 1 4 8 Get Reserved INT 5 9 Get Max current I_max INT 0 32767 1 Is 10 Get Current I_L1 INT 0 32767 1 Is 11 Get Current I_L2 INT 0 32767 1 Is 12 Get Current I_L3 INT 0 32767 1 Is 13 Get Last trip current INT 0 32767 1 Is 14 ...

Page 330: ... TM2 temperature 2 INT 0 32767 1 K see 3 71 Get TM2 temperature 3 INT 0 32767 1 K see 3 72 Get Frequency INT 0 32767 0 01 Hz 73 Get INT 74 Get Reserved DINT 75 Get Reserved DINT 76 Get Reserved DINT 77 Get Current I_max_A_F REAL 1 A 78 Get Current I_avg_A_F REAL 1 A 79 Get Current I_L1_A_F REAL 1 A 80 Get Current I_L2_A_F REAL 1 A 81 Get Current I_L3_A_F REAL 1 A 82 Get Active power P_F REAL 1 W 8...

Page 331: ... Range Unit 1 Get Permissible starts actual value INT 0 255 2 Get DM F Time until test required INT 0 255 1 week 3 Get Reserved DINT 4 Get Number of parameterizations DINT 0 65535 5 Get Number of overload trips DINT 0 65535 6 Get Int number of overload trips DINT 0 65535 7 Get Motor stop time DINT 0 65535 1 h 8 Get Timer 1 actual value DINT 0 65535 100 ms 9 Get Timer 2 actual value DINT 0 65535 10...

Page 332: ...Get Energy W DINT 0 0x7FFFFFFF 1 kWh 27 Get Energy W_F REAL 1 kWh 28 Get Reserved DINT 29 34 Get Reserved DINT 6 35 50 Get Reserved INT 16 51 Get Timer 5 actual value DINT 0 65535 100 ms 52 Get Timer 6 actual value DINT 0 65535 100 ms 53 Get Counter 5 actual value DINT 0 65535 54 Get Counter 6 actual value DINT 0 65535 55 Get Analog arithmetic 1 output DINT 0 65535 56 Get Analog arithmetic 2 outpu...

Page 333: ... object Attribute ID Access Designation Data type Range of values Unit 1 Get Set Motor protection set current Is1 LINT 1 10 mA 2 Get Set Motor protection set current Is2 LINT 1 10 mA 3 Get Set Motor protection class SINT 5 7 10 15 20 25 30 35 40 4 Get Reserved SINT 5 Get Reserved INT 6 Get Set Trip level I INT 0 255 4 I_s 7 Get Set Warning level I INT 0 255 4 I_s 8 Get Set Trip level I INT 0 255 4...

Page 334: ... INT 0 255 128 27 Get Set Trip level 0 4 20 mA 1 INT 0 255 128 28 Get Set Warning level 0 4 20 mA 1 INT 0 255 128 29 Get Set Trip level 0 4 20 mA 2 INT 0 255 128 30 Get Set Warning level 0 4 20 mA 2 INT 0 255 128 31 Get Set Trip level 0 4 20 mA 2 INT 0 255 128 32 Get Set Warning level 0 4 20 mA 2 INT 0 255 128 33 Get Set Limit level 1 DINT 0 65535 34 Get Set Limit level 2 DINT 0 65535 35 Get Set L...

Page 335: ...3 Number of instances 1 The instance attributes are defined according to Volume 2 of the CIP Specification All instance attributes that are defined as required in this specification are supported Table 3 101 General services for the TCP IP Interface object Attribute ID Available service Service designation Description Class Service 0x01 No Yes Get_Attributes_All Supplies contents of all attributes...

Page 336: ...e attributes are defined according to Volume 2 of the CIP Specification All instance attributes that are defined as required in this specification are supported Table 3 103 General services for the EtherNet Link object Attribute ID Available service Service designation Description Class Service 0x01 No Yes Get_Attributes_All Supplies contents of all attributes 0x0E No Yes Get_Attributes_Single Sup...

Page 337: ...pro Communication Function Manual 11 2018 A5E40508495002A RS AC 003 337 List of abbreviations A A 1 List of abbreviations See SIMOCODE pro System Manual https support industry siemens com cs ww en view 109743957 ...

Page 338: ...List of abbreviations A 1 List of abbreviations SIMOCODE pro Communication 338 Function Manual 11 2018 A5E40508495002A RS AC 003 ...

Page 339: ...Assignment of cyclic receive send data pole changing starter 136 Assignment of cyclic receive send data positioner 139 Assignment of cyclic receive send data reversing starter 130 Assignment of cyclic receive send data soft starter 140 Assignment of cyclic receive send data soft starter with reversing contactor 141 Assignment of cyclic receive send data star delta reversing starter 133 Assignment ...

Page 340: ...nded device parameters 1 185 252 Data record 133 Extended device parameters 193 260 Data record 134 ExtendedPlus device parameters 196 263 Data record 135 ExtendedPlus device parameters 2 196 269 Data record 139 Marking 197 272 Data record 140 Marking 2 273 Data record 160 Communication parameters 198 Data record 165 Identification 198 274 Data record 202 Acyclic receive 199 Data record 203 Acycli...

Page 341: ...et Link object 336 General services for the Identity object 315 General services for the Measurement object 329 General services for the Motor Parameter object 333 General services for the Statistical Data object 331 General services for the TCP IP Interface object 335 GSD file 41 Guidelines on information security in industrial automation 44 H Hardware interrupt 27 28 I I M device identification ...

Page 342: ...ntification data 108 Module replacement without exchangeable medium PC 53 Module statuses in diagnostics with STEP 7 HW Config 66 N Newsletter 11 Node IDs 202 Non maintained command mode 87 O OM SIMOCODE pro 14 OM SIMOCODE pro V PN 52 OPC 81 OPC basics 81 OPC UA client 42 OPC UA server 42 OPC Unified Architecture UA 42 OPC UA Receive 86 OPC UA send 89 OPC UA services of the SIMOCODE pro V PN OPC U...

Page 343: ...edundancy 59 Simple Network Management Protocol SNMP 94 Slave address 97 Slave diagnostics 21 Slave operating modes 28 Socket assignment table analog in float format 152 222 Socket assignment table digital 143 Socket assignment table analog 150 219 Socket assignment table digital 212 Soft starter 125 Soft starter with reversing contactor 125 Solenoid valve 125 Specifications 211 225 Standard diagn...

Page 344: ...Index SIMOCODE pro Communication 344 Function Manual 11 2018 A5E40508495002A RS AC 003 ...

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