Powerlogic G3200
Contents
1. lt DOI gt lt The L P 304 is a processing code that causes the gateway to return TRUE if the LPHD belongs to one of the devices attached to the G3200 gt lt DOI name ZPwrDnDel gt lt Private type SchneiderElectric IED PntRef gt T SS s 924 lt Private gt lt DOI gt lt Time delayed AC power supply defect gt lt LN gt lt LN inst 1 InClass ZBAT InType SE_ZBAT_T200I_V001 prefix gt lt DOI name TestRs1l gt lt Private type SchneiderElectric IED PntRef gt T SS s 922 I lt Private gt lt DOI gt lt T200 has single status but in the standard this field is enumeration The function will be described later gt lt DOI name Vol gt lt Private type SchneiderElectric IED PntRef gt T MV L P 302 lt Private gt lt DOI gt lt external battery voltage gt lt LN gt lt LN desc Device inst 1 InClass CSWI 1nType SE_CSWI_T200I_VOO1l prefix gt lt DOI name Loc gt lt Private type SchneiderElectric IED PntRef gt T SS s 918 lt Private gt lt DOI gt lt DOI name Pos gt lt Private type SchneiderElectric IED PntRef gt T DC c 769 c 768 5 833 s 832 lt Private gt lt DOI gt lt LN gt lt LN desc Device inst 1 InClass XSWI 1nType SE XSWIEx1 T200I V001 prefix DCNT_ gt lt DOI name B1kCls gt lt Private type SchneiderElectric IED PntRef gt T SC L P 302 lt Private gt lt DOI gt lt DOI name BlkOpn gt lt Private type2. Modbus SL oo oo Presentation Typical architecture IEC 61850 basic architecture Using the G3200 most types of Modbus devices can be plugged into an IEC 61850 basic architecture The recommended architecture is to attach one G3200 to one Modbus device If the G3200 is connected to multiple Modbus SL devices the user must take into account the following impacts of this type of architecture m Configuration files must be customized to create as many Logical Devices as there are Modbus SL devices connected downstream to the G3200 m Time performance is reduced See G3200 performance indicators for different device types page 5 m Required cache memory is increased to support more complex Modbus IEDs and the additional logical device that represents the G3200 itself From an application point of view this type of architecture is usually made of at least m one IEC 61850 client the G3200 acting as a server m one clock server SNTP m one file client FTP used at the configuration phase Ethernet architecture m The recommended Ethernet architecture is a self healing Ethernet ring backbone based on the IEEE 802 1d2004 RSTP protocol m The G3200 server is connected to an Ethernet switch using 10 100BASE T copper wire radial connection IEC 61850 and Modbus TCP mixed architecture Because the G3200 can simultaneously support IEC 61850 and Modbus TCP protocols the G3200 can also be connected to Modbus TCP masters
3. Power Status LED repeats a four blink pause pattern The IP address that the G3200 was assigned is being used by another network device Assign a new IP address to the G3200 or to the conflicting device Note When a duplicate IP address is detected the G3200 resets its specified IP address to the default IP address When the G3200 detects the conflict no longer exists it will use the specified IP address Cannot browse the G3200 Incorrect network configuration 1 Verify all IP parameters are correct 2 Verify G3200 receives requests ping G3200 by m going to DOS prompt m typing ping and the G3200 IP address m e g ping 169 254 0 10 3 Verify that all browser Internet connections settings are correct Symptoms RS 485 LED off Modbus subnetwork troubleshooting Possible cause G3200 has not started correctly Action Remedy Check to see if there is an Ethernet connection problem Serial TX not flashing The IEC 61850 server is not configured and there is no Modbus TCP remote connection active This is a normal situation The IEC 61850 server is not configured and there a Modbus TCP remote connection active The Modbus TCP connection can be active on another G3200 Check IP addresses The IEC 61850 server is configured and there is no SFT2841 remote connection active Check the IEC configuration file Serial TX flashing Serial RX not flashing Setting of G3200 serial
4. Protocol Errors A counter that increments each time an ill formed message is received Timeouts A counter that increments each time a request message is sent without receiving a corresponding response message within the allowed time Timeouts are typically the result of configuration errors or a non responsive device Outbound Read Messages A counter that increments each time a read request message is sent Outbound Write Messages A counter that increments each time a write request message is sent PLSED309028EN 12 2010 PE80498 PowerLogic G3200 Modbus to IEC 61850 Server G3200 Summary Device Information Firmware Version 1 28 Hardware Version Manufacture Date 2008 Feb 26 IEC 51850 Device Name Eisen IEC 61850 Configuration files File Name Edit time Version Revision Curent ECH PMB _VOD7 cid 2009 07 07 18 31 33 1 a Backup ECI _ELP 0_V4 cid 2009 07 07 15 34 27 1 D Integrity check ofthe CID file Current status Disabled IEC 61850 Logical Devices Name Label Type Address o 106185063200 My 3200 63200 1 IECBIE60LD1 POWER METER rz 1 Date and Time Last Successful Time Synchronization UTC 2009 07 08 04 36 16 766 63209 Date and Time UTC 2008 07 08 04 96 42 503 G3200 Date and Time local 2009 07 09 11 06 42 504 Monitoring and troubleshooting Diagnostics web pages G3200 Summary Procedure Action 1 From the Diagnostics page click G3200 Summary Result Opens
5. S27 1 data change dchg S27 2 quality change qchg S27 3 data update dupd S28 GetURCBValues TP S29 SetURCBValues TP Logging Clause 14 Log Control Block 30 GetLCBValues TP 31 SetLCBValues TP Log S32 QueryLogByTime TP S33 QueryLogAfter TP 34 GetLogStatusValues TP Generic substation event model GSE Clause 15 GSSE Control Block S40 SendGSSEMessage MC S41 GetReference TP 42 GetGSSEElementNumber TP S43 GetGsCBValues TP S44 SetGsCBValues TP Transmission of sampled values model SVC Clause 16 Multicast SVC S45 SendMSVMessage MC S46 GetMSVCBValues TP S47 SetMSVCBValues TP Unicast SVC S48 SendUSVMessage TP S849 GetUSVCBValues TP S50 SetUSVCBValues TP Control Clause 17 S51 Select TP 52 SelectWithValue TP D 53 Cancel TP S54 Operate TP S55 _CommandTermination TP E S56 TimeActivatedOperate TP File transfer Clause 20 S57 GetFile TP S58 SetFile TP S59 DeleteFile TP S60 GetFileAttributeValues TP D Time Clause 18 T1 clock resolution of internal clock n 10 T1 nearest value of 2 in seconds Note T2 Time accuracy of internal clock AA Application Association T3 Supported TimeStamp n 10 T1 TP Two Party resolution MC Multi Cast nearest value of 2 in seconds E supported PLSED309028EN 12 2010 Schneider 29 PowerLogic G3200 Modbus to IEC 61850 Server Note E supported 30 S
6. Value Comments Status only Supported Direct with normal security Supported Direct with enhanced security Not supported SBO with normal security Not supported SBO with enhanced security Supported Time activated operate operTm Not supported Test mode Not supported ignored Check conditions Not supported must be 0 Operate many Not supported Pulse configuration Not supported Command Termination timeout 15 seconds Service error types m instance not available access violation parameter value inappropriate instance locked by another client failed due to server constraint generic error SBO controls The value contained in the SBOw structure is ignored It is possible to select several times the same control object The select operate timeout is restarted with each selection The value contained in the Cancel structure is ignored Controls with same ctlVal as current status are accepted Schneider a PowerLogic G3200 Modbus to IEC 61850 Server Schneider d Electric Capabilities description PIXIT Protocol implementation extra information for testing Time and time synchronization model Item Value Comments Time quality bits LeapSecondsKnown Not Supported ClockFailure Supported ClockNotSynchronized Supported Maximum time to wait for time server 5 seconds responses Meaning of ClockFailure bit This bit is set when it is not possible to get time from
7. m Connect the power supply and RS 485 twisted pair using cable with cross section e 2 5 mm 2AWG 12 m Connect the 24 V DC power supply and the earth to inputs 1 5 and 3 of the PRI voltage surge protector m Connect outputs 2 8 and 6 12 of the PRI voltage surge protector to the and terminals of the black screen terminal block m Connect the RS 485 twisted pair 2 wire or 4 wire to the RX RX or RX RX TX TX terminals of the black screw terminal block See Hardware installation page 9 m Connect the RS 485 twisted pair shielding to the terminal of the black screw terminal block m Connect the Ethernet cable to the green RJ45 connector Electric Schneider 77 PowerLogic G3200 Glossary Modbus to IEC 61850 IEC 61850 definitions Server General This glossary gives the definitions of the abbreviations used in this manual For more information on a particular term refer to the IEC 61850 or ISO standard listed IEC 61850 abbreviations and definitions Abbreviation Definition IEC 61850 ISO reference ACSI Abstract Communication Service Interface IEC 61850 1 BRCB Buffered Report Control Block IEC 61850 7 2 CDC Common Data Class IEC 61850 1 CID Configured IED Description see IED CMV Complex Measured Value IEC 61850 7 3 dataNs Data Name Space IEC 61850 7 3 DEL Phase to phase related measured
8. F4 FLOAT32 F8 FLOAT64 EN ENUMERATED CE CODED ENUM OC OCTET STRING VS VISIBLE STRING US UNICODE STRING TS Timestamp QT Quality RegisterDescription A mapping string can contain one or more RegisterDescription fields with the following structure RegisterType Address lt OptionalFields gt RegisterType RegisterType can be one of the following single uppercase or lowercase letters m m M which stands for Modbus holding registers m c C which stands Modbus control coils m s S which stands for Modbus status coils m i l which stands for Modbus input registers Address m Ifthe RegisterType is lowercase Address should be decimal m Ifthe RegisterType is uppercase Address should be hexadecimal Take care to write the address which gives the correct response for the Modbus read function For example in some devices decrementing the address by 1 obtains the correct data In other cases the data sheet of the device may represent holding registers as 4xxxx but to get the response you may have to address xxxx PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Appendix A Specific syntax and rules for mapping Modbus devices OptionalFields OptionalFields are different for M type and S type They should appear in order 1 Bit masking If RegisterType is m M the optional field for bit masking looks like Address 0000 22z22 N I where m 0000 is ones mask in hexadec
9. could result in minor or moderate injury or property damage CAUTION CAUTION indicates a potentially hazardous situation which if not avoided could result in property damage Restricted liability Electrical equipment should be serviced and maintained only by qualified personnel No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this manual This document is not intended as an instruction manual for untrained persons Device operation The user is responsible for checking that the rated characteristics of the device are suitable for its application The user is responsible for reading and following the device s operating and installation instructions before attempting to commission or maintain it Failure to follow these instructions can affect device operation and constitute a hazard for people and property Protective grounding The user is responsible for compliance with all the existing international and national electrical codes concerning protective grounding of any device Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Contents Presentation G3200 overview G3200 main features Typical architecture Installation and configuration Implementation steps Installation Configuration Download of CID file Monitoring and troubleshooting Diagnostics web pages Troubleshooting C
10. 1 prefix gt FCDA doName TotPF fc MX ldInst LD0 InClass MMXU InInst 1 prefix gt lt FCDA doName TotVAr fc MX ldInst LD0 InClass MMXU InInst 1 prefix gt lt FCDA doName TotW fco MX ldInst LD0 InClass MMXU InInst 1 prefix gt lt FCDA doName VAr fc MX ldInst LD0 InClass MMXU InInst 1 prefix gt lt FCDA doName W fc MX ldInst LDO InClass MMXU InInst 1 prefix gt lt DataSet gt lt ReportControl bufTime 100 buffered true confRev 1 datSet StDs desc Default Status Report intgPd 0 name brcbSTO1 rptID StRpt gt lt TrgOps dchg true dupd false period true qchg true gt lt OptFields bufOvfl false configRef true dataRef true dataSet true entryID true reasonCode true segmentation false seqNum true timeStamp true gt lt ReportControl gt lt ReportControl bufTime 500 buffered true confRev 1 datSet MxDs desc Default Status Report intgPd 0 name brcbMX01 rptID MxRpt gt lt TrgOps dchg true dupd false period true qchg true gt lt OptFields bufOvfl false configRef true dataRef true dataSet true entryID true reasonCode true segmentation false seqNum true timeStamp true gt lt ReportControl gt lt DOI name Mod gt lt Private type SchneiderElectric IED PntRef gt T IO L P 305 lt Private gt lt DOI gt lt LNO gt lt LN desc Device inst 1 InClass LPHD 1nType SE_LPHD_IONMeter VO001
11. Logging into the FTP server Name bak uo m G3200_ELP6 0_VO02 cid E g3200cfg txt Size Type File Folder File Folder 33 0KB 5FT850 Configurati 14 7 KB Text Document Modified 1 1 1970 12 00 AM 1 1 1970 12 00 AM 4 27 2009 12 00 AM 1 1 1970 12 00 AM G3200 directories view Schneider Installation and configuration Configuration Accessing the G3200 FTP server After you have set up the Ethernet parameters you can access the G3200 FTP server using Internet Explorer or another FTP client The following description is made using Internet Explorer 6 Mozilla Firefox and Internet Explorer 7 or higher cannot be used Note Access to the FTP server is restricted to accounts belonging to the Administrators group Logging into the FTP server Action Result 1 Launch Internet Explorer type ftp and the IP Opens the Log On As dialog box address of the G3200 in the Address text box for example ftp 10 10 10 10 then press Enter 2 Type the Username and the Password in the text Opens an FTP session with the G3200 boxes as previously defined Default Username is and displays the root directory ofthe Administrator and default Password is G3200 Then G3200 click Log On See Access control configuration page 14 G3200 directories Root directory The root directory contains m the logical devices directory LD It is structured as described by the IEC 61850 standard There i
12. Mod gt lt Private type SchneiderElectric IED PntRef gt T IO L P 305 lt Private gt lt DOI gt lt LNO gt Schneider series I lt Private gt InClass LPHD InInst 1 InInst 1 InInst 1 InInst 2 InInst 2 InInst 1 InInst 1 gt datSet StDs Report gt datSet MxDs lt FCDA doName PwrDn fc ST ldInst LD01 InClass LPHD InInst 1 prefix gt lt FCDA doName 1 InInst 1 prefix gt InInst 1 prefix gt InInst 1 inClass GGIO lnInst 1 prefix gt InInst 1 prefix gt PLSED309028EN 12 2010 PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example 2 LDevice section of Easergy T200I ICD file cont lt LN desc Device inst 1 InClass LPHD 1InType SE_LPHD_T200I_VO01 prefix gt lt DOI name PhyNam gt lt DAI name model valKind Set gt lt Val gt T200I lt Val gt lt DAI gt lt DAI desc can be freely used name location gt lt Val gt lt DAI gt lt DOI gt lt DOI name PhyHealth gt lt Private type SchneiderElectric IED PntRef gt T ES s 923 L P 303 lt Private gt lt DOI gt lt Motorization power supply failure gt lt DOI name PwrDn gt lt Private type SchneiderElectric IED PntRef gt T SS s 919 lt Private gt lt DOI gt lt Immediate AC power supply defect gt lt DOI name Proxy gt lt Private type SchneiderElectric IED PntRef gt T SS L P 304 lt Private gt
13. Reset Onboard Data Log 5 LPHD1 ZRsData5 Reset Onboard Data Log 6 LPHD1 ZRsData6 Reset Onboard Data Log 7 LPHD1 ZRsData7 Reset Onboard Data Log 8 LPHD1 ZRsData8 Reset Onboard Data Log 9 LPHD1 ZRsData9 Reset Peak Demand MSTA1 RsMax Reset Peak Demand Current MSTA1 RsMaxA Reset Peak Demand Power MSTA1 RsMaxPwr Reset Power Quality Summary LPHD1 ZRsPQSum Reset Shift Energy Summary LPHD1 ZRsSESum Reset Uptime Statistics LPHD1 RsStat Reset Steady State WFC Log LPHD1 ZRSSSWFC Reset Transient Waveform Reset LPHD1 ZRsTWF Reset Trending and Forecasting LPHD1 ZRsTrFor Operate CM4 C2x Slot 1 IO Point 1 C2x_GGIO1 ZMtrDPC1 Pos Operate CM4 C2x Slot 1 IO Point 2 C2x_GGIO1 ZMtrDPC2 Pos Operate CM4 C2x Slot 2 IO Point 1 C2x_GGIO2 ZMtrDPC1 Pos Operate CM4 C2x Slot 2 IO Point 2 C2x_GGIO2 ZMtrDPC2 Pos Operate CM4 C44 Slot 1 IO Point 5 C44_GGIO1 ZMtrDPC1 Pos Operate CM4 C44 Slot 1 IO Point 6 C44_GGIO1 ZMtrDPC2 Pos Operate CM4 C44 Slot 1 IO Point 7 C44_GGIO1 ZMtrDPC3 Pos Operate CM4 C44 Slot 1 IO Point 8 C44_GGIO1 ZMtrDPC4 Pos Operate CM4 C44 Slot 2 IO Point 5 C44_GGIO2 ZMtrDPC1 Pos Operate CM4 C44 Slot 2 IO Point 6 C44_GGIO2 ZMtrDPC2 Pos Operate CM4 C44 Slot 2 IO Point 7 C44_GGIO2 ZMtrDPC3 Pos Operate CM4 C44 Slot 2 IO Point 8 C44_GGIO2 ZMtrDPC4A Pos Operate CM4 IOX Slot 3 IO Poin _ IOX_GGIO3 ZMtrDPC1 Pos Operate CM4 IOX Slot 3 IO Poin IOX_GGIO3 ZMtrDPC2
14. SchneiderElectric IED PntRef gt T SC L P 302 lt Private gt lt DOI gt lt DOI name Loc gt lt Private type SchneiderElectric IED PntRef gt T SS s 904 lt Private gt lt DOI gt lt DOI name LocKey gt lt Private type SchneiderElectric IED PntRef gt T SS L P 302 lt Private gt lt DOI gt lt DOI name OpCnt gt lt Private type SchneiderElectric IED PntRef gt T IS L P 302 lt Private gt lt DOI gt lt DOI name Pos gt lt Private type SchneiderElectric IED PntRef gt T DO s 833 s 832 lt Private gt lt DOI gt PLSED309028EN 12 2010 Schneider 75 Electric PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example 2 LDevice section of Easergy T200I ICD file cont lt DOI name SwOpCap gt lt Private type SchneiderElectric IED PntRef gt T IS L P 302 lt Private gt lt DOI gt lt DOI name SwTyp gt lt DAI name stVal gt lt Val gt 2 lt Val gt lt DAI gt lt DOI gt lt LN gt lt LN desc Automatic Control inst 1 lnClass GAPC 1nType SE_GAPC_T200I_VOO1 prefix gt lt DOI name DPCSO1 gt lt Private type SchneiderElectric IED PntRef gt T DC c 808 c 807 5 872 s 871 lt Private gt lt DOI gt lt DOI name Op gt lt Private type SchneiderElectric IED PntRef gt T AT L P 302 lt Private gt lt DOI gt lt DOI name Str gt lt Private type SchneiderElectric IED PntRef gt T AD L P 302 lt Private gt l
15. confRev 1 desc Default Status Report name brcbST0O1 rptID St lt TrgOps dchg true period true qchg true gt lt OptFields configRef true dataRef true dataSet true entryID true reasonCode true seqNum true timeStamp true gt lt ReportControl gt lt ReportControl bufTime 500 buffered true confRev 1 desc Default Measurands Report name brcbMX01 rptID MxReport gt lt TrgOps dchg true period true qchg true gt lt OptFields configRef true dataRef true dataSet true entryID true TestRs1 inst fo ST fc fc MX inClass tco ST id ST ldInst LD01 lnClass GAPC dInst LD01 nst LD01 InClass SMVP nst LD01 InClass SFOC 1InInst 1 ldInst LD01 1InClass SFOC nst LD01 InClass SFOC ldinst LD01 InClass SFroc ldInst LD01 InClass ZBTC lt Measurands Dataset ldInst LDO1 nst LDO1 ldInst LD01 1 ldInst LD01 1 36 S lt Private gt 3F S lt Private gt 4F M lt Private gt 32 C lt Private gt LLNO InType SE_LLNO T200I_VO01 gt name StDs gt Ladinst LD0OL 1 ldInst LDO1 nClass LLNO gt InClass ZBAT nClass CSWI nClass CSWI name MxDs gt inClass MMXU reasonCode true seqNum true timeStamp true gt lt ReportControl gt lt DOI name Loc gt lt Private type SchneiderElectric IED PntRef gt T SS s 918 lt Private gt lt DOI gt lt DOI name
16. is acceptable and will be reported as such Or T AXX m R1 u2 L P 34 L P 35 2 sequential registers Same as Scaled Register except that OxFFFFFFFF or 0x00007FFF will Generic T A XX m R1 u2 L P 35 be NA L P 36 2 sequential registers Same as Scaled Register except that OxFFFFFFFF will be NA Generic T A XX m R1 u2 L P 36 L P 37 2 sequential registers Uses the IEEE standard for floating point arithmetic IEEE 754 Generic T A XX m R1 u2 L P 37 Strings processing codes L P 39 1 or 2 sequential registers Each register can represent up to two ASCII characters Generic PL String T A XX m R1 u10 L P 39 PLSED309028EN 12 2010 Schneider 61 PowerLogic G3200 Modbus to IEC 61850 Server Appendix B Processing codes Logic code Register definition Processing description Device Example of usage support Math processing codes L P 40 1 to 4 registers Result is Ri Rn 10 scale Generic Sum of registers All registers are assumed to contain a signed value unless indicated by a T XX m R1 u1 m R2 u1 format specifier such as 32U or u1 m R3 u1 L P 40 L P 41 2 or 3 registers Result is Generic Divide registers R1 R2 R3 10 scale T XX m R1 u1 m R2 u1 R3 is optional m R3 u1 L P 41 All registers are assumed to contain a signed value unless indicated by a format specifier such as 32U or ul L P 42 1 to 4 registers Result is Generic Multiply registers R1 Rn 10 scale T XX m R1 u1 m R2 u1
17. lt DOI name ZMtrDPC1 gt lt SDI name LocKey gt lt Private type SchneiderElectric IED PntRef gt T SS m 4300 m 4312 1 L P 23 lt Private gt lt SDI gt lt DOI lt LN gt Mapping Standard Discrete Input I O point with base address 4300 and status of Ind is given by Oth bit of 4355 m Type for single status is T SS Register description1 Holding register is m address is 4300 Register description2 Holding register is m address is 4355 ones bitmask is 1 mask for 1st bit in hexadecimal Processing code for Digital input SS is L P 20 BOO DO BO DO Map would look like T SS m 4330 m 4355 1 L P 20 lt LN desc General IO inst 1 1nClass GGIO 1nType SE_GGIO_PM8_VO001 prefix gt lt DOI name ZMtrIndl gt lt SDI name Ind gt lt Private type SchneiderElectric IED PntRef gt T SS m 4330 m 4355 1 L P 20 lt Private gt lt SDI gt lt DOI gt lt LN gt Example of alarm in Micrologic Mapping of over current alarm is retrieved from the file 20 its alarm number is 1017 and its alarm type is 1 over m Type for Alarm is T ALM m Alarm description o file number is F 20 o alarm number is q 1017 o alarm type is1 Map would look like T ALM F 20 q 1017 1 lt LN dese inst 1 In amp lass PTOC InType SE_PTOC Micrologic VO01 prefix gt lt DOI name Op gt lt Private type SchneiderElectric IED PntRef gt T ALM F 20 q 1017 1 lt Private gt lt DOI gt lt LN gt 68 Sc
18. All registers are assumed to contain a signed value unless indicated by a R Address L P 42 format specifier such as 32U or ul L P 43 1 to 4 registers Result is Generic Average registers Avg R1 Rn 10 scale T XX m R1 u1 m R2 u1 All registers are assumed to contain a signed value unless indicated by a m R3 u1 L P 43 format specifier such as 32U or ul L P 44 2 to 4 registers Result is Generic Average registers WF Avg R1 Rn 1 Rn 10 scale T XX m R1 u1 m R2 u1 All registers are assumed to contain a signed value unless indicated by a m R3 u1 L P 44 format specifier such as 32U or ul L P 45 2 registers Result is Generic Sum with scaled R1 10 scale R2 registers All registers are assumed to contain a signed value unless indicated by a T XX m R1 u1 m R2 u1 format specifier such as 32U or ul N value L P 45 L P 46 2 registers Result is same as above except unsigned Generic Sum with scaled Power facto r processing codes All registers are assumed to contain a signed value unless indicated explicitly by a format specifier such as 32U or ul registers unsigned T XX m R1 u1 m R2 u1 N value L P 46 L P 50 1 register Returns IEEE power factor Circuit Monitor T XX m R1 u1 L P 50 L P 51 2 registers Returns the IEEE power factor converted from IEC mode as necessary Power Meter T XX m R1 u1 First register contains IEEE PF the second register contains IEC PF m R2 u1 L P 51 Th
19. Bits 8 11 month Bits 0 4 day Register N 2 Bits 8 11 hour Bits 0 5 minutes Register N 3 msec 0 59 999 seconds are ms 1000 L P 5 3 sequential registers Register N Circuit Monitor T A XX m N u3 L P 5 High byte month 1 12 Power Meter Low byte day 1 31 Register N 1 High byte year 0 69 12000 70 99 1900 Low byte hour 0 23 Register N 2 High byte minutes 0 59 Low byte seconds 0 59 PLSED309028EN 12 2010 Schneider 59 F Electric PowerLogic G3200 Modbus to IEC 61850 Server Logic code Register definition Date time processing codes cont Appendix B Processing codes Processing description Device support Example of usage L P 6 4 sequential registers Register N Circuit Monitor T A XX m N u4 L P 6 High byte month 1 12 Power Meter Low byte day 1 31 Register N 1 High byte year 0 69 2000 70 99 1900 Low byte hour 0 23 Register N 2 High byte minutes 0 59 Low byte seconds 0 59 Register N 3 msec 0 999 unused L P 7 4 sequential registers Register N TeSys T T A XX m R u4 L P 7 High byte seconds 00 59 Low byte 0 unused Register N 1 High byte hour 00 23 Low byte minutes 00 59 Register N 2 High byte month 01 12 Low byte day 01 31 Register N 3 Word year 2006 2099 Note Register values are read in BCD format L P 8 6 sequential registers Register N year 2000 2099 PXP T A XX m R u6 L P 8 Register
20. GetGoCBValues O O SetGoCBValues O O GSENotSupported C C GOOSE Control Block GoCB O O GSSE conformance Subscriber Publisher M O C Supported M O C Supported GSSE services C SendGSSEMessage M M GetGsReference O Cc GetGSSEDataOffset O Cc GetGsCBValues O O SetGsCBValues O O GSENotSupported C Cc GSSE Control Block GsCB O O SCL services SCL conformance M O C Supported SCL 1 SCL file for implementation available offline M SCL 2 SCL file available from implementation online O SCL 3 SCL implementation reconfiguration supported online O Note M mandatory support O optional support C conditional support I out of scope X must not be supported version compatibility PLSED309028EN 12 2010 Schneider 39 Electric PowerLogic G3200 Modbus to IEC 61850 Server Schneider Capabilities description PIXIT Protocol implementation extra information for testing Device configuration The entire device configuration is read only and can only be modified by the CID file In particular data objects with functional constraints of DC and CF can never be written ACSI models Association model Item Value Comments Maximum simultaneous client associations 6 TCP Keepalive 1 to 60 seconds default 30 DI Authentication Not supported Association parameters TSEL Required value defined in the CID file SSEL Required value defined in the CID file PSEL Required value
21. Micrologic_ v001 functions prefix gt lt LDevice gt lt Server gt lt AccessPoint gt 46 Schneider PLSED309028EN 12 2010 PE80520 PowerLogic G3200 Creating a CID file Modbus to IEC 61850 Obtaining or building an ICD file Server lt IED configVers manufacturer type G3200 G lt Private type lt Services gt Data type template The data type template contains all possible types of LNs DOs and DAs that appear in the server An example of the contents of a data type template is shown below ion 1 0 desc IEC61850 server for modbus devices Schneider Electric name GW51_ owner My Project Id eneric server gt SchneiderElectric IED Type gt G3200 lt Private gt lt DataTypeTemplates gt INoderype id USEEXCBRZMIerSlogi en NT eanype N hee Logical Node lt DO name Pos transient false type SE Dpc Micrologic V001 gt lt LNodeType gt an Types lt DOType cdc DPC id SE Dpc Micrologic V001 iedType gt referring to the lt DA bType Dbpos count 0 dchg true dupd false fc ST Data Object Types name stVal qchg false valKind Set gt lt DA bType Timestamp count 0 dchg false dupd false fc ST name t qchg false valKind Set gt lt DA bType Struct count 0 dchg false dupd false fc CO name SBOw qchg falsetype oper valKind Set gt lt DA bType Struct count 0 dchg false dupd false fc CO fame Cancal qceng fallse t
22. N 1 month 1 12 Register N 2 day 1 31 Register N 3 hour 0 23 Register N 4 minutes 0 59 Register N 5 seconds 0 59 Modulo 10K processing codes L P 10 Up to 4 sequential registers Modulo 10K Result is either a string or an integer representation Generic Usually used for Range 0 9 999 999 999 999 999 Energies and counts Each register has a range of 0 to 9 999 T BC m R1 size L P 10 Result is Size can be u1 to u4 R4 10 000 3 R3 10 000 2 R2 10 000 R1 L P 11 Up to 4 sequential registers Modulo 10K value Result is either a string or an integer representation Generic Usually used for Range 0 9 999 999 999 999 999 Energies and counts Each register has a range of 0 to 9 999 T BC m R1 size L P 11 Result is Size can be ul to u4 R4 10 000X3 R3 10 000 2 R2 10 000 R1 L P 12 Up to 4 sequential registers Modulo 10K Result is either a string or an integer representation Generic Usually used for Range 0 9 999 999 999 999 999 Energies and counts Each register has a range of 0 to 9 999 T BC m R1 size L P 12 Result is Size can be u1 to u4 R4 10 000X3 R3 10 000 2 R2 10 000 R1 1000 L P 13 Up to 4 sequential registers Modulo 10K value Result is either a string or an integer representation Generic Usually used for Range 0 9 999 999 999 999 999 Energies and counts Each register has a range of 0 to 9 999 T BC m R1 size L P 13 Result is Size can be u1 to u4 R4 10 000X3 R3 10 000 2 R2 10 000 R1 1000 Values w
23. N I L P 24 m Ifthe register read provides a 1 it is converted to a 10 ON Result is 0 intermediate 1 OFF 2 ON 3 bad state L P 25 2 registers Same as PL Digital Output SS except Generic PL Digital Output TF Result is 0 false 1 true T XX m R1 m R2 0000 zzzz N I L P 25 60 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server Appendix B Processing codes Logic code Register definition Processing description Device Example of usage support Values with bitmask processing codes cont L P 26 Up to 4 registers Each register is compared to a ones mask Optionally it can also be Generic Status SS compared to a zeros mask T XX m R1 0000 2zzz If there is only one register the result can be inverted m R2 0000 2zzz N Result is 0 OFF 1 ON I L P 26 L P 27 Up to 4 registers Same as Status SS except Generic Status DS m Inversion will invert only OFF and ON states T XX m R1 0000 22zzz m Ifthe register read provides a 0 it is converted to 01 OFF m R2 0000 2zzz N m Ifthe register read provides a 1 it is converted to a 10 ON I L P 27 Result is 0 intermediate 1 OFF 2 ON 3 bad state L P 28 Up to 4 registers Same as Status SS except Generic Status TF This result can be inverted T XX m R1 0000 ZZZz m R2 0000 zzzz N I L P 28 L P 28 1 register One register is bit ANDed with one mask The result is an integer that can Generic Sta
24. O C Comments actVal INT128 ST M 1 actVal INT32 ST M 1 q Quality ST M t TimeStamp ST M units Unit CF O read only pulsQty FLOAT32 CF M read only 1 INT128 is required by the standard for conformance purposes but the INT128 type is not supported internally by G3200 and is understood as INT32 type From a communication point of view such variables have to be considered as INT32 values This behavior is often implemented by third party devices Note As a variable declaration and for compliance with third party software and devices BCR typed data can also be declared within the ICD CID file of the G3200 as INT32 type G3200 behavior will remain identical to the above behavior from a communication point of view Measured value MV Attribute name Attribute type FC M O C Comments mag AnalogueValue MX M q Quality MX M t TimeStamp MX M db INT32U CF O read only dataNs VISIBLE STRING255 EX CG for non standard data objects Complex measured value CMV Attribute name Attribute type FC M O C Comments cVal Vector MX M q Quality MX M t TimeStamp MX M db INT32U CF O read only Sampled value SMV Common data class not supported WYE Data name Data class FC M O C Comments phsA CMV Cc phsB CMV Cc phsC CMV C neut CMV Cc res CMV Cc dataNs VISIBLE STRING255 EX CG for non standard data objects Delta DEL Data name Data class FC M O C Comments phsAB CMV C phsBC CMV Cc
25. Schneider 43 DE80530 PowerLogic G3200 Modbus to IEC 61850 Server Ethernet G3200 Modbus to IEC 61850 Server G3200 Proxy 0 LD1 Proxy 1 LD2 Proxy 1 L Modbus SL Device 1 Device 2 Device n G3200 modelling Schneider 44 Z Electric Creating a CID file Obtaining or building an ICD file Introduction The G3200 provides connectivity of Modbus devices into a IEC 61850 network ACID file is required to provide the G3200 with the necessary information for the communication architecture to work correctly A CID file is built on a template called an ICD file This chapter describes m how to obtain an ICD file by o sending a request by e mail to Schneider Electric to receive the ICD file available for a defined list of supported products o building it from scratch using modelling rules and examples provided m how to build a CID file from the ICD file Obtaining ICD files The ICD provides information to the G3200 about the data objects and services supported by the devices that are connected to it The ICD files of some dedicated products are available on request Send your request by e mail to PowerLogic G3200 schneider electric com The ICD files are used in the generation of the CID file See Building a CID file from an ICD file page 48 Building the ICD file from scratch It is possible to create your own ICD file from scratch F
26. TCP and IEC 61850 with the ability to connect legacy Modbus TCP based tools in parallel with IEC 61850 communication Advanced time management The G3200 provides highly accurate time stamped data and associated time synchronization with the source using 2 methods m SNTP clock synchronization which enables the device to synchronize automatically its own clock from a clock server located on the Ethernet network Clock synchronization can reach a few milliseconds depending on the accuracy of the SNTP source m Downstream local source synchronization The G3200 can synchronize a downstream Modbus device and then obtain data directly time stamped at the source to provide superior time stamp accuracy This feature is available only for some Modbus device types Meaningful data retrieval The G3200 leverages the benefits of the IEC 61850 standard and offers the possibility for customization to provide advanced data retrieval m The G3200 translates raw information from the Modbus device into meaningful information using the IEC 61850 standard dictionary which covers most electricity related data m The translation rules are defined in a configuration file which is loaded into the G3200 When the translation is done and verified the translation engine becomes independent from the application m The configuration files can be customized to meet your specific system s needs Secured control model The G3200 server supports control m
27. able to receive the data for at least one of the tables m the device is made Online m the G3200 becomes fully operational from an IEC 61850 client for this logical device If the G3200 is not able to receive the data for at least one of the Modbus tables m the Logical Device status in the Summary web page is displayed as Offline m LLNO Mod and LLNO Beh of the considered Logical Device indicate bad connectivity of the device m IEC 61850 data attached to the corresponding Logical Device keep its previous value and time stamp 20 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Monitoring and troubleshooting Modbus to IEC 61850 Diagnostics web pages Server Introduction Diagnostics web pages provide useful information for network monitoring tuning and troubleshooting There are 3 diagnostics web pages m Communication statistics web page to troubleshoot Ethernet TCP IP communication m G3200 summary web page to display communication identification parameters m Read device registers web page to troubleshoot Modbus communication PE80497 Communication Statistics Procedure Link Type 100BaseTx FD H Frames Transmitted OK 10236 Action Result EN re D 1 From the Diagnostics page click Opens the Communication Statistics page Frames Received OK 11660 Communication Statistics CRC E D ri f Pe SECH 2 View the data See Interpreting statistics page 21 P Too Long 0 F i i i
28. and then writes the result back Register AND to the register If the tag is read it checks that the register has a 1 everywhere the mask has a 1 if it does then value TRUE else value FALSE Write example T SS m 20 C0 L P 102 startingreg 01010000 mask 11000000 ending reg 00010000 L P 103 1 register If the value written to the tag 1 the tag reads the register OR the value Generic Status Write with the MASK and then writes the result back to the register Register OR Ifthe tag is read it checks that the register has a 0 everywhere the mask has a 0 if it does then value TRUE else value FALSE Write example T SS m 20 C0 L P 103 startingreg 01010000 mask 11000000 ending reg 11010000 PLSED309028EN 12 2010 Schneider 63 PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server This appendix contains the following examples of individual mapping strings in different cases Modelling of analog measure variable Example of a complex measure variable Example of energy counter Example of device time stamp with attribute mapping Example of single status with 1 s bitmask Example of single status with 0 s bit mask Example of single status with 0 s and 1 s bitmask Example of DS breaker position Example of IO Example of alarm in Micrologic Example of control points coils Example of common logical node data Example of NA no mapping Example of math operation Example of
29. any time server or when the SNTP synchronization is not enabled Meaning of ClockNotSynchronized bit This bit is set when the time server sets the alarm condition clock not synchronized in the SNTP frame LI field Time stamps Time stamping is performed in Sepam and Easergy T200 devices for process status values such as protection tripping digital inputs changes The time stamping of history variables such as maximum demands are also taken from Power Meter and Micrologic devices It is performed in the G3200 unit for any other data such as deadbanded analog values all devices and alarms Power Meter and Micrologic devices G3200 clock At power up the G3200 clock is reset to 2007 01 01 00 00 000 It is then synchronized to the SNTP servers if the feature is enabled and the servers are running Modbus devices are synchronized from the G3200 module only if the ClockFailure status is not set File transfer model Item Value Comments Separator for files and directories path 7 Structure of files and directories G3200 LD LDName COMTRADE filename Maximum length of names incl path 64 Case sensitivity Case sensitive PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Capabilities description PIXIT Protocol implementation extra information for testing Impact of device settings Logical device mode Provided that the Modbus device is of the correct type and
30. bit string Example of strings Modelling of analog measure variable phsA current is available in Modbus register 1100 and its scaling information is available in register 3209 m Type for measure is T MV m Register description o Holding register is m o address is 1100 o size is ul O scale is R 3209 no boundary check m Processing code is L P 32 Map would look like T MV m 1100 u1 R 3209 L P 32 lt LN desc Measurements inst 1 1nClass MMXU IlnType SE MMXU_PM8 V001 prefix gt lt DOI name A gt lt SDI name phsA gt lt Private type SchneiderElectric IED PntRef gt T MV m 1100 ul R 3209 L P 32 lt Private gt lt DAI desc unit 1A name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt SDI gt lt DOI gt lt LN gt 64 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example of a complex measure variable For modelling complex measure variable of the phase C current the IEC tag is MMXU1 A phsC phsC is a complex measure value it has both magnitude and angle mapped to two different Modbus registers Magnitude is available in Modbus register 1234 and its scaling information available in register 3209 Angle of the current is available in 1235 and its scaling factor is 0 1 m Type for Complex measure is T CM m Register description1 D Holding register is m D address is1234 o size is ul O scale is R 3209 no bou
31. defined in the CID file AP Title Not required ignored if present AE Qualifier Not required ignored if present Maximum MMS PDU size 8000 Typical startup time after a power supply interrupt 20 100 seconds depends on the CID configuration file The status LED blinks quickly during startup 1 This is the time between two keepalive probes during normal operation The session time out in case of communication failure is related to this value in a non linear way and ranges from approximately 50 seconds to approximately 150 seconds It is about 90 seconds for the default keepalive value Server model Item Value Comments Quality bits for analog values MX Validity Good Invalid OutofRange Supported Failure Supported Inconsistent Supported Source Process Other quality bits and values Not supported Quality bits for status values ST Validity Good Invalid BadReference Supported Failure Supported Inconsistent Supported Inaccurate Supported Source Process Other quality bits and values Not supported Maximum number of data values in Get SetDataValues requests Limited only by the MMS PDU size Setting group model Item Number of setting groups Value Comments 2 Dataset model Item Recommended predefined Datasets in the ICD files Value Comments m 1 status Dataset LLNO StDs m 1 measurand Dataset LLNO MxDs in each Logical Device Maximum number
32. event An event can be a change in the status an occurrence of a value exceeding a threshold or change of a digital contact Alarms in Micrologic Power Meter and Circuit Monitor The alarms are considered as IEC objects under a group of logical nodes Alarms have a unique object reference as per the standard or as named by the PowerLogic SCADA modelling Mapping to the actual alarm in the device is done by using the IED PntRef private tag lt Private type SchneiderElectric IED PntRef gt T ALM F FileNo q AlarmNo Bitmask lt Private gt where m ALM is the Type Alarm m FileNo is the file number from which the event has to be retrieved m AlarmNo is the alarm number in Micrologic or the alarm unique ID in Power Meter and Circuit Monitor m Bitmask is used to find the type of alarm over under etc in Micrologic In Power Meter and Circuit Monitor it is used to find the active evaluation status summary Example Data object over current demand alarm PTOC1 Op1 dchg is mapped as lt Private type SchneiderElectric IED PntRef gt T ALM F 20 q 1017 1 lt Private gt Alarms in Sepam and Easergy Alarms or events in Sepam and Easergy are mapped to bit address status registers For other devices there is currently no support for alarms in the G3200 The private tag used is lt Private type SchneiderElectric IED PntRef gt T TYPE S bSA1 S bSA2 lt Private gt where m TYPE is the type DO for example SS DS etc m bSA
33. ftp lt ip address gt bak Itis possible to revert to the previous configuration by restoring the back up file in the G3200 Summary web page See G3200 Summary page 23 Transferring a CID file using Windows command prompt tool To transfer the CID file using Windows command prompt tool proceed as follows 1 Start the command prompt tool by clicking Start gt Run and then type command in the Open text box 2 In the command prompt window connect to the FTP server by typing the IP nd Ok address of your G3200 o open data connection r complete 169388 bytes sent in 23Seconds 723 88Khytes sec Le an gt ftp lt IP address gt 3 Enter the username by typing User lt IP Address gt lt none gt gt Administrator cx C WINDOWS system32 cmd exe Transferring CID file using Windows command prompt 4 When the user identity is verified you are prompted to enter a password Type Password G3200 5 When the password is verified enter the path for the CID file to be loaded Type ftp gt put full path of CID file gt 6 The Transfer complete message indicates that the transfer has been successful and you are automatically logged off from the FTP server After the CID file has been correctly loaded an automatic restart is performed and then the G3200 runs with the new settings included in the new CID file CID file content checking and diagnostics If the CID file is not valid it is rejected by the G3200 during the FTP
34. in hexadecimal Register description2 Holding register is m address is 661 ones bitmask is 400 mask for 10th bit in hexadecimal Register description Holding register is m address is 661 ones bitmask is 0 zeros bitmask is 700 mask for 8 10 bit in hexadecimal Processing code for status enumeration is L P 229 BO OO OD BO DO BO Do Map would look like T EN m 661 100 0 m 661 400 0 m 661 0 700 L P 229 lt DOI name CBRkdPos gt lt Private type SchneiderElectric IED PntRef gt T EN m 661 100 0 m 661 400 0 m 661 0 700 1 P 229 lt Private gt lt DOI gt Example of strings A label of general input output port is available in 8 registers from 4331 m Type for strings is T ST Register description Holding register is m address is 4331 size is u8 Processing code strings is L P 39 BOOS Map would look like T ST m 4331 u8 L P 39 lt SDI name zlb1l gt lt Private type SchneiderElectric IED PntRef gt T ST m 4331 u8 L P 39 lt Private gt lt SDI gt 70 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example 1 LDevice section of ION7650 ICD file lt LDevice desc IONMeter inst LD0 gt lee EE lt Private type SchneiderElectric SFT IcdFileName gt SE ION 7650 FO1_ E1V01 icd lt Private gt lt Private type SchneiderElectric SFT IedVersion gt 500 lt Private gt lt Private type SchneiderElectric SFT IedName gt IONMete
35. port does not match setting of Modbus devices Check and correct settings Modbus addresses configured in the IEC file or in the Modbus TCP do no match device addresses Check and correct addresses The RS 485 network is not wired properly Check and correct wiring Symptoms IEC 61850 clients cannot connect to the G3200 IEC 61850 configuration troubleshooting Possible cause Ethernet setup is not correct Action Remedy See Ethernet setup page 10 The maximum number of active connections is reached Check the active clients The IP address of the client is filtered out See TCP IP address filtering page 15 IEC 61850 clients connect to the G3200 but no data is available The IEC 61850 server is not configured or the configuration file is not valid Download a valid configuration file The IEC 61850 server is working but some logical devices do not report data The actual Modbus device type at a given address is not the type expected in the configuration file Check device address correct the configuration file or replace device The device is not communicating Check device check its communication parameters check wiring Status in the web page displays offline 1 Modbus address is different 2 Selected Baud rates in the G3200 and in the device are different 3 DIP switch for RS 485 2 wire or 4 wire settings are in wrong position Check for the 3
36. possible errors listed and correct the settings Status in the web page displays Wrong Type A device of different type is connected Connect the device specified in the CID file Check that the content device model field included in the loaded CID files corresponds to the connected device See Defining Device Model strings page 50 Status in the web page displays Bad conf Device model string in the CID file is empty Complete the appropriate series and configuration strings See Defining Device Model strings page 50 26 CID file troubleshooting Error messages may appear during the donwnload of the CID file to the G3200 See CID file content checking and diagnostics page 19 Schneider d Electric PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Capabilities description General This chapter describes the level of conformity of the G3200 with IEC 61850 It does not describe the standard itself but only the choices that have been made in the G3200 implementation of the standard in terms of services modelling exceptions extensions and adaptations The capabilities description consists of the following documents m ACSI conformance statement this document describes the abstract services interface which services are implemented These services are mapped to Specific Communication Services Mapping SCSM described in the PICS m MICS Model Im
37. restricted For optimized performance a maximum of 2 high priority tables and 5 low priority tables is allowed The number of registers in each high priority table is limited to 20 m Fora table of Modbus coils table type C the table must cover the word address or base address which consists of 16 bits coils and not the actual bit address of the coil For example if the bit address of the coil to be modelled is C895 hexadecimal then 0C89 hexadecimal must be included inside the Modbus table 52 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Appendix A Specific syntax and rules for mapping Modbus devices Defining Point Reference maps The IED PntRef private tag maps the Modbus objects to the corresponding IEC 61850 objects The tag can appear at the DOI SDI or at the DAI level The IED PntRef private tag is also used to map alarms See Alarm mapping description page 54 The usage of this private tag is given below lt Private type SchneiderElectric IED PntRef gt Type RegisterDescriptionl RegisterDescriptionN ProcessingCode lt Private gt When only one attribute usually the primary attribute of an IEC 61850 object has a corresponding Modbus register in the device the mapping is done at the DOI level This is the most common case called the object level mapping where the specified Modbus object is mapped by default to the primary data attribute of th
38. such as ConneXview and view the networking status and diagnostics in the MIB I format The MIB II reading service is the only SNMP service supported by the G3200 Procedure Action 1 From the Setup page click SNMP Parameters Result Opens the SNMP Parameters page 2 Check ENABLE SNMP to turn ON the simple network management protocol Note If you uncheck Enable SNMP and click Apply the G3200 will reboot and SNMP functionality will be turned OFF Activates SNMP SNMP Parameters page bneider 16 Sonder 3 Enter the system contact system name system location read only community name and the read write community name Enters the SNMP system information and community access names 4 Click Apply Saves the SNMP settings Settings description Option Description Enable SNMP MIB II support Checking the check box enables SNMP Setting Default not enabled System Contact Name of the administrative contact String lt 50 characters Default empty string System Name subnet Name given to the G3200 and IED String lt 50 characters Default empty string System Location Location of the G3200 String lt 50 characters Default empty string Read only SNMP community that has read only String lt 50 characters Community Name access to the MIB Acts as a password Default public Read write SNMP community that has read write String lt 50 chara
39. the G3200 Summary page 2 View the data See Interpreting information page 23 Interpreting information Information Device Information Firmware Version Description The firmware version that is installed on the G3200 G3200 Summary page PLSED309028EN 12 2010 System Idle Time A percentage from 0 to 100 indicating the average processor time that is not being used MAC Address The unique Ethernet hardware address of the G3200 Serial Number The serial number of the G3200 Model Number The G3200 model number Hardware Version The G3200 hardware version Manufacture Date The date the G3200 was manufactured IEC 61850 Device Name IEC 61850 Configuration files File The name given to the G3200 device in the IEC 61850 configuration file Current is the last loaded CID file Backup is the archived CID file Name Name of the file as defined at loading Edit time Time at which the configuration file has been created Version Version of the file as defined in the file header Revision Revision of the file as defined in the file header Restore This button overwrites the content of the current file with Integrity check of the CID file Current status Enabled the content of the backup file The MD2 key evaluation of the CID file is enabled during the FTP session To disable this click the button Disable Current status Disabled IEC 61850 L
40. values of a three IEC 61850 7 3 phase system DO Data Object IEC 61850 1 DPC Double Point Control IEC 61850 7 2 DPS Double Point Status information IEC 61850 7 1 GOOSE Generic Object Orientated Substation Events IEC 61850 5 GSE Generic Substation Event IEC 61850 7 2 HMI Human Machine Interface IEC 61850 3 ICD IED Configuration Description IEC 61850 10 IED Intelligent Electronic Device IEC 61850 1 IP Internet Protocol IEC 61850 3 LAN Local Area Network IEC 61850 5 LD Logical Device IEC 61850 7 1 LDO Logical Device Zero 0 IEC 61850 7 2 LLNO Logical Node Zero 0 IEC 61850 7 1 LN Logical Node IEC 61850 1 MMS Manufacturing Message Specification ISO 9506 MV Measured Value IEC 61850 7 3 PICS Protocol Implementation Conformance Statement IEC 61850 7 2 ISO IEC 8823 2 1994 PIXIT Protocol Implementation eXtra Information for Testing IEC 61850 7 2 PP Phase to Phase IEC 61850 7 4 PPV Phase to Phase Voltage IEC 61850 7 4 RTU Remote Terminal Unit IEC 61850 4 SBO Select Before Operate IEC 61850 9 1 SDO Sub DATA within a DOType IEC 61850 6 SCADA Supervisory Control And Data Acquisition IEC 61850 3 SCD Substation Configuration Description IEC 61850 10 SCL Substation Configuration description Language IEC 61850 1 SNTP Simple Network Time Protocol IEC 61850 8 1 SPC Single Point Control IEC 61850 7 4 SPS Single Point Status information IEC 61850 7 1 TCP Transmission Control Protocol IEC 61850 3 VLAN Virtual Local Area Network IEC 61850 9 2 XML eXtensible M
41. 0I_VO01 prefix gt lt DOI name BatChaMod gt lt Private type SchneiderElectric IED PntRef gt T IS L P 302 lt Private gt lt DOI gt lt DOI name BatChaSt gt lt Private type SchneiderElectric IED PntRef gt T IS L P 302 lt Private gt lt DOI gt lt DOI name Health gt lt Private type SchneiderElectric IED PntRef gt T IS s 921 L P 301 lt Private gt lt DOI gt lt LN gt lt LDevice gt 76 Schneider PLSED309028EN 12 2010 DE80503 PowerLogic G3200 Modbus to IEC 61850 Server PRI Ref 16339 2 8 6 12 PRI surge arrester connection PLSED309028EN 12 2010 Appendix D Powering the G3200 for surge withstand protection In order to improve the G3200 power supply surge withstand protection and comply with the IEC 61000 4 5 Level 4 it is recommended to use a Schneider Electric surge arrester PRI reference 16339 and to wire this equipment as described in the following sections The surge arrester PRI is not delivered with the G3200 and must be ordered separately using reference 16339 PRI surge arrester characteristics Electrical characteristics Nominal operating voltage 48 V DC Maximum discharge current 10 KA 8 20 us wave Nominal discharge current 5 KA 8 20 us wave Protection level 70V Response time ins Connection With cage terminals Cables with cross section 2 5 to 4 mm AWG 12 10 PRI surge arrester connection
42. 1 is the bit address for the first status bit m bSA2 is bit address for the second status bit Example lt Private type SchneiderElectric IED PntRef gt T SS S 340 S 341 lt Private gt Command interface description In Sepam and Easergy control DOs are mapped to control registers In this case G3200 does a coil write to the mapped control registers But because Micrologic Circuit Monitor and Power Meter do not have control registers all the control operations are executed as command interfaces Each control action has an associated command code and command parameters that are written into predefined holding registers There is no mapping for the command data objects in the ICD The mapping is done inside the firmware of the G3200 The command interface is supported by Micrologic Power Meter and Circuit Monitor devices only No other commands are supported Micrologic supported commands Command IEC tag Reset Accumulated Energy MMTR1 ZRsTot Reset Breaker Event Log LPHD1 ZRsCBEvt Reset Device Date Time LPHD1 ZRsDateTm Reset Min Max SLR_MSTA1 ZRsMinMax Reset Operations Counter XCBR1 ZRsOpCnt Reset Peak Demand Current MSTA1 RsMaxA Reset Peak Demand Power MSTA1 RsMaxPwr Reset Trip Unit Alarm Log LPHD1 ZRsTrUntAlm Operate Breaker CSWI1 Pos 56 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Appendix A Specific syntax and rule
43. 10T 100Tx Auto 5 IP Parameters IP Address 10 195 132 115 Subnet Mask 255 255 254 A Default Gateway 10 195 148 f Allow CID file to override IP settings T TCP Parameters TCP Keep Alive 5 FTP Session Idle Time 30 Seconds Seconds Installation and configuration Configuration Communications setup Ethernet and TCP IP settings Procedure Action Result 1 From the Setup page click Ethernet amp Opens the Ethernet amp TCP IP page TCP IP 2 Select your media type Contact your network Selects the media type administrator if you do not know Enters the Ethernet parameters for the G3200 Note If you enter an IP address that is used by another device you will be prompted to select a new IP address See Duplicate IP address detection page 13 3 Enter your IP address subnet mask and default gateway address assigned to your G3200 by your network administrator 4 Click Apply Updates the G3200 Ethernet and TCP IP settings Ethernet amp TCP IP page PLSED309028EN 12 2010 Note After making changes to the Ethernet and IP parameters and clicking Apply the G3200 will reboot Description of Ethernet and TCP IP settings Option Description Setting Media Type Used to define the physical Ethernet m 10T 100Tx Auto connection or media type m 10BaseT HD m 10BaseT FD m 100BaseTX HD m 100BaseTX FD Default 10T 100Tx Auto IP Address Use
44. 255 0 0 If the IP address is not automatically configured contact your network administrator to set up a static IP address 2 Connect an Ethernet crossover cable available in the kit TCSEAK0100 from the G3200 to the computer 3 Start Internet Explorer version 6 0 or higher 4 In the Address text box type 169 254 0 10 then press Enter Type Administrator for your Username type G3200 for your Password then click OK Usernames and Passwords are case sensitive 5 Set up parameters See Ethernet and TCP IP settings page 13 6 Reconnect your computer to your network If you assigned a static IP address to your computer in step 1 you must restore your computer s original settings before reconnecting to your network Handling conflict of IP address between CID file and web page In case of conflict between the IP address pre set in the CID file and the IP address set manually in the IP Parameters section of the Ethernet amp TCP IP web page the IP address in the CID file is taken as the reference unless you configure the G3200 otherwise m f the Allow CID file to override IP settings is checked and applied in the Ethernet amp TCP IP web page the G3200 reboots and the IP parameters of the G3200 are always overwritten by the IP parameters given in the CID file Successive settings of the IP parameters in the web page reboots the G3200 but with the IP parameters set in the CID file m f the Allow CID file to override IP settings opt
45. 5 PE80466 PowerLogic G3200 Installation and configuration Modbus to IEC 61850 Download of CID file Server Transferring a CID file i A CID file contains all the IEC 61850 configuration information required for any generic Modbus device or a G3200 The build of the CID file can be performed off line See Creating a CID file page 44 Two methods are available to transfer the CID file from the FTP server into the G3200 m copy using Windows browser m transfer using Windows command prompt tool Note The command prompt tool is the fastest method of transferring the CID file into the G3200 LIEFT ns Transferring a CID file using Windows browser E ar To transfer the CID file using Windows browser proceed as follows Oe gt a AP oe r 1 Launch Windows Internet Explorer 6 0 or lower Bee Six Alle gt Note Mozilla Firefox and Internet Explorer 7 0 or higher cannot be used Other Places a re 2 In the Address text box connect to the FTP server by typing the IP address of Internet Explorer E g3200cta txt your G3200 and then press Enter oo 3 Type your Username Administrator is the default and Password G3200 is u the default into the text boxes and then click OK Transferring CID file using Windows browser Note Username and password are case sensitive The CID file is copied at the root of the file system ftp lt ip address gt A back up copy of the previous CID file is automatically created in the directory
46. A gt lt SDI name phsA gt lt Privatetype SchneiderElectric IED PntRef gt T MV m 150 ul N 1 L P 33 lt Private gt lt DAI desc unit 1A name db valKind Set gt lt Val gt 1 lt Val gt lt DAD lt SDI gt lt SDI name phsB gt lt SDI gt lt SDI name phsC gt lt SDI gt lt DOI gt lt DOI name Hz gt lt Private type SchneiderElectric IED PntRef gt T MV m 159 ul N 1 L P 33 lt Private gt lt DAI desc unit 0 1Hz name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt DOI gt lt DOI name PF gt lt SDI name phsA gt lt Private type SchneiderElectric IED PntRef gt T MV m 262 s1 N 4 L P 32 lt Private gt lt DAI desc unit 0 001 name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt SDI gt lt SDI name phsB gt lt SDL gt lt SDI name phsC gt lt SDI gt lt DOI gt lt DOI name Phv gt lt SDI name phsA gt lt Private type SchneiderElectric IED PntRef gt T MV m 166 u2 L P 33 lt Private gt lt DAI desc unit 1V name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt SDI gt lt SDI name phsB gt lt SDI gt lt SDI name phsC gt lt SDI gt lt DOI gt lt DOI name TotPF gt lt Private type SchneiderElectric IED PntRef gt T MV m 265 s1 N 4 L P 32 lt Private gt lt DAI desc unit 0 001 name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt DOI gt 72 Schn
47. FC Log LPHD1 ZRsWFC Operate PM8 P22 Slot 1 IO Point 1 P22_GGIO1 ZMtrDPC1 Pos Operate PM8 P22 Slot 1 IO Point 2 P22_GGIO1 ZMtrDPC2 Pos Operate PM8 P22 Slot 2 IO Point 1 P22_GGIO2 ZMtrDPC1 Pos Operate PM8 P22 Slot 2 IO Point 2 P22_GGIO2 ZMtrDPC2 Pos Operate PM8 P26 Slot 1 IO Point 1 P26_GGIO1 ZMtrDPC1 Pos Operate PM8 P26 Slot 1 IO Point 2 P26_GGIO1 ZMtrDPC2 Pos Operate PM8 P26 Slot 2 IO Point 1 P26_GGIO2 ZMtrDPC1 Pos Operate PM8 P22 Slot 2 IO Point 2 P26_GGIO2 ZMtrDPC2 Pos Operate PM8 P2x Slot 1 IO Point 1 P2x_GGIO1 ZMtrDPC1 Pos Operate PM8 P2x Slot 1 IO Point 2 P2x_GGIO1 ZMtrDPC2 Pos Operate PM8 P2x Slot 2 IO Point 1 P2x_GGIO2 ZMtrDPC1 Pos Operate PM8 P2x Slot 2 IO Point 2 P2x_GGIO2 ZMtrDPC2 Pos Operate Standard KY Relay GGIO1 ZMtrDPC1 Pos Circuit Monitor supported commands Command IEC tag Reset 100ms RMS Log LPHD1 ZRs100ms Reset Accumulated Energy MMTR1 ZRsTot Reset Adaptive WFC Log LPHD1 ZRsAWFC Reset Alarm Summary LPHD1 ZRsAlmSum Reset Conditional Energy CND_MMTR1 ZRsEnr Reset Device Date Time LPHD1 ZRsDateTm Reset Disturbance WFC Log LPHD1 ZRSDWFC Reset EN50160 Evaluation LPHD1 ZRsENEval Reset Energy Summary LPHD1 ZRsEnrSum Reset Energy Trending LPHD1 ZRsEnrTrend Reset Incremental Energy Interval PILMMTR1 ZRsEnrint Reset Input Metering Accum All Channels GGIO1 ZRsInMtrCh Reset Inpu
48. O optional field C conditional field PLSED309028EN 12 2010 Capabilities description MICS Model implementation conformance statement Model conformance The Model conformance of each particular Modbus device is described by its ICD file The following descriptions are general descriptions that apply to all Modbus devices Common data attributes classes The following tables list which fields is found in each Common Data Attribute Class CDAC Fields not found in these tables are optional O or conditional C fields not supported by Modbus devices Mandatory fields M are always present Quality Attribute name Attribute type Value Value range M O C Comments validity CODED ENUM good invalid M Supported detailQual PACKED LIST M Supported overflow BOOLEAN DEFAULT FALSE M Defaulted outOfRange BOOLEAN TRUE FALSE M Supported badReference BOOLEAN TRUE FALSE M Supported oscillatory BOOLEAN DEFAULT FALSE M Defaulted failure BOOLEAN TRUE FALSE M Supported oldData BOOLEAN DEFAULT FALSE M Defaulted inconsistent BOOLEAN TRUE FALSE M Supported inaccurate BOOLEAN TRUE FALSE M Supported source CODED ENUM process substituted M Defaulted DEFAULT process test BOOLEAN DEFAULT FALSE M Defaulted operatorBlocked BOOLEAN DEFAULT FALSE M Defaulted Analogue value Attribute name Attribute type Value Value range M O C f FLOAT32 floating point value Cc Configuration o
49. ON Network polarization Sw1 sw2 sw3 SW4 SW5 SW6 at the 0 V ON at the 5 V ON Selecting the RS 485 network swi SW2 SW3 SW4 SW5 SW6 2 wire network ON ON 4 wire network OFF OFF Schneider 9 Electric PE80490 PE804091 PowerLogic G3200 Installation and configuration Modbus to IEC 61850 Configuration Server Ethernet setup Ethernet setup is required to enable access to the G3200 over a network If Ethernet setup has already been done at installation time this section can be skipped and you can proceed directly to the next step See Accessing the G3200 over a network page 12 Before configuring the G3200 obtain a unique static IP address subnet mask and default gateway address from your network administrator Use a web browser or Hyper Terminal to configure the G3200 with the information obtained from your network administrator as described in the following sections Ethernet setup using Hyper Terminal Note Windows Vista does not support Hyper Terminal 1 Connect to G3200 RS 232 port using the TCSEAK0100 Configuration kit or any Connect To ial null modem cable 2 Start Hyper Terminal click Start gt Run then type hypertrm 3 In the Name text box type a name for the new connection for example D 63200 G3200 config then click OK 4 Inthe Connect using drop down list select the computer COM port you will be using then click OK 5 Set the COM properties as follows Bits per second 19200 Data bi
50. P ARP IEC 61850 TCP IP Maximum number of simultaneous 6 IEC 61850 open connections Maximum number of simultaneous 4 Modbus TCP open connections Transmission speed 10 100 Mbps 8 Schneider PLSED309028EN 12 2010 DE80262 PowerLogic G3200 Modbus to IEC 61850 Server Note 1 The number of daisy chained devices is limited m 32 devices is a physical limitation of the RS 485 connection see Characteristics page 8 m Application limitations also apply see Typical architecture page 5 2 In the 4 wire RS 485 network diagram indicated colors apply to the Belden 8723 cable only For the Belden 9842 cable the following color combinations are used Blue White Tx White Blue Tx Orange White Rx and White Orange Rx Recommended settings 2 3 4 5 6 2 wire by default E EE u IN 1 2 3 4 5 6 4 wire Setting the RS 485 network parameters PLSED309028EN 12 2010 Installation and configuration Installation Hardware installation Connecting the G3200 recommended connection m Connect the power supply and RS 485 twisted pair using cable with cross section e 2 5 mm 2AWG 12 m Connect the 24 VDC power supply to the and terminals of the black screw terminal block m Connect the RS 485 twisted pair 2 wire or 4 wire to the RX RX or RX RX TX TX terminals of the black screw terminal block m Connect the RS 485 twis
51. Pos Operate CM4 IOX Slot 3 IO Poin IOX_GGIO3 ZMtrDPC3 Pos Operate CM4 IOX Slot 3 IO Poin IOX_GGIO3 ZMtrDPC4 Pos Operate CM4 IOX Slot 3 IO Poin IOX_GGIO3 ZMtrDPC5 Pos Operate CM4 IOX Slot 3 IO Poin IOX_GGIO3 ZMtrDPC6 Pos Operate CM4 IOX Slot 3 IO Poin IOX_GGIO3 ZMtrDPC7 Pos CO N 1 BY Oo PO Operate CM4 IOX Slot 3 IO Poin IOX_GGIO3 ZMtrDPC8 Pos Operate Standard KY Relay GGIO1 ZMtrDPC1 Pos Editing deadbands The deadband check is done on the raw value of the register Note When changing the deadband values the scale and unit of the corresponding variable need to be taken into consideration PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Appendix B Processing codes Server m Processing codes define the rules or formulas applied on the raw data read from the Modbus registers m The processing code is presented as L P K where K is a positive number ranging from 1 to N m It is important to select the appropriate processing code to suit the device The logic code denotes how to interpret or decode the data in a register consecutive registers or a set of registers It also specifies the logic to be applied on a set of registers to obtain the output When the formula is applied to a set of registers the resultant output is treated as the value of the attribute of the corresponding IEC 61850 obj
52. PowerLogic Ethernet Gateways PowerLogic G3200 Modbus to lEC 61850 Server User s manual 12 2010 Schneider Electric Safety instructions Safety symbols and messages Read these instructions carefully and look at the equipment to become familiar with the device before trying to install operate service or maintain it The following special messages may appear throughout this bulletin or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure Risk of electric shock SN The addition of either symbol to a Danger or Warning safety label on a device indicates that an electrical hazard exists which will result in death or personal injury 7A if the instructions are not followed kan e ANSI symbol IEC symbol Safety alert This is the safety alert symbol It is used to alert you to potential personal injury hazards and prompt you to consult the manual Obey all safety instructions that follow this symbol in the manual to avoid possible injury or death Safety messages A DANGER DANGER indicates an imminently hazardous situation which if not avoided will result in death serious injury or property damage A WARNING WARNING indicates a potentially hazardous situation which if not avoided could result in death serious injury or property damage A CAUTION CAUTION indicates a potentially hazardous situation which if not avoided
53. Type for Activation Directional T AD m No data exists on a device so no register description exists m Processing code for No data objects is L P 302 Map would look like T AD L P 302 lt Private type SchneiderElectric IED PntRef gt T AD L P 302 lt Private gt lt DOI gt lt SDI name X gt Example of math processing In some cases to obtain a value requires some mathematical calculation on the values of different Modbus registers This is mapped by using Math processing L P codes For example pulse weight of discrete Input I O available in register 4347 and its scaling information available in 4348 Pulse weight is measured value Type for measure is T MV Register description Holding register is m address is 4347 size is ul scale is R 4348 no boundary check Processing code for multiply math operation is L P 42 OD oo Do Map would look like T MV m 4347 u1 R 4348 L P 42 lt Private type SchneiderElectric IED PntRef gt T MV m 4347 ul m 4348 u1 R 4349 L P 42 lt Private gt lt SDI gt PLSED309028EN 12 2010 Schneider 69 Electric PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example of bit string Circuit breaker racked out depends on the various bits of a register 661 The status is given by all these bit strings m Type for status enumeration isT EN Register description1 Holding register is m address is 661 ones bitmask is100 mask for 8th bit
54. WE 3 Click Reset Resets the G3200 cumulative diagnostic data to 0 Modbus TCP Fi Sent 255 DH u DH Frames Received 258 Interpreting statistics Protocol E D gs s as doves Comertons Statistic Description Accumulative Connections 1 Maximum Connections 1 Ethernet 4 a Jore Link Status A status string that represents the speed and duplex Outbound Reply Messages 255 setting being used to communicate with the linking IEC 61850 partner em Bo ENDE K Frames Transmitted OK A counter that increments each time a frame is clive Connections DH Accumulative Connections 1 successfully transmitted ee ne Collisions A counter that increments each time a frame is Variable Writes 4 retransmitted due to collision detection Inf D x Po ri z A Excessive Collisions A counter that increments each time a frame is not able Serial Port to be sent due to reaching the maximum collision status Frames Sent 143050 A Frames Received 143050 based on the Truncated Binary Exponential Backoff CRC Errors 0 algorithm ER Frames Received OK A counter that increments each time a frame is Outbound Read Messages 142368 successfully received Outbound Write Messages 683 CRC Errors A counter that increments each time a frame is received that has a checksum CRC that does not match what is calculated Communication Statistics page Alignment Errors A counter that increments each time a frame is received that has a checksum CRC error and does not end on an 8 bit frame
55. a class not supported Controllable analog set point information APC Common data class not supported Single point setting SPG Common data class not supported PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server Note M mandatory field O optional field C conditional field PLSED309028EN 12 2010 Capabilities description MICS Model implementation conformance statement Integer status setting ING Common data class not supported Analogue setting ASG Common data class not supported Setting curve CURVE Common data class not supported Device name plate DPL Attribute name Attribute type FC M O C Comments vendor VISIBLE STRING255 DC M model VISIBLE STRING255 DC location VISIBLE STRING255 DC Logical node name plate LPL Attribute name Attribute type FC M O C Comments vendor VISIBLE STRING255 DC M swRev VISIBLE STRING255 DC M d VISIBLE STRING255 DC M configRev VISIBLE STRING255 DC CG LLNO only IdNs VISIBLE STRING255 EX C LLNO only Curve shape description CSD Common data class not supported Schneider Electric DE80530 PowerLogic G3200 Capabilities description Modbus to IEC 61850 MICS Model implementation Server conformance statement Logical device G3200 global structure The IEC 61850 server inside the G3200 contains the following logical devices m A logical device dedicated to the G3200 unit itself This logical device c
56. apabilities description ACSI description MICS Model implementation conformance statement PICS Protocol implementation conformance statement PIXIT Protocol implementation extra information for testing Creating a CID file Obtaining or building an ICD file Building a CID file from an ICD file Appendix A Specific syntax and rules for mapping Modbus devices Appendix B Processing codes Appendix C Modelling examples Appendix D Powering the G3200 for surge withstand protection Glossary IEC 61850 definitions Schneider Electric PE80489 PowerLogic G3200 Presentation Modbus to IEC 61850 G3200 overview Server Introduction IEC 61850 is a standard for communication networks and systems in electrical installations Using the PowerLogic G3200 Modbus to IEC 61850 server the majority of Modbus communicating devices can be connected to an IEC 61850 station bus and benefit from advanced features such as efficient time management meaningful and optimized data retrieval and simultaneous support of devices over Modbus TCP Application and benefits The G3200 offers the following benefits m highly accurate time stamped data and associated time synchronization with the source m facilitated retrieval of meaningful information m enhanced security control model m optimized network bandwidth usage PowerLogic G3200 Modbus to IEC 61850 server m easy integration into IEC 61850 systems m simultaneous support of Modbus
57. ark up Language IEC 61850 1 78 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Notes 79 PowerLogic G3200 Notes Modbus to IEC 61850 Server Electric PLSED309028EN 12 2010 2010 Schneider Electric All rights reserved Schneider Electric Industries SAS 35 rue Joseph Monier CS 30323 F 92506 Rueil Malmaison Cedex http www schneider electric com PLSED309028EN As standards specifications and designs change from time to time please ask for confirmation of the information given in this publication Production Assystem France Publication Schneider Electric 12 2010
58. ational m At run time the G3200 automatically polls some defined Modbus zones specified in the CID file and populates an internal cache From this internal cache the G3200 is able to answer IEC 61850 communication requests to build datasets as requested in the CID file and also to detect changes when they occur Note To assist the modelling process the encoding rules are explained in a separate appendix See Processing codes page 59 Ethernet main features The G3200 supports m HTTP protocol and embedded web server for configuration and diagnostic purposes m FTP protocol for CID file download and upload m SNTP protocol for time synchronization with the system m SNMP protocol with MIB Il reading support only for Ethernet network monitoring m security features for connection over Ethernet O user account and access definition for the access of FTP folder and web pages D IP filtering mechanism for Modbus TCP and IEC 61850 links which restricts or allows connection with the specified clients Transparent Ready main features The G3200 provides class B15 level of service as defined by Transparent Ready for Ethernet links The G3200 supports m Modbus TCP data exchange read write m Modbus TCP identification request m web server based communication configuration for example hardware and baud rate settings m duplicate IP address detection m web server based diagnostic help Electric Schneider 3 PowerLogic G3200 Prese
59. ault value sho kept Used to select how long the G3200 will wait to receive a response from a 0 1 to 2 seconds Default 0 4 seconds Note For Power Meter select a minimum value of 0 3 seconds and for Micrologic select a minimum value of 0 4 seconds uld usually be Note The settings defined here must match the settings of the connected Modbus devices Access control configuration User accounts G3200 users are assigned Usernames and Passwords Each user belongs to a group and each group has access rights to the G3200 web pages assigned by the G3200 administrator Note There are two default user accounts Administrator password is G3200 and Guest password is Guest Procedure Action 1 From the Setup page click User Accounts Result Opens the User Accounts page 2 If you want to change a group name type a new name in one of the Group text boxes the Administrator group name cannot be changed Enters a new group name 3 In the Users section enter a Name 1 to 24 characters and Password 0 to 12 characters for a new user Note Usernames and Passwords are case sensitive and can contain only alphanumeric characters Enters the name and password for a user 4 Select a group and the default language for the new user Selects the group and language for a user 5 Repeat steps 3 and 4 for each additional user you want to add Continues adding users 6 Click Ap
60. aximum imbalance voltage is available in register 1348 its scale is 0 1 and time of occurrence is available in the three registers following from1345 Type for measure is T MV Register description Holding register is m address is1348 size is ul Scale is N 1 no boundary check m Processing code is L P 32 Map for maximum imbalance voltage is T MV m 1348 u1 N 1 L P 32 00O0 0 WI D Time occurrence is associated with maximum imbalance voltage it is mapped at the attribute level Type for Time at attribute level is A TS Register description Holding register is m address is1345 size is u3 Processing code is L P 1 BOOOGldgs Map would look like A TS m 1345 u3 L P 1 lt DOI name MaxImbV gt lt Private type SchneiderElectric IED PntRef gt T MV m 1348 ul N 1 L P 32 lt Private gt lt DAI name t gt lt Private type SchneiderElectric IED PntRef gt A TS m 1345 u3 L P 1 lt Private gt lt DAI gt lt DOI gt Example of single status with 1 s bitmask 1 s bitmask checks the 1 in the selected bit position To set the trip unit door status of Micrologic 9th bit of 8743 to one map using the 1 s bitmask m Type for single status is T SS m Register description D Holding register is m o address is 8743 D ones bitmask is 200 mask for 9th bit in hexadecimal m Processing code is L P 26 Map would look like T SS m 8743 200 L P 26 lt DOI name ZTrUnitDrSt gt lt Private type Sch
61. boundary Frames Too Long A counter that increments each time a frame is received that is larger than the allowed maximum size defined in the standards frames larger than 1518 bytes Frames Too Short A counter that increments each time a frame is received that is smaller than the allowed minimum size defined in the standards frames smaller than 64 bytes Modbus TCP Frames Sent A counter that increments each time a frame is sent Frames Received A counter that increments each time a frame is received Protocol Errors A counter that increments each time an ill formed message is received Active Connections A status value that represents the number of connections that are active at the moment the diagnostics web page is refreshed A maximum of 4 connections are supported Clicking Active Connections opens a new window with a list of all of the active client connections Accumulative Connections A counter that increments each time a connection is made to the G3200 Maximum Connections A status value that represents the maximum number of connections that were active at any given moment Inbound Read Messages A counter that increments each time a read request message is received Inbound Write Messages A counter that increments each time a write request message is received Outbound Reply Messages A counter that increments each time a reply message is sent PLSED309028EN 12 2010 Schneider 21 P
62. chneider d Electric Capabilities description ACSI conformance statement ACSI model conformance statement Client Server Value subscriber publisher comments If server side B11 supported M1 Logical device M2 Logical node M3 Data M4 Data set m M5 Substitution M6 Setting group control 7 Active SG only M7 Buffered report control a M7 1 sequence number M7 2 report time stamp M7 3 reason for inclusion M7 4 data set name w M7 5 data reference M7 6 buffer overflow M7 7 Entryld M7 8 BufTm D M7 9 IntgPd E M7 10 GI D M8 Unbuffered report control M8 1 sequence number M8 2 report time stamp M8 3 reason for inclusion M8 4 data set name M8 5 data reference M8 6 BufTm M8 7 IntgPd M8 8 Gl Mg Log Control M9 1 IntgPd M10 Log M11 Control If GSE B31 B32 supported M12 GOOSE M12 1 entryID M12 2 DataRefinc M13 GSSE If SVC B41 B42 supported M14 Multicast SVC M15 Unicast SVC Other M16 Time M17 File Transfer PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server D The information model is defined by parts 7 3 and 7 4 of IEC 61850 It provides m the specification of the Logical Nodes used to model substation devices and functions m the specification of Common Data Classes and Common Data Attribute Classes used in the Logical Nodes Note M mandatory field
63. clock of Modbus devices like Sepam Easergy T200 Micrologic TeSys T Circuit Monitor CM4 and Power Meter PM8 Note For Sepam devices time synchronization must be set up on Sepam to the communication channel linked to G3200 Procedure Action Result 1 From the Setup page click SNTP Opens the SNTP Parameters page Parameters 2 Check Enable SNTP to turn ON the simple network time protocol Activates SNTP 3 Enter the time offset from UTC of your Enters the time zone location 4 Check Enable DST to turn ON the Daylight Saving Time summer Time feature Activates Daylight Saving Time 5 Enter the time offset for Daylight Saving Time Enters DST time offset start time and end and the start and end time time 6 Enter the IP address of the primary or only Enters the address of the SNTP server s SNTP server If available enter the IP address of a secondary server to be used if the primary one is not responding 7 Enter the poll interval between two requests Enters poll interval to the server 8 Click Apply Saves the SNTP settings Setting descriptions Option Enable SNTP Description Enables the time and date of the G3200 to be set by the Simple Network Time Protocol SNTP server Setting Default not enabled Time Zone Offset Determines the difference between local time and Coordinated Universal Time UTC same as GMT UTC 12 to UTC 13 Defau
64. communicates correctly with the G3200 the corresponding logical device mode given by LLNO Mod is always ON Protection logical nodes Protection logical nodes are OFF Mod attribute if the corresponding protection function is turned OFF in the Sepam and Micrologic units Some Protection Logical Nodes require a mandatory Str Start attribute As such information is unavailable in Sepam and Micrologic devices it is always provided as an OFF state and invalid quality Breaker related Logical Nodes Breaker related logical nodes CSWI1 and XCBR1 rely on the breaker control function being turned ON in the Sepam and Micrologic devices In Easergy T200 units the logical nodes CSWI1 and XSWI1 provide the switch control function Controls In order to be executed controls must be enabled in the Modbus device This is the case if the Loc attribute available in every logical node containing controls is OFF Analog values Measurements Units Measurements are provided as floating point values with the following units Measurement type Units Current 1A Voltage 1V Power 1 kW 1 kVA 1 kvar Energy 1 kWh 1 kVArh Temperature 1 C Angle 1 Rate 1 Deadbands Default deadband values are provided in the CID file These values can be changed Unlike specified in IEC 61850 7 3 deadband values are not expressed as but they are integer values in physical units which are described in the CID file Electric
65. cters Community Name access to the MIB Acts as a password Default private PLSED309028EN 12 2010 PE80121 PowerLogic G3200 Modbus to IEC 61850 Server SNTP Parameters Enable SNTP v Time Zone Offset UTC 01 00 Enable Daylight Saving Time v DST Offset 50 mn DST starts Last v Sunday of March DST ends Last v Sunday ze of October SNTP Servers Primary Server IP Address 10 195 132 24 Secondary Server IP Address 10 1195 132 25 Ya 200 Mat 300 e Poll Interval 1 Minutes SNTP Parameters page PLSED309028EN 12 2010 Installation and configuration Configuration SNTP parameters SNTP is the time synchronization method required by IEC 61850 to synchronize the internal clock It is used in mode 3 4 unicast mode The Enable SNTP setting forces synchronization between the internal clock of the G3200 and the SNTP server clock In addition it forces synchronization between the G3200 clock and the Modbus device s clock m f SNTP is turned OFF neither the internal clock of the G3200 nor the Modbus devices are synchronized If effective time stamping is needed time synchronization must be provided to the Modbus devices by other means G3200 time is meaningless in this case m f SNTP is turned ON the G3200 internal clock is synchronized to the SNTP clock server and the G3200 uses the appropriate Modbus request to synchronize the
66. ction of the ICD file of the IED to inside the lt DataTypeTemplates gt section of the CID file 8 If you need to connect more than one IED append the lt LDevice gt and lt DataTypeTemplates gt of the additional IED below the corresponding sections in the CID file you are editing Increment the logical device inst for successive IEDs 9 Save the CID file with the desired name The SFT850 adds the MD2 key in the third line of the file The CID file is ready for use When your CID file is ready you can download it into the G3200 See Download of CID file page 19 48 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server Tag LDevice level private tags Appendix A Specific syntax and rules for mapping Modbus devices Private tags An ICD file describes the capabilities of an IED in terms of the data objects and the services that are supported by the device The ICD files for the products connected to the G3200 must follow the same syntax schema and structure described by the IEC 61850 standard Schneider Electric also provides certain rules and syntaxes to map the Modbus devices to the IEC 61850 server This appendix contains these rules which describe how to map the Modbus register objects into corresponding IEC 61850 data objects The rules are encoded inside the private tags identified as lt Private type SchneiderElectric gt Tag value lt Private gt where m brown text indicates the name
67. d see Access control configuration page 14 G3200 web page Description See Setup Ethernet amp TCP IP Configure Ethernet and TCP IP communication settings page 13 Serial Port Set up or change serial communication parameters page 14 TCP IP Filtering Set up which IP addresses can access the G3200 page 15 SNMP Parameters Enable and configure the Simple Network Management page 16 Protocol SNMP which allows the G3200 to identify to network devices requesting SNMP data SNTP Parameters Enable and configure the Simple Network Time Protocol page 17 SNTP which allows the G3200 to be time synchronized User Accounts 1 Create and edit groups and users page 14 Web Page Access Select web page access rights for each user group page 15 Diagnostics Communication Displays diagnostic data used to troubleshoot network page 21 statistics problems G3200 Summary Contains information about your specific G3200 including page 23 the serial number manufacturing date Media Access Control MAC address configuration file CID file and the Modbus device connectivity Read Device Registers Allows G3200 administrators to read register datafroma page 24 serial device connected to the G3200 1 Accessible by administrators only 12 Schneider PLSED309028EN 12 2010 PE80046 PowerLogic G3200 Modbus to IEC 61850 Server Ethernet amp TCP IP Ethernet MAC Address 00 80 67 80 67 E9 Media Type
68. d to enter the static IP address of 0 0 0 0 to 255 255 255 255 the G3200 Default 169 254 0 10 Subnet Mask Used to enter the Ethernet IP subnet 0 0 0 0 to 255 255 255 255 mask address of your network Default 255 255 0 0 Used to enter the gateway router IP 0 0 0 0 to 255 255 255 255 address used for wide area network Default 0 0 0 0 WAN communications Default Gateway Allow CID file to override IP parameters Check this box if you want the IP Default not checked parameters contained in the CID file to replace the above configuration Keepalive Timeout value used to test for session 1 to 60 seconds disconnection Default 30 seconds FTP session inactivity Timeout value used to force 30 to 900 seconds timeout disconnection of an inactive FTP Default 30 seconds session Duplicate IP address detection While connected to your network the G3200 publishes its IP address The IP address of the G3200 must be unique on the network it is connected to If it is not unique the Power Status LED repeats a four blink pause pattern Assign a new IP address to the G3200 or to the conflicting device Schneider 13 PE80040 PE80056 PowerLogic G3200 Modbus to IEC 61850 Server Serial Port Physical Inter
69. dicators m G3200 diagnostics web pages Troubleshooting should be done in the following order 1 Check the G3200 connection to Ethernet 2 Check the Modbus subnetwork 3 Check the IEC 61850 configuration G3200 front panel LED indicators Ethernet LEDs 1 LK green LED on network link active 3 2 Flashing green Tx LED G3200 transmission active SI LKO ORS485 3 Flashing green Rx LED G3200 reception active 2 TXO OTX 4 100 green LED ix O ORX elt m On 100 Mbps network speed 100 O 8 m Off 10 Mbps network speed Standard LEDs 5l 6l 7 sl gl 5 Flashing green Rx LED G3200 reception active 6 Flashing green Tx LED G3200 transmission active 7 RS 485 LED network link active m On RS 485 mode m Off RS 232 mode 8 Reset button 9 Power up maintenance LED PLSED309028EN 12 2010 Schneider Electric PowerLogic G3200 Modbus to IEC 61850 Server Symptoms Power Status LED off Installation configuration and troubleshooting Troubleshooting G3200 and Ethernet troubleshooting Possible cause Source power is not applied or is not stable Action Remedy Apply power or check source LED is burned out Check to see if other LEDs operate properly Ethernet LK LED off Proper link is not established 1 Make sure the proper cable is used and connected 2 Make sure the proper media type is selected in the G3200 3 Check the communications setup configuration
70. e DO Sometimes an object includes a sub object instead of directly including attributes In this case the private tag for mapping must be placed at the SDI level In cases where there are many attributes in an object each of which can be independently mapped to the separate Modbus registers apply the attribute level mapping The private mapping tags in this case are placed under the DAI A mapping string is a combination of number of fields each separated by a semicolon Each mapping string is used to inform the G3200 of the scale range size and logic to be applied to the Modbus register s of the designated address so that the raw values in the register s are converted in to the IEC 61850 attribute value of the required type Type string The Type string has to be expressed differently in object level and attribute level mapping Object level An object type field is indicated by the uppercase letter T followed by a colon and two uppercase letters describing the IEC 61850 Common Data Class This field must be present and is used only for mapping Modbus registers at the IEC Data Object level The following table lists the object types currently defined Type IEC 61850 Common Data Class SS SPS Single Point Status DS DPS Double Point Status IS INS Integer Status Integer ES INS Integer Status Enumerated from edition 1 IC INC Integer Status Controllable cont
71. e covered For example the Nameplate of a device can start at address 3201 and can extend up to 20 characters In this case the table must cover up to 3210 m Tables must be exclusive and not overlap For example two different Modbus tables with starting and ending addresses 1000 1008 and 1006 1020 may be better written as one table 1000 1020 m Itis possible to merge several small tables separated by a small distance to make a bigger table even if the new table includes some unwanted registers m The use of priority is not recommended in normal cases but can be useful in specific cases o If the Modbus response of the device is too slow or if the device has too many registers to be accessed the dynamics may need to be optimized Use priority H if a fast response is required for some objects for example UO or apparatus status Use priority L for large tables of data with dynamics that are not very important D Ifthe update frequency of certain application data is more or less important priority can also be used Use H Priority to read important application data more frequently For example breaker status is an important time critical parameter and so it is desirable to give H priority to the Modbus table containing the breaker status register Use L priority for data that has a slow update period on the device for example energy counters with a 10 second update period m The number of high and low priority tables is
72. e device may be in IEEE or IEC mode if the device firmware version is 11 5 or higher If the device firmware version is below 11 5 IEC mode is not supported 2 additional registers must be read to determine which register to read L P 52 1 register Returns the IEEE power factor converted from IEC mode Sepam T XX m R1 u1 L P 52 L P 53 2 registers Returns the IEEE power factor converted from IEC mode as necessary Micrologic T XX m R1 u1 The second input register must be the associated Reactive Power for the m R2 u1 L P 53 Power Factor requested L P 54 2 registers First register R1 reads the magnitude of the power factor PXP TA XX m R1 u1 m R2 0 Second register R2 reads the sign of the power factor 000 L P 54 Unique situations processing codes L P 300 Reserved for future implementation L P 301 Up to 3 registers Used to process health of devices The response is of Integer Status type Generic with values 1 Ok 2 Warning 3 Alarm m For devices with a map for health if if any channel is ON then value 3 else value 1 value 2 is not used m For the G3200 and other devices without a map for health value 1 L P 302 None Default response for Mandatory data objects when no data exists ona_ Generic T XX L P 302 device Returns the following return the value 0 set Quality attribute validity invalid detail Quality bad Reference for Timestamp attribute Device should return time if it can or set Time
73. eTemplates gt the user and referred to by Data Attribute Types PLSED309028EN 12 2010 Schneider 47 P Electric PowerLogic G3200 Creating a CID file Modbus to IEC 61850 Building a CID file from an ICD file Server The procedure below describes a manual method of creating a CID file from an ICD file using the SFT850 editor Note Other types of XML editor can be used to edit the CID file 1 Store in a folder all the ICD files of the Modbus devices to be connected in the IEC 61850 communication network including the ICD file of the G3200 2 In Windows Explorer change the extension of the icd file of the G3200 to cid and open it with SFT850 3 In the SFT editor click Tools gt Preferences m Uncheck Automatic validation at file saving and Automatic validation at file opening m Check Enable XML source editing 4 To edit the file click View gt XML Source 5 Open the ICD file of the IED Modbus device with the SFT850 editor 6 Copy the entire content of the lt LDevice gt lt LDevice gt section of this ICD file of the Modbus device to directly below the lt LDevice gt lt LDevice gt section of the CID file you are editing Note The inst of the LDevice section must be unique for each logical device usually LDO for G3200 and LD1 for the IED The Idinst of the FCDAs under a logical device must be same as the inst of the corresponding logical device 7 Copy the entire content of the lt DataTypeTemplates gt se
74. ect Processing codes are divided into groups based on the type of data to which these rules are applied The table below lists the supported processing codes Group name Logical code range Date time 1 8 Modulo 10K 10 13 Values with bitmasks 20 29 and 226 229 Scaled registers 30 37 Strings 39 Maths operations on scale registers 40 46 Power factor 50 54 Unique situations 300 312 Write 101 103 Logic code Register definition Processing description Device Example of usage support Date time processing codes L P 1 3 sequential registers Register N Generic T A XX m N u3 L P 1 High byte month 1 12 Low byte day 1 31 Register N 1 High byte year 0 199 1900 Low byte hour 0 23 Register N 2 High byte minutes 0 59 Low byte seconds 0 59 L P 2 6 sequential registers Register N seconds 0 59 Generic T A XX m N u6 L P 2 Register N 1 minutes 0 59 Register N 2 hours 0 23 Register N 3 day 1 31 Register N 4 month 1 12 Register N 5 year 0 199 1900 L 3 or 4 sequential registers Register N Circuit Monitor T A XX m N u3 L P 3 High byte month 1 12 Power Meter or Low byte day 1 31 T A XX m N u4 L P 3 Register N 1 High byte year 0 199 1900 Low byte hour 0 23 Register N 2 High byte minutes 0 59 Low byte seconds 0 59 Register N 3 msec 0 999 unused L P 4 3 or 4 sequential registers Register N Sepam T A XX m N u3 L P 4 Bits 0 6 year 0 70 2000 2070 71 99 1971 1999 or Register N 1 T A XX m N u4 L P 4
75. ected with the same Modbus address as specified in the CID file m the Logical Device status in the Summary web page is displayed as Wrong type m LLNO Mod and LLNO Beh of the considered Logical Device indicate bad connectivity of the device m IEC 61850 data attached to the corresponding Logical Device keeps its previous value and time stamp If there is no response after three consecutive identification queries from the G3200 m the corresponding Logical Device status is displayed as Offline in the Summary web page m LLNO Mod and LLNO Beh of the considered Logical Device indicate bad connectivity of the device m IEC 61850 data attached to the corresponding Logical Device keeps its previous value and time stamp The lack of response to the identification queries can be a result of m broken Modbus connectivity between the G3200 and the connected device m incorrect RS 485 serial configuration m the Modbus address of the device is different from the one configured Check behavior of G3200 if device model is unknown in CID file If the device model is unknown in the CID file i e the device model series string of the considered LD is set to UNK no device type checking is performed The G3200 assumes that the device type is not described and not checkable The G3200 does perform link connectivity checking periodically by sending the Modbus table read requests with the Modbus address given in the CID file If the G3200 is
76. egister address is reduced by one and then used to read the value from the device In Jbus the register address directly is used to read the value from the device The table below shows the Communication Type of the devices supported by the G3200 Device Communication type Micrologic MODBUS Power Meter MODBUS Circuit Monitor MODBUS ION Meter MODBUS Sepam 2000 JBUS TeSys T JBUS PXP MODBUS Defining the Modbus Register table The Modbus Register table private tag describes a range of contiguous Modbus register addresses that are polled by the G3200 A block of Modbus registers is defined using the private tag lt Private type SchneiderElectric IED MdbTb1 gt StartAddress EndAddress TableType Priority lt Private gt This tag can have multiple occurrences It describes the tables of registers in the device that the G3200 accesses to obtain the features described in the ICD file The tables must cover all the read write registers and coils that appear in the later part of the ICD files The table below shows the content of the Modbus Register table private tag Field name Description Formatting rules Examples StartAddress Modbus starting register address Hexadecimal format C10 EndAddress Modbus ending register address Hexadecimal format C15 TableType Type of Modbus access One of the following single character values SC m Read types o S status values o M measured values m Write types D C control values Priority Defines the relative priori
77. eider PLSED309028EN 12 2010 PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example 1 LDevice section of ION7650 ICD file cont lt DOI name TotVA gt lt Private type SchneiderElectric IED PntRef gt T MV m 224 82 L P 32 lt Private gt lt DAI desc unit 0 1KVA name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt DOI gt lt DOI name TotVAr gt lt DOI gt lt DOI name TotW gt lt DOI gt lt DOI name VAr gt lt SDI name phsA gt lt Private type SchneiderElectric IED PntRef gt T MV m 208 52 L P 32 lt Private gt lt DAI desc unit 0 01KVAr name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt i SDI gt lt SDI name phsB gt lt SDI gt lt SDI name phsC gt lt DOI gt lt DOI name W gt lt SDI name phsA gt lt Private type SchneiderElectric IED PntRef gt T MV m 198 s2 L P 32 lt Private gt lt DAI desc unit 0 01KW name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt SDi gt lt SDI name phsB gt lt SDI gt lt SDI name phsC gt lt SDI gt lt DOI gt LIENS lt LDevice gt PLSED309028EN 12 2010 Schneider d Electric PowerLogic G3200 Modbus to IEC 61850 Server Appendix C Modelling examples Example 2 LDevice section of Easergy T200I ICD file lt LDevice desc EasergyT200I inst L F01_E1V01 lt LNO desc General lt DataSet desc Default Status Da
78. evice List Statistics and Read Device Registers rows Selects the access level for each web page 5 Click Apply Saves the password settings Group access Group Administrator Access Full access to all web pages We recommend that you change the default administrator password for system security the first time you log in Guest Read only access to selected web pages Three user defined groups Choosing from the following options the administrator assigns web page access for each group Access levels are as follows m None a group has no access to selected web page m Read only password grants a group read only access to the selected web page m Full a group has the same access as the Administrator group to the selected web page TCP IP address filtering This function allows the administrator to specify which IEC 61850 clients and Modbus TCP clients such as SFT2841 PowerLogic SCADA or Modicon PLC have access to the G3200 services Note If IP addresses filtering is enabled access is forbidden to any device not in the filtered list Procedure Action 1 From the Setup page click IP Address Filtering Result Opens the IP Address Filtering page 2 Check Enable Filtering Activates filtering TCP IP Filtering page PLSED309028EN 12 2010 3 In the IP address column enter the TCP IP client address Enters an IP address for a TCP IP client that will have acce
79. f analogue value Common data attribute class not supported Range configuration Common data attribute class not supported Step position with transient indication Common data attribute class not supported Pulse configuration Common data attribute class not supported Originator Attribute name Attribute type Value Value range M O C orCat ENUMERATED See IEC 61850 7 3 M orldent OCTET STRING64 M Unit definition Common data attribute class not supported Ctxint Context specific integer The type depends on the data object For Mod Beh Health PhyHealth EEHealth and AutoRecSt data objects the type is ENUMERATED otherwise the type is INT32 Schneider 31 Electric PowerLogic G3200 Modbus to IEC 61850 Server Note M mandatory field O optional field C conditional field H Schneider Capabilities description MICS Model implementation conformance statement Vector definition Attribute name Attribute type mag AnalogueValue Value Value range M O C ang AnalogueValue Point definition Common data attribute class not supported CtlModels definition Attribute value status only Comment not controllable SPC DPC and INC direct with normal security controllable SPC and INC direct with enhanced security not supported sbo with normal security not supported sbo with enhanced security controllable DPC SboClasses definition Attribute value operate once Co
80. face R5485 4 wire v Baud Rate 19200 v Parity Even v Response Timeout 250 ms v Apply Serial Port page User Accounts Groups Engineering Operations Maintenance Users Name Password Group Language eeceeee English ben kee Administrators v English v hota zeen Operations Spanish Maintenance English v Maintenance English 9 Maintenance English Maintenance English v Maintenance Engish Maintenance English Maintenance English Maintenance English Maintenance Engish English User Accounts page 14 Schneider d Electric Installation and configuration Configuration Serial port configuration Procedure Action 1 From the Setup page click Serial Port Result Opens the Serial Port page 2 Select your mode physical interface transmission mode baud rate parity and response timeout see table below Selects the serial port options 3 Click Apply Updates the G3200 Serial Port settings Description of serial port settings Option Description Physical Interface port is physically wired Used to select how the G3200 serial Setting RS 485 4 wire RS 485 2 wire Default RS 485 2 wire Baud Rate Used to select the data transmission 9600 19200 38400 speed over the serial connection Default 19200 Parity Used to select which parity bit is used Even Odd for checking data Default Even Response Timeout device Def
81. gister value after applying the scale and offset as follows m Output scale register value offset m Offset is always a signed value m By default and if not explicitly mentioned scale 1 0 and offset 0 Scale can be expressed in 3 different ways m Scale can be a floating value Example scale 0 33 m Scale can be expressed by using N P where P is a signed integer In this case scale 10 P Example for N 3 scale 10 3 0 001 m The Scale factors themselves can be stored in some registers of the device In these cases the scale is represented as R ScalingRegister In this case scale 10 value of ScalingRegister Example for R 3209 scale 10 value in the register 3209 The lower and upper bounds are used to define the acceptable range of values from a Modbus data point m lowerBound defines the lowest valid value for the Modbus reference E upperBound defines the highest valid value for the Modbus reference Either one of these bounds or both together can be applied on the Modbus reference Note The sign of the lowerbound and upperbound must be same as the sign convention of the Modbus point Processing codes Processing codes are given in a separate appendix See Processing codes page 59 Electric Schneider 55 PowerLogic G3200 Appendix A Modbus to IEC 61850 Specific syntax and rules for mapping Server Modbus devices Alarm mapping description An alarm is a notification of a certain
82. hneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server lt DOI name RsMaxA gt Appendix C Modelling examples Example of control point coils Control points are used to control by setting or clearing a flag in the register For example Control coil C883 is used to Reset the Maximum currents m Type for Single point control control only is T SN m Register description O Coil register is C D address is C883 Map would look like T SN C C883 lt Private type SchneiderElectric IED PntRef gt T SN C C883 lt Private gt lt DOI gt lt DOI name Mod gt Example of common logical node Mandatory common logical node data are Mod Beh Health and Nameplate For example Mod of a logical node is available with a status coil register COCF m Type for Integer Status control control only is T IO m Register description O Status register is S D address is C9CF m Processing code for Mod for LLNO is L P 305 Map would look like T 10 S C9CF L P 305 lt Private type SchneiderElectric IED PntRef gt T 10 S C9CF L P 305 lt Private gt lt DOI gt lt DOI name Str gt Example NA no mapping Default response for Mandatory data objects when no data exists on a device can be mapped using L P 302 For example under PTUV logical node both Str and Op are mandatory data objects If no data exists on a device Str can be mapped m Str Start is Activation Directional
83. hneiderElectric IED PntRef gt T SS m 669 2 A L P 26 lt Private gt lt DOI gt lt DOI name Pos gt Example of DS breaker position Breaker Position status is a double point status and can have four different modes When the breaker position is mapped to Oth bit of the register 661 and the bit is 0 breaker is in OFF state if the bit is 1 breaker is in ON state m Type for Double status is T DS Register description Holding register is m address is 661 ones bitmask is 1 mask for 1st bit in hexadecimal Processing code is L P 27 BOcOdsd Map looks like T DS m 661 1 L P 27 lt Private type SchneiderElectric IED PntRef gt T DS m 661 1 L P 27 lt Private gt lt DOI gt PLSED309028EN 12 2010 Schneider 67 Electric PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example of UO The I O type analog or digital must be known to map I Os Mapping Standard Discrete Output I O point with base address 4300 and status of LocKey is given by Oth bit of 4312 m Type for single status is T SS m Register description o Holding register is m o address is 4300 m Register description2 D Holding register is m o address is 4312 D ones bitmask is 1 mask for 1st bit in hexadecimal m Processing code for Digital output SS is L P 23 Map would look like T SS m 4300 m 431 2 1 L P 23 lt LN desc General IO inst 1 InClass GGIO InType SE_GGIO PM8 VO01 prefix gt
84. imal format m 2zzz is zeros mask in hexadecimal format and m N l indicates positive or negative logic i e normal or inverted If absent treat as normal logic The table below gives the Output values of the IEC 61850 attribute according to the bit masking If and if then Output only ones mask 0000 register value AND oooo is the same as 0000 value 1 is present only ones mask 0000 register value AND oooo is not the same as 0000 value 0 is present only zeros mask zzzz register value AND zzzz is 0 1 is present only zeros mask zzzz register value AND zzzz is not 0 0 is present both masks are present register value AND oooo is the same as 1 0000 amp amp register value AND zzzz 0 both masks are present register value AND 0000 is not the same as 0 0000 or register value AND zzzz 0 2 Size Scaling Offset and Boundary checking If RegisterType is m M then optional field for scaling and offset looks like size scale lowerBound JupperBound O offset Size can be expressed in 2 ways m Bits with upper case letters 32U 32S 16U 16S m Register size from u1 to u10 or s1 to s10 where m 32U represents unsigned data in the 32 bit register m 16S represents signed data in the 16 bit register m si is a signed 16 bit register one register m u2 is an unsigned 32 bit register two 16 bit registers m u10 is ten unsigned 16 bit contiguous registers The output is calculated from the re
85. ion is unchecked default setting and applied in the Ethernet amp TCP IP web page the G3200 reboots with the IP parameters set in the web page Schneider 11 PE80493 PowerLogic G3200 Installation and configuration Modbus to IEC 61850 Configuration Server Accessing the G3200 over a network After you have set up the Ethernet parameters you can access the G3200 over an Ethernet LAN using Internet Explorer 6 0 or higher Schneider Logging into the G3200 Action Result 1 Launch Internet Explorer 6 0 or higher Opens Internet Explorer 2 Inthe Address text box type the address of Opens the Login dialog box your G3200 169 254 0 10 is the default then press Enter 3 Type your Username Administrator is the Enters the Username and Password then default and Password G3200 is the default into opens the G3200 home page the text boxes then click OK 4 Click Setup to access the G3200 setup page or Opens the Setup or Diagnostics pages click Diagnostics to access the G3200 diagnostics page G3200 home page Logging Out We recommend logging out whenever you do not need access to the G3200 To log out of the G3200 configuration session click Log Out to end your session G3200 user interface overview The G3200 ships with several pre installed web pages used for G3200 setup configuration and diagnostics see table below for a description of each web page Access to web pages can be restricte
86. ion required current CID file in the G3200 PLSED309028EN 12 2010 Schneider 19 PowerLogic G3200 Installation and configuration Modbus to IEC 61850 Download of CID file Server Modbus device connection checking As soon as the G3200 is powered on and its CID file checked the G3200 attempts to connect to each Modbus device and verify its type This test is performed periodically so that any change in the RS 485 link is detected immediately The check performed and results obtained depend on whether the device model is set in the CID file Check behavior of G3200 if device model is set in CID file If the device model is set in the CID file i e the device model series string of the considered Logical Device is not set to UNK the G3200 attempts to retrieve the ID from the Modbus device and compare it to the configuration field content defined in the corresponding Logical Device in the CID file See Defining Device Model strings page 50 If the result of the comparison is satisfactory both the expected and the actual result derived from the retrieved values are the same m the corresponding Logical Device status is made Online in the Summary web page m the G3200 becomes fully operational from an IEC 61850 client for this logical device If the result of this comparison is negative the expected and the actual result derived from the retrieved values are different the G3200 assumes that an incorrect device is conn
87. ission active m Flashing green Rx LED G3200 reception active Ethernet LEDs m LK green LED on network link active m Flashing green Tx LED G3200 transmission active m Flashing green Rx LED G3200 reception active m 100 green LED D On 100 Mbps network speed D Off 10 Mbps network speed 10 100 Base Tx port for Ethernet connection by RJ45 connector Connection of the 24 V DC supply Reset button RS 485 connection RS 485 parameter setting selector switches RS 232 connection PLSED309028EN 12 2010 PE80063 DE80263 Installation and configuration Installation Preparation for installation This section contains information useful for preparing the installation of the G3200 Description 1 Dime mm 21314 5 pene TRRRERERES PILLE pEEREReee HHC HA Ro DE Won II nsions 7 819 oboo ooo Electric Schneider 7 PowerLogic G3200 Installation and configuration Modbus to IEC 61850 Installation Server Characteristics PowerLogic G3200 Technical characteristics Weight 0 17 kg 0 37 Ib Assembly On symmetrical DIN rail Power supply Voltage 24 V DC 10 supplied by a class 2 power supply Maximum consumption 4W Dielectric withstand 1 5 kV Environmental characteristics Operating temperature 25 C to 70 C 13 F to 158 F Storage temperature 40 C to 85 C 40 F to 185 F H
88. it contains the configuration of the communication data for all the Modbus devices connected to a G3200 The build of the CID file can be performed off line See Creating a CID file page 44 If required tools are available on board for monitoring tuning and troubleshooting the product See Monitoring and troubleshooting page 21 Installing the hardware Installation of the hardware involves mounting the G3200 and wiring it to the RS 485 network See Installation page 7 Configuring the communication services Configuration of the communication services involves configuring the G3200 Ethernet and Modbus communication capabilities This process includes configuration of the Ethernet port and IP based protocols IP address security clock management etc It also includes the configuration of the Modbus Master port See Configuration page 10 Downloading the configuration file CID into the G3200 Downloading the appropriate CID file into the selected G3200 is the final step in making the G3200 ready for IEC 61850 communication To ensure the correct operation of the CID file it is checked by the G3200 before being taken into account See Download of CID file page 19 6 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server 4 OO JO u op LED power up maintenance Standard LEDs m RS 485 LED network link active D On RS 485 mode D Off RS 232 mode m Flashing green Tx LED G3200 transm
89. ith bitmask processing codes L P 20 2 registers First register R1 100 199 inclusive indicates that this is a digital input Generic PL Digital Input SS register T XX m R1 m R2 0000 Second register R2 is bit masked to test for either ones and or zeros zzzz N I L P 20 Used to get single bit status of a register Bit position given by the bitmask 1 s bitmask checks for one in the bit position and O s bitmask checks for zero in the bit position L P 21 2 registers Same as PL Digital Input SS except Generic PL Digital Input DS m Inversion will invert only OFF and ON states T XX m R1 m R2 0000 m If the register read provides a 0 it is converted to 01 OFF zzzz N I L P 21 m Ifthe register read provides a 1 it is converted to a 10 ON Result is 0 intermediate 1 OFF 2 ON 3 bad state L P 22 2 registers Same as PL Digital Input SS except Generic T XX m R1 m R2 0000 This result can be inverted zzzz N I L P 22 Result is 0 false 1 true L P 23 2 registers First register R1 200 299 inclusive indicates that this is a digital output Generic PL Digital Output SS register T XX m R1 m R2 0000 Second register R2 is masked to test for either one 1 or one 0 zzzz N I L P 23 Result is 0 OFF and 1 ON L P 24 2 registers Same as PL Digital Output SS except Generic PL Digital Output DS m Inversion will invert only OFF and ON states T XX m R1 m R2 0000 m If the register read provides a 0 it is converted to 01 OFF zzzz
90. lt UTC Enable Daylight Enables the use of Daylight Saving Time Default not enabled Saving Time Summer time DST offset Difference between standard time and 30 or 60 minutes Daylight Saving Time Default none DST starts If enabled DST starts on the selected Default none date DST ends If enabled DST ends on the selected Default none date Primary Server IP Address The IP address of the SNTP server the G3200 contacts for the time message 0 0 0 0 to 255 255 255 255 Default 0 0 0 0 Secondary Server IP Address The IP address of another SNTP server the G3200 contacts in case the primary server is down 0 0 0 0 to 255 255 255 255 Default 0 0 0 0 Poll Interval Controls how often the G3200 contacts the SNTP server for the correct time 10 minutes to 1 day Default 1 hour Schneider 17 PE80106 PE80496 PowerLogic G3200 Modbus to IEC 61850 Server Eu Either the server does not allow anonymous logins or the e mail address was not accepted FTP server 10 195 User name Password After you log on you can add this server to your Favorites and return to it easily 132 122 FTP does not encrypt or encode passwords or data before sending them to the server To protect the security of your passwords and data use Web Folders WebDAV instead Learn more about using Web Folders Log on anonymously v Save password
91. lt Private type SchneiderElectric IED PntRef gt Tag value lt Private gt See Defining Point Reference maps page 53 PLSED309028EN 12 2010 Schneider 49 PowerLogic G3200 Modbus to IEC 61850 Server Schneider d Electric Appendix A Specific syntax and rules for mapping Modbus devices Defining Device Model strings The Device Model private tag contains the information needed to check that the correct Modbus device model is connected at the selected Modbus address The information consists ofthe series ofthe device and its configuration This is done by using the private tag shown below located at the corresponding LD level lt Private type SchneiderElectric IED DevModel gt series configuration lt Private gt The setting of the Device Model string affects the behavior of the G3200 and the management of communication with the Modbus device See Modbus device connection checking page 20 The Device Model string is also used to display the real list of active LDs and active associated status in the G3200 summary web page The series string is used to express the family ofthe device The configuration string is used to express the device type Predefined Device Model strings If the Modbus SL device is already part of the list below the series and configuration fields must be filled in as shown in the table below Device series configurati
92. lue returned by Sepam gt 300 then return the value 0 set Quality attribute validity invalid detailQuality failure This function takes precedence over the dead band db T XX m R1 L P 306 If bit2 result 60Hz If bit1 result 50Hz L P 307 1 register if 0 result 60Hz ION T XX m R1 L P 307 Else if 1 result 50Hz L P 308 1 register if bit3 result 400 Hz Micrologic T XX m R1 L P 308 L P 309 1 register register is compared to a ones mask Micrologic If 1 result ON 1 If 0 result OFF 5 T XX m R1 0000 L P 30 9 L P 310 2 to 4 registers Same as tbds but up to 4 registers is compared to respective ones masks Micrologic then ANDed If 1 result ON 1 If 0 result OFF 5 T XX m R1 0000 m R1 0000 L P 310 L P 312 1 register If 1 result 5 OFF Micrologic If 2 result 1 ON 4 result 3 TEST Write processing codes T XX m R1 L P 312 Write example T SS m 20 C0 L P 101 startingreg 01010000 mask 11000000 ending reg 11000000 L P 101 1 register If the value written to the tag 1 the tag writes the MASK value to the Generic Status Write register Register If the tag is read it checks that the mask is EQUAL to the register if it is then value TRUE else value FALSE L P 102 1 register If the value written to the tag 1 the tag reads the register AND the value Generic Status Write with the bitwise complement of the MASK
93. mment operate many not supported Common data classes The following tables list which attributes is found in each Common Data Class CDC Attributes not found in these tables are optional O or conditional C attributes not supported by the corresponding Modbus devices Mandatory attributes M are always present Single point status SPS Attribute name Attribute type FC M O C Comments stVal BOOLEAN ST M q Quality ST M t TimeStamp ST M dataNs VISIBLE STRING255 EX C for non standard data objects Double point status DPS Common data class not supported Integer status INS Attribute name Attribute type FC MO C Comments stVal OtxInt ST M q Quality ST M t TimeStamp ST M dataNs VISIBLE STRING255 EX C for non standard data objects Protection activation information ACT Attribute name Attribute type FC M O C Comments general BOOLEAN ST M q Quality ST M t TimeStamp ST M Directional protection activation information ACD Attribute name Attribute type FC M O C Comments general BOOLEAN ST M dirGeneral ENUMERATED ST M q Quality ST M t TimeStamp ST M PLSED309028EN 12 2010 PowerLogic G3200 Capabilities description Modbus to IEC 61850 MICS Model implementation Server conformance statement Security violation counting SEC Common data class not supported Binary counter reading BCR Attribute name Attribute type FC M
94. nd Power Meters Analogue deadbanded values status changes and the detected alarms in the PXP Circuit Monitors Power Meters and Micrologic are time stamped at the G3200 level with the G3200 clock The time stamps for the events for example protection trip I O inside the Sepam TeSys T and Easergy T200 devices are taken from the device itself and so time accuracy depends on the device s time management capabilities G3200 features supported for different device types The table below summarizes the features supported for the different types of devices The list of devices given is not exhaustive nor restricted Device name Real time Control Time stamped Time data events at synchronization device level at device level Micrologic A for Masterpact m D and Compact NS Micrologic P H for D D Masterpact and Compact NS PowerLogic Power Meter Series 200 700 PowerLogic Power Meter a E Series 800 Easergy T200 D D D 7 PowerLogic Circuit Monitor m Series 4000 Sepam 2000 PowerLogic ION Series 7000 8000 TeSys T E 7 D PXP 4 Schneider PLSED309028EN 12 2010 DE80611 PowerLogic G3200 Modbus to IEC 61850 Server IEC 61850 application Ethernet Modbus SL IEC 61850 architecture PLSED309028EN 12 2010 Modbus application Legacy SCADA PLC Setting tools dol SnqpoWN device IEC 61850 Modbus TCP device
95. ndary check m Register description2 D Holding register is m O address is1235 o size is ul O scale is N 1 no boundary check m Processing code is L P 32 Map would look like T CM m 1234 u1 R 3209 m 1235 u1 N 1 L P 32 lt LN desc Measurements inst 1 1nClass MMXU InType SE MMXU_ PM8 V001 prefix gt lt DOI name A gt lt SDI name phsC gt lt Private type SchneiderElectric IED PntRef gt T CM m 1234 ul R 3209 m 1235 ul N 1 L P 32 lt Private gt lt DAI desc 1A name db valKind Set gt lt Val gt 1 lt Val gt lt DAI gt lt SDI gt lt DOI gt lt LN gt Example of energy counter For modelling Energy counter variables the IEC tag is MMTR1 SupWh SupWh is available from 4 consecutive Modbus registers starting from 1708 and the value is represented in kWh Type for Energy counter is BCR T BC Register description Holding register is m address is1708 size is u4 no scale unit is KWh Processing code is L P 13 BOOOOdSs Map would look like T BC m 1708 u4 L P 13 lt LN desc Energy counters inst 1 1lnClass MMTR IlnType SE MMTR PMS VOOL prefix gt lt DOI name SupWh gt lt Private type SchneiderElectric IED PntRef gt T BC m 1708 u4 L P 13 lt Private gt lt DOI gt lt LN gt PLSED309028EN 12 2010 Schneider 65 Electric PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example of device time stamp with attribute mapping M
96. nditionMonitoring triggerEvent defineEventAction deleteEventAction alterEventEnrollment reportEventEnrollmentStatus getEventEnrollmentAttributes acknowledgeEventNotification getAlarmSummary getAlarmEnrollmentSummary readJournal writeJournal initializeJournal reportJournalStatus createJournal deleteJournal fileOpen fileRead fileClose fileRename fileDelete fileDirectory unsolicitedStatus informationReport eventNotification attachToEventCondition attachToSemaphore conclude cancel getDataExchangeAttributes exchangeData defineAccessControlList getAccessControlListAttributes reportAccessControlledObjects deleteAccessControlList alterAccessControl reconfigureProgramInvocation x x x x x x x x lt Z lt Z 71000 700 7I0 0 0 7 7 710 0 OD Note M mandatory support O optional support C conditional support I out of scope X must not be supported version compatibility 38 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Capabilities description Modbus to IEC 61850 PICS Protocol implementation Server conformance statement GOOSE service GOOSE conformance Subscriber Publisher M O C Supported M O C Supported GOOSE services Cc Cc SendGOOSEMessage M M GetGoReference O Cc GetGOOSEElementNumber O C
97. neiderElectric IED PntRef gt T SS m 8743 200 L P 26 lt Private gt lt DOI gt Example of single status with Oe bitmask 0 s bitmask checks the 0 in the selected bit position To set the Block open status of Micrologic 1st and 3rd bits of register 669 to zero map using 0 s bitmask m Type for single status is T SS m Register description o Holding register is m O address is 669 D ones bitmask is 0 D zeros bitmask is A mask for 1st and 3rd bits in hexadecimal m Processing code is L P 26 Map would look like T SS m 669 0 A L P 26 lt DOI name BlkOpn gt lt Private type SchneiderElectric IED PntRef gt T SS m 669 0 A L P 26 lt Private gt lt DOI gt 66 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server lt DOI name X gt Appendix C Modelling examples Example of single status with 0 s and 1 s bitmask 1 s bitmask checks the 1 in the selected bit position and O s bitmask checks the 0 in the selected bit position To set the X status of a device 2nd bit of register 669 to one and 1st and 3rd bits of register 669 to zero use both 1 s and 0 s bitmasks m Type for single status is T SS m Register description o Holding register is m O address is 669 D ones bitmask is 2 mask for 2nd bit in hexadecimal D zeros bitmask is A mask for 1st and 3rd bits in hexadecimal m Processing code is L P 26 Map would look like T SS m 669 2 A L P 26 lt Private type Sc
98. ntation Modbus to IEC 61850 G3200 main features Server Modbus serial link communication features The G3200 also supports advanced services such as m identification request to check that the connected device is the right one m time synchronization except PXP ELA ION meter and Power Meter Series 200 700 m TeSys T Sepam and Easergy T200 time stamped events retrieval m PowerLogic Circuit Monitors and Power Meters alarms retrieval m Micrologic alarms retrieval m optimization of RS 485 link bandwidth by defining the refresh rates of Modbus objects received inside the G3200 See Specific syntax and rules for mapping Modbus devices page 49 Secured control support An IEC 61850 client can force some control on the Modbus device using either m Direct control normal security model very similar to the service offered by the Modbus write service m Select Before Operate SBO mechanism providing enhanced security by using a secured handshake between the client and the device to check that the control is requested by the client SBO is handled at the G3200 level Multiple time management The G3200 clock is synchronized from an SNTP clock server on the Ethernet network and receives the UTC time reference The G3200 also has m available settings to manage local time time zone day light saving m ability to synchronize the clock of different types of devices such as Sepam Easergy T200 Circuit Monitors a
99. odels as defined by the IEC 61850 standard to provide direct or secured control operations to the Modbus device Optimized network usage The G3200 optimizes the network usage by using a standard event driven communication service This mechanism overcomes a disadvantage of the Modbus TCP network as typically the master is forced to poll the Modbus slaves to check for any updated information Using the G3200 the device is able to automatically push data only when a selected trigger has been reached Easy integration into IEC 61850 systems The configuration files loaded in to the G3200 and corresponding Modbus devices are IEC 61850 compliant and so are easily manageable by any IEC 61850 system configuration tool Simultaneous support of Modbus TCP and IEC 61850 The G3200 not only provides the communication benefits offered by the IEC 61850 protocol but also ensures inter operability of these devices in a Modbus TCP system 2 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Presentation G3200 main features The G3200 offers compatibility with IEC 61850 6 SCL Substation Configuration Language IEC 61850 7 1 modelling concepts IEC 61850 7 2 ACSI Abstract Communication Service Interface IEC 61850 7 3 common data classes IEC 61850 7 4 Logical Nodes data and attributes IEC 61850 8 1 mapping on Ethernet based communication networks IEC 61850 main features Su
100. of data elements in one Dataset No fixed limit it depends on the available memory Maximum number of persistent Datasets No fixed limit it depends on the available memory Maximum number of non persistent Datasets Not supported PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Capabilities description PIXIT Protocol implementation extra information for testing Reporting model Item Recommended predefined RCBs in the ICD files Value Comments m 2status RCBs LLNO brcbST01 and LLNO brcbST02 based on LLNO StDs m 2 measurands RCBs LLNO brcbMX01 and LLNO brcbMX02 based on LLNO StMx in each Modbus Logical Device Support of trigger conditions Integrity Supported Data change Supported Data update Supported can be set but there is no process data to report for this condition Quality change Supported General interrogation Supported Support of optional fields Sequence number Supported Report time stamp Supported Reason for inclusion Supported Dataset name Supported Data reference Supported Buffer overflow Supported EntryID Supported Conf rev Supported Segmentation Supported Sending of segmented reports Supported EntryID Only the first 4 octets are used Remaining octets must be 0 Buffer size for each BRCB 30000 octets Control model Item Control models supported
101. of the XML tag m red text indicates the name of the XML attribute m blue text indicates the value of the XML attribute which is always enclosed between inverted commas m black text indicates the value of the XML tag The table below lists the private tags that occur at different levels of the SCL schema Tag value lt Private type SchneiderElectric SFT IcdFileName gt Tag value lt Private gt Name of the ICD file lt Private type SchneiderElectric SFT IedVersion gt Tag value lt Private gt IED version if any lt Private type SchneiderElectric SFT IedName gt Tag value lt Private gt Name of the IED lt Private type SchneiderElectric SFT IedFamily gt Tag value lt Private gt Name of the IED family if any lt Private type SchneiderElectric SFT IedAppli gt Tag value lt Private gt Name of the application or configuration or use case of the product lt Private type SchneiderElectric IED DevModel gt Tag value lt Private gt See Defining Device Model strings page 50 lt Private type SchneiderElectric IED CommType gt Tag value lt Private gt See Defining Communication Type strings page 51 lt Private type SchneiderElectric IED MdbAddr gt Tag value lt Private gt Modbus address assigned to the IED from the range of 1 247 lt Private type SchneiderElectric IED MdbTbl gt Tag value lt Private gt See Defining the Modbus Register table page 51 DOI SDI DAI level Private Tags
102. ogical devices Name The MD2 key evaluation of the CID file is disabled during the FTP session To enable this click the button Enable Name of the logical device built from the configuration file Label Label of the device Modbus device label or G3200 system name Type Type of the device as declared in the configuration file Address Modbus address of the device as declared in the configuration file Status m Offline the declared device does not respond to G3200 Date and time Last Successful Time Synchronization UTC requests m Wrong type the device at this address is not of the expected type m Init the device database is being initialized m Online the device is operational m Bad Conf there is an error in the configuration file the device is ignored See Defining Device Model strings page 50 Displays the last time the G3200 successfully contacted the SNTP server UTC time G3200 Date and Time UTC Current time and date of the G3200 UTC time G3200 Date and Time local Current time and date of the G3200 local time Scheider 23 PE80054 PowerLogic G3200 Modbus to IEC 61850 Server Device ID 1 Register Read Device Registers Starting Register Number Of Registers 1000 10 Value Read Holding Registers Read Input Registers Decimal Hexadecimal Binary ASCII Monitoring and troublesho
103. on Micrologic ELA ELA5 0 ELP ELP6 0 ELH ELH7 0 Power Meter 800 PM810 800 PM820 800 PM850 800 PM870 700 PM710 700 PM750 200 PM210 Circuit Monitor 4000 CM4000 4000 CM4250 ION Meter 7300 ION7300 7550 ION7550 7650 ION7650 8600 ION8600 8800 ION8800 7500 ION7500 7600 ION7600 Easergy T200 T200 T200 Sepam 2000 2000 S25 2000 S26 2000 35 2000 S36 2000 S46 TeSys T TeSysT LTMRO8MBD TeSysT LTMR27MBD TeSysT LTMR100MBD PXP PXP PXP The G3200 automatically ensures that the correct Modbus device type is connected at the selected Modbus address Unknown Device Model strings If the device is not in the above table then series must be equal to UNK and configuration can be filled by a string maximum length 8 characters describing the corresponding device type The G3200 does not perform any tests to verify that the connected device matches the expected type given in the CID file Device series configuration Unknown device UNK Name of the device type PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Appendix A Specific syntax and rules for mapping Server Modbus devices Defining Communication Type strings The Communication Type private tag indicates the type of communication supported by the device Its syntax is as follows lt Private type SchneiderElectric IED CommType gt Communication type lt Private gt The Communication Type should be either MODBUS or JBUS In Modbus the r
104. ontain a value from 3 to 3 and will be used to scale the second register R2 10 R3 L P 31 2 registers First register R1 400 499 inclusive indicates that this is a analog output Generic T register A XX m R1 u1 m R2 u1 Second register R2 is treated as a signed value L P 31 L P 32 1 or 2 sequential registers For a single register treated as a signed value from Generic T A XX m R1 u1 L P 32 32 767 to 32 767 32768 will result in a NA Or T A XX m R1 u2 L P 32 For two registers the registers will be concatenated together the first Or register filling bits 16 32 and the second register filling bits 0 15 Values T A XX m R1 u1 m R2 will range from 2 147 483 648 to 2 147 483 647 ul Values can be scaled using a fixed scale or a scale register m R3 u1 m R4 u1 L P 3 2 only for Sepam 2000 L P 33 1 or 2 sequential registers For a single register treated as an unsigned value from 0 to 65 535 Generic T A XX m R1 u1 L P 33 Or For two registers the registers will be concatenated together the first T A XX m R1 u2 L P 33 register filling bits 16 32 and the second register filling bits 0 15 Values Or will range from 0 to 4 294 967 295 T A XX m R1 u1 m R2 Values can be scaled using a fixed scale or a scale register ul For Sepam value Ox7FFF is Invalid m R3 u1 m R4 u1 L P 3 3 only for Sepam 2000 L P 34 1 or 2 sequential registers Same as Scaled Register except that a single register with value 32768 Generic T A XX m R1 u1 L P 34
105. ontains only G3200 Modbus to IEC 61850 Server LLNO and LPHD logical nodes 63200 TD LDZ m A logical device for each Modbus device connected to the G3200 The content of this logical device is defined by the device type as described by its ICD file Proxy 0 Proxy 1 Proxy 1 The PROXY attribute of the LPHD logical node is set to TRUE for logical devices representing the connected Modbus devices Ethernet Modbus SL a e Logical devices names The name of the logical devices is freely assigned at configuration time using Device 1 Device 2 __ Device n SFT850 tools except for the G3200 logical device which has a fixed name of G3200 G3200 logical devices Logical nodes The following LNs are mandatory for all the logical devices The logical nodes corresponding to the electrical functions of the Modbus device have to be added with their attributes according to the modelling rules See Specific syntax and rules for mapping Modbus devices page 49 System logical nodes L group Physical device information LPHD class Attribute name Attribute type Explanation Value T M O C E G3200 Connected Modbus device LNName Object Name LPHD1 M D PhyName DPL Physical device name plate M D D PhyHealth INS Physical device health M D D Proxy SPS Indicates if this LN is a proxy M D D Logical node zero LLNO class Attribute name Att
106. oolID SFT850 v2 0 version 1 gt lt History gt lt Hitem revision 0 version V1 what Draft 1 when 2009 04 01 who SFT850Config gt lt History gt lt Header gt lt Communication gt lt SubNetwork name SN1 gt lt ConnectedAP apName AP1 iedName GW51_ gt lt Address gt lt P type IP xsi type tP_IP gt 10 155 24 146 lt P gt lt P type IP SUBNET xsi type tP_IP SUBNET gt 255 255 255 0 lt P gt lt P type IP GATEWAY xsi type tP IP GATEWAY gt 10 155 24 1 lt P gt lt P type OSI PSEL xsi type tP OSI PSEL gt 00000001 lt P gt lt P type OSI SSEL xsi type tP OSI SSEL gt 0001 lt P gt parameters P type OSI TSEL xsi type tP OSI TSEL gt 0001 lt P gt lt Address gt lt ConnectedAP gt lt SubNetwork gt lt Communication gt G3200 communication PLSED309028EN 12 2010 Schneider 45 PE80519 PowerLogic G3200 Creating a CID file Modbus to IEC 61850 Obtaining or building an ICD file Server IED section The IED section contains the target for which the CID file is made in this case G3200 and a list of the logical devices contained by the server Each Logical Device describes the IEC 61850 database to be created inside the G3200 An example of the contents of an IED section is shown below lt IED configVersion 1 0 desc IEC61850 server for modbus devices manufacturer Schneider Electric name GW51_ owner My Project Id type G3200 Generic server gt lt Private ty
107. or detailed information on how to create your own ICD file m See Specific syntax and rules for mapping Modbus devices page 49 m See Processing codes page 59 m See Modelling examples page 64 The following sections are also useful reading when creating your own ICD file as they contain modelling frame information and examples of typical CID file content Modelling frame information The G3200 is considered as one Logical device that contains two mandatory logical nodes LLNO and LPHD Each of the connected Modbus devices appears as a Logical device in the server In the simplest case one Modbus device is connected to the G3200 However depending on the complexity of the device in terms of Modbus zones and the response time of the device it is possible to connect more than one Modbus device After the G3200 has been configured it can be connected to the IEC 61850 network See Installation page 7 PLSED309028EN 12 2010 PE80517 PE80518 PowerLogic G3200 Creating a CID file Modbus to IEC 61850 Obtaining or building an ICD file Server Typical CID file content ACID file has 3 main sections m a header m an IED section m a data type template An example of the contents of a CID file is shown below lt xml version 1 0 encoding UTF 8 standalone no gt lt SCL xmlns http www iec ch 61850 2003 SCL xmlns exse http www schneider electric com xmlns xsd http www w3 org 2001 XMLSchema xmlns xsi http w
108. oting Diagnostics web pages Read Device Registers Read Device Registers web page can be used to check Modbus communication between the G3200 and Modbus devices Procedure Action 1 From the Diagnostics page click Read Device Registers Result Opens the Read Device Registers page 2 Enter the Device ID Starting Register number and the Number of Registers to read Enters the values to begin reading registers for the specified device 3 Click Read Holding Registers or Read Input Registers Displays the values for the listed registers Read Device Registers page Schneider d Electric 4 To change how the data is displayed in the Value column select Decimal Hexadecimal Binary or ASCII Selects how the data values are displayed G3200 Read Device Register Settings Option Description Default Device ID The address of the device that registers are 1 read Starting Register The first register to read 1000 Number of Registers The number of registers to read 1 to 10 10 Register column Lists the register numbers Value column Lists the data stored in a register Decimal Hexadecimal Select an option to specify how the Value Decimal Binary or ASCII options column data is displayed PLSED309028EN 12 2010 PowerLogic G3200 Monitoring and troubleshooting Modbus to IEC 61850 Troubleshooting Server Troubleshooting makes use of m G3200 front panel LED in
109. owerLogic G3200 Modbus to IEC 61850 Server Schneider d Electric Monitoring and troubleshooting Diagnostics web pages Interpreting statistics cont Statistic IEC 61850 Protocol Errors Description A counter that increments each time areceived request is incorrect or cannot be satisfied Active Connections A status value that represents the number of connections that are active atthe moment the diagnostics web page is refreshed A maximum of 6 connections are supported Clicking Active Connections opens a new window with a list of all of the active client connections Accumulative Connections A counter that increments each time a connection is made to the G3200 Server indications A counter that increments each time the server receives a protocol indication Variable Reads A counter that increments each time the server receives a read variable request Variable Writes A counter that increments each time the server receives a write variable request Information reports Serial port Frames Sent A counter that increments each time the server sends an information report message A counter that increments each time a frame is sent Frames Received A counter that increments each time a frame is received CRC Errors A counter that increments each time a message is received that has a CRC that does not match what is calculated Typically the result of wiring issues
110. pe SchneiderElectric IED Type gt G3200 lt Private gt lt Services gt lt AccessPoint name AP1 gt lt Server gt lt LDevice desc G3200 Log Dev inst LD0 gt This CID file belongs to the G3200 Logical Device lt Private type SchneiderElectric SFT IcdFileName gt G3200 G3200 VO0001 icd Ge lt Private gt ICD file of G3200 EES gt used to create lt Private type SchneiderElectric IED DevModel gt 00 GTW lt Private gt this CID lt Private type SchneiderElectric IED MdbAddr gt 255 lt Private gt FZENOgaSSse Verner an ten Abee ELE better Un ail EE AE G3200 mandatory SE EE LNs prefix gt lt LDevice gt lt LDevice desc Micrologic ELP inst LD1 gt _ Logical Device lt Private type SchneiderElectric SFT IcdFileName gt for Micrologic SE Micrologic_ELP6 0 F01_ E1V01 icd lt Private gt EE E gt DeviceModel string lt Private type SchneiderElectric IED DevModel gt ELP ELP7 0 lt Private gt for Micrologic Communication type for Micrologic Modbus address lt Private type SchneiderElectric IED CommType gt MODBUS lt Private gt lt Private type SchneiderElectric IED MdbAddr gt 47 lt Private gt for Micrologic lt Private type SchneiderElectric IED MdbTb1 gt 246 248 M L lt Private gt Modbus Seege ebe See E SEELEN E EE gege gt table inside lt LNO desc inst InClass LLNO 1nType SE_LLNO Micrologic_VOO1 gt Micrologic lt DataSet desc Default status
111. phsCA CMV Cc Note M mandatory field O optional field C conditional field PLSED309028EN 12 2010 Schneider 33 PowerLogic G3200 Modbus to IEC 61850 Server Note M mandatory field O optional field C conditional field BE Schneider Capabilities description MICS Model implementation conformance statement Sequence SEQ Data name Data class FC M O C Comments cl CMV M c2 CMV M c2 CMV M Harmonic value HMV Common data class not supported Harmonic value for WYE HWYE Common data class not supported Harmonic value for DEL HDEL Common data class not supported Controllable single point SPC Attribute name Attribute type FC M O C Comments ctlVal BOOLEAN co C stVal BOOLEAN ST C q Quality ST C t TimeStamp ST C ctIModel CtlModels CF Cc read only dataNs VISIBLE STRING255 EX Cc for non standard data objects Controllable double point DPC Attribute name Attribute type FC M O C Comments ctlVal BOOLEAN co Cc stVal CODED ENUM ST M q Quality ST M t TimeStamp ST M ctIModel CtlModels CF Cc read only Controllable integer status INC Attribute name Attribute type FC M O C Comments ctlVal OtxInt co Cc stVal Ctxint ST M q Quality ST M t TimeStamp ST M ctIModel CtlModels CF Cc read only Binary controlled step position information BSC Common data class not supported Integer controlled step position information ISC Common dat
112. plementation Conformance Statement describes how the information model is implemented m PICS Protocol Implementation Conformance Statement describes choices made in protocol implementation Many of these choices are implied by the ACSI conformance statement m PIXIT Protocol Implementation eXtra Information for Testing gives any additional implementation specific information not found in the previous standardized documents This information can be useful for operation of the devices Electric Schneider 27 PowerLogic G3200 Modbus to IEC 61850 Server D ACSI The Abstract Communication Services Interface is defined by part 7 2 of IEC 61850 It provides m the specification of a basic information model m the specification of information exchange service models These conformance statement tables are as defined by Annex A of IEC 61850 7 2 Note AA Application Association TP Two Party MC Multi Cast E supported 28 Sehpeider Capabilities description ACSI description ACSI basic conformance statement Client Server Value subscriber publisher comments Client server roles B11 Server side of TWO PARTY B APPLICATION ASSOCIATION B12 Client side of TWO PARTY APPLICATION ASSOCIATION SCSMs supported B21 SCSM IEC 61850 8 1 used D B22 SCSM IEC 61850 9 1 used B23 SCSM IEC 61850 9 2 used B24 SCSM other Transmission of sampled value model SVC B41 Publisher side B42 Sub
113. ply Saves all of the user account settings G3200 accounts and passwords descri ption Account Default Password Administrator default account G3200 Guest default account Guest User defined accounts up to 11 accounts No default Password is user defined possible PLSED309028EN 12 2010 PE80494 PE80495 PowerLogic G3200 Modbus to IEC 61850 Server Web Page Access Engineering Operations Re x Read Maintenance Guest None Web Page Access page TCP IP Filtering Enable Filtering M IP Address m be he fe 10 be ke e 10 be fe be IEC 61850 m Aula nd nand da Modbus TCP m Jun Julie Aufn aga Installation and configuration Configuration Web page access Procedure Action 1 From the Setup page click Web Page Access Result Opens the Web Page Access page 2 In the Ethernet amp TCP IP row select the access level None Read only or Full that each user group will have for the Ethernet amp TCP IP web page See table below for an explanation of access levels for each group 3 To allow Guest access to the web page select Read only under the Guest column if the Guest group is Read only other groups can only be set to Read only or Full Allows the default Guest group to access the web page 4 Repeat steps 2 and 3 for the Serial Port D
114. pport of IEC 61850 modelling concepts The G3200 m supports IEC 61850 standard LNs Logical Nodes data objects and CDCs Common Data Class See MICS Model implementation conformance statement page 31 m provides extended LNs CDCs and data objects to leverage additional features of the Modbus devices m enables the use of configurable data sets and report control blocks to meet the needs of your system Support of IEC 61850 communication services The G3200 supports standard server client mode communication including buffered reports and control services See ACSI description page 28 Modbus translation engine The G3200 supports translation rules for converting the most common data types from a Modbus register base approach to the highly structured and named approach of IEC 61850 m The translation rules are defined within a CID Configured IED Description file using SCL language as a sequence of identifiers that specify the address of the registers format of the register content and logic process codes specifying the mathematical and logic operations to be performed on the register content to convert the data to be IEC 61850 compliant m Data conversion and storage are done by the polling and decoding engine inside the G3200 m At build time the CID file which describes the real capabilities of the Modbus device as well as the translation rules from Modbus to IEC 61850 has to be downloaded into the G3200 to make it oper
115. prefix gt lt DOI name PhyNam gt lt DAI name model valKind Set gt lt Val gt ION7650 lt Val gt lt DAI gt lt DAI desc can be freely used name location valKind Set gt lt Val gt location lt Val gt lt DAI gt lt DOI gt lt DOI name PhyHealth gt lt Private type SchneiderElectric IED PntRef gt T 10 L P 303 lt Private gt lt DOI gt lt DOI name Proxy gt lt Private type SchneiderElectric IED PntRef gt T SS L P 304 lt Private gt lt DOI gt lt LN gt PLSED309028EN 12 2010 Schneider 71 Electric PowerLogic G3200 Appendix C Modbus to IEC 61850 Modelling examples Server Example 1 LDevice section of ION7650 ICD file cont lt LN desc Energy counters inst 1 InClass MMTR 1nType SE_MMTR IONMeter VOOL prefix gt lt DOI name DmdVArh gt lt Private type SchneiderElectric IED PntRef gt T MV m 236 s2 L P 32 lt Private gt lt DOI gt lt DOI name DmdWh gt lt Private type SchneiderElectric IED PntRef gt T MV m 232 32 L P 32 lt Private gt lt DOI gt lt DOI name SupVArh gt lt Private type SchneiderElectric IED PntRef gt T MV m 234 32 L P 32 lt Private gt lt DOI gt lt DOI name SupWh gt lt Private type SchneiderElectric IED PntRef gt T MV m 230 s2 L P 32 lt Private gt lt DOI gt lt LN gt lt LN desc Measurements inst 1 InClass MMXU 1InType SE_MMXU_IONMeter V001 prefix gt lt DOI name
116. r lt Private gt lt Private type SchneiderElectric SFT IedFamily gt ION7650 lt Private gt lt Private type SchneiderElectric SFT IedAppli gt IONMeter lt Private gt lt Private type SchneiderElectric IED DevModel gt 7650 ION7650 lt Private gt lt Private type SchneiderElectric IED MdbAddr gt 1 lt Private gt lt Private type SchneiderElectric IED MdbTb1 gt 96 ED M lt Private gt lt Private type SchneiderElectric IED MdbTb1 gt 106 115 M lt Private gt lt Private type SchneiderElectric IED MdbTb1 gt 112C 112C M lt Private gt lt LNO desc General inst InClass LLNO InType SE_LLNO_IONMeter_v001 gt lt DataSet desc Default status reporting dataset name StDs gt lt FCDA doName DmdVArh fc ST ldInst LDO InClass MMTR InInst 1 prefix gt lt FCDA doName DmdWh fc ST ldInst LDO InClass MMTR InInst 1 prefix gt lt FCDA doName SupVArh fc ST ldInst LDO InClass MMTR 1InInst 1 prefix gt lt FCDA doName SupWh fc ST ldInst LD0 InClass MMTR InInst 1 prefix gt lt DataSet gt lt DataSet desc Default measurands reporting dataset name MxDs gt lt FCDA doName A fc MX ldInst LD0 InClass MMXU InInst 1 prefix gt lt FCDA doName Hz fc MX ldInst LDO InClass MMXU InInst 1 prefix gt lt FCDA doName PF fc MX ldInst LDO InClass MMXU InInst 1 prefix gt lt 2 FCDA doName PhV fc MX ldInst LDO InClass MMXU InInst
117. reporting dataset name StDs gt lt FCDA doName Op fc ST ldInst LD1 InClass PIOC InInst 1 Pataseis ana azeri NSG FCDAs a a Appear only under lt DataSet gt LLNO Buffered Report Control Blocks lt ReportControl bufTime 500 buffered true confRev 1 datSet MxDs Appear only desc Default Status Report intgPd 0 name brcbMX rptID MxRpt gt under LLNO max N for RptEnabled creates the N instances of the report control block lt TrgOps dchg true dupd false period true qchg true gt OptFields bufOvfl false configRef true dataRef true dataSet true entryID true reasonCode true segmentation false seqNum true timeStamp true gt lt RptEnabled max N gt brcbname01 to lt ReportControl gt brcbnameN for a given dataset lt DOI name Mod gt Data Objects lt Private type SchneiderElectric IED PntRef gt T 10 L P 305 lt Private gt attributes lt DOI gt and their Modbus GNSS EES gt mappings Can lt LNO gt appear in all LNs lt LN desc Physical device inst 1 InClass LPHD Logical Node alias NS EETPEDEMITEr SI SEEN TER Fee eS for physical lt LN desc Measurements inst 1 InClass MMXU device InType SE MMXU Micrologic Voo prefix gt lt LN desc inst 1 InClass PTOC InType SE_PTOC Micrologic_v001 ___ Logical Nodes prefix gt representing lt LN desc Circuit breaker inst 1 InClass XCBR the electrica InType SE_XCBR_
118. ribute type Explanation Value T M O C E G3200 Connected Modbus device LNName Object Name LLNO M Common logical node information Mod INC Mode M E E Beh INS Behavior M Health INS Health M NamPIt LPL Name plate M D D Note M mandatory data O optional data C conditional data E extension data T transient data applies only to BOOLEAN attributes with FC ST No event is generated for reporting when changing from TRUE to FALSE 36 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server D The Specific Communication Services Mapping to MMS ISO 9506 and to ISO IEC 8802 3 is defined by part 8 1 of IEC 61850 It provides m the mapping of the objects and services of the ACSI to MMS m the mapping of time critical information exchanges to ISO IEC 8802 3 These conformance tables are taken from chapter 24 of IEC 61850 8 1 Note M mandatory support O optional support C conditional support I out of scope X must not be supported version compatibility PLSED309028EN 12 2010 Capabilities description PICS Protocol implementation conformance statement Profile conformance A Profile support Profile Client Server Comments Al Client server a A2 GOOSE GSE Management A3 GSSE A4 Time sync a T Profile support Profile Client Server Comments T1 TCP IP profile T2 OSI T profile T3 GOOSE GSE T profile T4 GSSE T profile T5 Time Sync T p
119. rofile MMS conformance MMS service supported CBB server M O C Supported status getNameList a identify rename read write getVariableAccessAttributes defineNamedVariable defineScatteredAccess getScatteredAccessAttibutes deleteVariableAccess defineNamedVariableList getNamedVariablesListAttributes Ol olol Oo T TFT OO OF 0 olol zoz deleteNamedVariableList defineNamedType getNamedTypeAttributes deleteNamedType input output takeControl relinquishControl defineSemaphore deleteSemaphore reportPoolSemaphoreStatus reportSemaphoreStatus initialDownloadSequence downloadSegment terminateDownloadSequence initiateUploadSequence uploadSegment terminateUploadSequence requestDomainDownload requestDomainUpload loadDomainContent storeDomainContent deleteDomain getDomain ttributes C E Schneider 37 PowerLogic G3200 Capabilities description Modbus to IEC 61850 PICS Protocol implementation Server conformance statement MMS conformance cont MMS service supported CBB server M O C l Supported createProgramInvocation deleteProgramInvocation start stop resume reset kill getProgramInvocationAttributes obtainFile C defineEventCondition deleteEventCondition getEventConditionAttributes reportEventConditionStatus alterEventCo
120. rol amp status IO INC Integer Status Controllable status only IN INC Integer Status Controllable control only SC SPC Single Point Controllable control amp status so SPC Single Point Controllable status only SN SPC Single Point Controllable control only DC DPC Double Point Controllable control amp status DO DPC Double Point Controllable status only DN DPC Double Point Controllable control only MV MV Measured Value CM CMV Complex Measured Value BC BCR Binary Counter Reading AT ACT ACtivation AD ACD ACtivation Directional ST String UT UTC1 time Electric Schneider 53 PowerLogic G3200 Modbus to IEC 61850 Server 51 Schneider Appendix A Specific syntax and rules for mapping Modbus devices Attribute level The Attribute type field is indicated by the uppercase letter A followed by a colon and two characters describing the IEC 61850 Attribute Type Attributes are defined by the Basic Types listed in the table below in addition the Timestamp and Quality types This field is only used for mapping Modbus registers at the IEC Attribute level It is not possible to have a T xx and an A xx field in the same lt private PntRef gt tag The following table lists the attribute types currently defined Type IEC 61850 Attribute BO BOOLEAN 1 INT8 12 INT16 13 INT24 14 INT128 U1 INT8U U2 INT16U U3 INT24U U4 INT32U
121. s for mapping Modbus devices Power Meter supported commands Command IEC tag Reset Accumulated Energy MMTR1 ZRsTot Reset Alarm Summary LPHD1 ZRsAlmSum Reset Conditional Energy CND_MMTR1 ZRsEnr Reset Device Date Time LPHD1 ZRsDateTm Reset EN50160 Evaluation LPHD1 ZRsENEval Reset Energy Trending LPHD1 ZRsEnrTrend Reset Incremental Energy Interval PILMMTR1 ZRsEnrint Reset Input Metering Accum All Channels GGIO1 ZRsInMtrCh Reset Input Metering Accum Channel 1 GGIO1 ZRsInMtrCh1 Reset Input Metering Accum Channel 2 GGIO1 ZRsInMtrCh2 Reset Input Metering Accum Channel 3 GGIO1 ZRsInMtrCh3 Reset Input Metering Accum Channel 4 GGIO1 ZRsInMtrCh4 Reset Input Metering Accum Channel 5 GGIO1 ZRsInMtrCh5 Reset Meter Initialization LPHD1 ZMtrlnit Reset Min Max Past Month PMO_MSTA1 ZRsMinMax Reset Min Max Present Month CMO_MSTA1 ZRsMinMax Reset Onboard Alarm Log LPHD1 ZRsAlm Reset Onboard Billing Log LPHD1 ZRsBill Reset Onboard Data Log 1 LPHD1 ZRsData1 Reset Onboard Data Log 2 LPHD1 ZRsData2 Reset Onboard Data Log 3 LPHD1 ZRsData3 Reset Peak Demand MSTA1 RsMax Reset Peak Demand Current MSTA1 RsMaxA Reset Peak Demand Power MSTA1 RsMaxPwr Reset Power Quality Summary LPHD1 ZRsPQSum Reset Shift Energy Summary LPHD1 ZRsSESum Reset Uptime Statistics LPHD1 RsStat Reset Trending and Forecasting LPHD1 ZRsTrFor Reset W
122. s one directory for each Modbus Logical Device i e for each Modbus serial device m the backup directory BAK It contains the backup IEC 61850 file if any This file can only be read This file is only kept as an archive It is not used by the G3200 m the G3200 standard configuration file g3200cfg txt This file can be read or written It is checksum protected and must not be modified When written to the device it updates the device parameters except the Ethernet settings m the IEC 61850 configuration file CID if loaded This file can be read or written It is protected and can be modified only with SFT850 or an appropriate XML editor See Building a CID file from an ICD file page 48 Transferring files from the G3200 to the computer Action Result 1 Right click the file you want to download from the Copies the selected file G3200 then click Copy 2 Locate the folder you want to save the copied file Pastes the file into the folder right click in the folder s window then click Paste 3 Repeat steps 1 and 2 if you want to copy other files Continues to copy files from the G3200 from the G3200 4 Click the Close button on the Internet Explorer Closes Internet Explorer and ends the window FTP connection to the G3200 Transferring files from the computer to the G3200 Writable files are transferred to the G3200 as described above inverting source and destination folders PLSED309028EN 12 2010 PE8046
123. scriber side ACSI service conformance statement Services AA Client Server Value TP MC subscriber publisher comments Server Clause 6 S1 ServerDirectory TP B Application association Clause 7 S2 Associate S3 Abort S4 Release Logical device Clause 8 S5 LogicalDeviceDirectory TP Logical node Clause 9 S6 LogicalNodeDirectory TP S7 GetAllDataValues TP Data Clause 10 S8 GetDataValues TP 7 sg SetDataValues TP S10 GetDataDirectory TP 11 GetDataDefinition TP D Data set Clause 11 12 GetDataSetValues TP S13 SetDataSetValues TP S14 CreateDataSet TP S15 DeleteDataSet TP S16 GetDataSetDirectory TP 7 Substitution Clause 12 S17 SetDataValues TP Setting group control Clause 13 S18 SelectActiveSG TP S19 SelectEditSG TP S20 SetSGValues TP S21 ConfirmEditSGValues TP S22 GetSGValues TP S23 GetSGCBValues TP 7 PLSED309028EN 12 2010 PowerLogic G3200 Capabilities description Modbus to IEC 61850 ACSI conformance statement Server ACSI service conformance statement cont Services AR Client Server Value TP MC subscriber publisher comments Reporting Clause 14 Buffered Report Control Block BRCB S24 Report TP S24 1 data change dchg S24 2 quality change dchg S24 3 data update dupd S25 GetBRCBValues TP D S26 SetBRCBValues TP D Unbuffered Report Control Block URCB S27 Report TP
124. session To obtain the cause and how to solve the error log into the advanced diagnostic web page of the G3200 and view the last log entry listed at the following address http lt lt G3200 IP Address gt gt InfoLog htm The table below lists the most common error messages encountered their possible cause and suggested way to resolve them Error message Possible cause of error Suggested solution CID file download failed Wrong MD2 key The CID file contents have been modified Open the file with SFT850 and re generate the MD2 key To do manually but the MD2 key has not been so make some changes to the file undo them and save the file updated in SFT850 This action generates the latest MD2 key in the file CID file download failed File too big The size of the CID file is over 1MB Reduce the size of the CID file to under 1MB CID file download failed File not intended for G3200 A CID file that does not belong to G3200 Ensure that the tag SchneiderElectric IED Type always has has been loaded the value G3200 CID file download failed Unable to write into flash The memory in the G3200 is corrupt Retry the operation before contacting the sales team memory CID file download failed Not an SCL file A file other than a SCL file has been loaded Ensure that the file being loaded is a SCL file into the G3200 CID file download failed File already exists in G3200 The file being downloaded is already the No act
125. ss to the IEC 61850 server or to the Modbus TCP link or both 4 In the IEC 61850 and Modbus TCP link columns check what applies Selects the access level for the corresponding IP address Modbus TCP link IEC 61850 or both 5 Repeat steps 3 and 4 to add more IP addresses Continues adding IP addresses for filtering 6 Click Apply Saves the IP address filtering list G3200 behavior when IP address filtering of IEC 61850 client is activated If IP filtering is enabled access is forbidden to any IEC 61850 client not in the filtered list Any new connections attempted by a client with the restricted IP address will fail and no IEC 61850 data access is possible with the G3200 The failed connection resulting from IP address filtering is reported at the TCP level as a response timed out error To obtain confirmation that the error is related to IP address filtering log into the web page and check that the IP address is blocked Schneider 15 PE80055 PowerLogic G3200 Modbus to IEC 61850 Server SNMP Parameters Enable SNMP jw System Contact John Smith System Name Gateway System Location Manufacturing Read only Community Name public Read write Community Name private Installation and configuration Configuration Configuring additional features SNMP parameters The G3200 supports SNMP allowing a network administrator to remotely access it with an SNMP manager
126. stamp attribute as follows in Time Quality set Clock Failure TRUE 62 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Appendix B Modbus to IEC 61850 Processing codes Server Logic code Register definition Processing description Device support Unique situations processing codes cont L P 303 Up to 3 registers Used to process physical health of the device Generic Register allocation and interpretation is implementation specific The response is of Integer Status type with values 1 Ok 2 Warning 3 Alarm An example implementation is shown below m For PowerLogic G3200 value 1 m For other devices If communication with device is On line then value 1 else value 3 Example of usage L P 304 None Used to process proxy Data The response is of Integer Status type Generic if logical device is PowerLogic G3200 then value FALSE else value TRUE case of all other devices L P 305 0 or 1 registers Used to process Mod Data Generic Register allocation and interpretation is implementation specific The response is of Integer Status type with values 1 on 2 blocked 3 test 4 test blocked 5 off gt An example implementation is shown below m For PowerLogic G3200 value 1 m For other devices if communication with device is On line then value 1 else value 5 values 2 3 and 4 are not used L P 306 1 register Use to process temperature Data as follows Sepam if va
127. such as setting tools legacy SCADA or RTU Controllers G3200 performance indicators for different device types The table below gives performance indicators for different types of devices The figures are given as an indication only performance levels can vary depending on the chosen architecture Device name Typical Typical time Typical response delay stamping number of of Modbus accuracy devices device Micrologic A for Masterpact and 80 ms N A 2 Compact NS Micrologic P H for Masterpact and 110 ms 630 ms 1 Compact NS PowerLogic Power Meter 12 ms N A 2 Series 200 700 PowerLogic Power Meter 7ms 1000 ms 1 Series 800 Easergy T200 12 ms 805 ms 3 PowerLogic Circuit Monitor 3 5 ms 1000 ms 1 Series 4000 PowerLogic ION 24 ms N A 2 Series 7000 8000 Sepam 2000 3 ms N A 2 TeSys T 8 ms 1000 ms 1 PXP 104 8 ms N A 2 Note N A feature not available with this device Schneider 5 Electric PowerLogic G3200 Installation and configuration Modbus to IEC 61850 Implementation steps Server The installation and configuration of the G3200 server itself involves the following 3 main steps m Installing the hardware m Configuring the communication services Downloadi f th i fi ion fil ID into the G3200 The availability of a configuration file CID is a pre m Downloading ofthe appropriate configuration file CID Into ie requisite for G3200 implementation The CID file is essential as
128. t DOI gt lt LN gt lt LN desc I O for T2001 inst 1 InClass GGIO 1nType SE_GGIO_T200I_VOOL1 prefix gt lt DOI name Ind1 gt lt Private type SchneiderElectric IED PntRef gt T SS s 912 lt Private gt lt DOI gt lt LN gt lt LN desc Measurements inst 1 InClass MMXU 1InType SE_MMXU_T200I_VOO1 prefix gt lt DOI name zAvMes gt lt Private type SchneiderElectric IED PntRef gt T MV m 64 ul N 1 L P 32 lt Private gt lt DOI gt lt LN gt lt LN desc Medium Voltage Presence for T200I inst 1 InClass SMVP InType SE_SMVP_T200I_VO001 prefix gt lt DOI name Op gt lt Private type SchneiderElectric IED PntRef gt T AT s 914 lt Private gt lt DOI gt lt LN gt lt LN desc Overcurrent Phase Fault Detection for T2001 inst 1 InClass SFOC InType SE_SFOC_T2001_V001 prefix SPh_ gt lt DOI name Op gt lt Private type SchneiderElectric IED PntRef gt T AT s 896 lt Private gt lt DOI gt lt DOI name RsFlt gt lt Private type SchneiderElectric IED PntRef gt T DN c 802 lt Private gt lt DOI gt lt DOI name RsFltSt gt lt Private type SchneiderElectric IED PntRef gt T DS s 866 lt Private gt lt DOI gt lt LN gt lt LN desc Overcurrent Earth Fault Detection for lnType SE_SFOC_T200I_V001 prefix SEF_ gt T2001 inst 2 InClass SFOC lt LN gt lt LN desc Medium Voltage Presence for T200I inst 1 InClass ZBTC InType SE_ZBTC_T20
129. t Metering Accum Channel 1 GGIO1 ZRsInMtrCh1 Reset Input Metering Accum Channel 10 GGIO1 ZRsInMtrCh10 Reset Input Metering Accum Channel 2 GGIO1 ZRsInMtrCh2 Reset Input Metering Accum Channel 3 GGIO1 ZRsInMtrCh3 Reset Input Metering Accum Channel 4 GGIO1 ZRsInMtrCh4 Reset Input Metering Accum Channel 5 GGIO1 ZRsInMtrCh5 Reset Input Metering Accum Channel 6 GGIO1 ZRsInMtrCh6 Reset Input Metering Accum Channel 7 GGIO1 ZRsInMtrCh7 Schneider 57 PowerLogic G3200 Modbus to IEC 61850 Server ss Schneider Appendix A Specific syntax and rules for mapping Modbus devices Circuit Monitor supported commands cont Command Reset Input Metering Accum Channel 8 IEC tag GGIO1 ZRsInMtrCh8 Reset Input Metering Accum Channel 9 GGIO1 ZRsInMtrCh9 Reset Meter Initialization LPHD1 ZMtrlnit Reset Min Max SLR_MSTA1 ZRsMinMax Reset Min Max Avg Interval Log LPHD1 ZRsMMAIntv Reset Onboard Alarm Log LPHD1 ZRsAlm Reset Onboard Data Log 1 LPHD1 ZRsData1 Reset Onboard Data Log 10 LPHD1 ZRsData10 Reset Onboard Data Log 11 LPHD1 ZRsData11 Reset Onboard Data Log 12 LPHD1 ZRsData12 Reset Onboard Data Log 13 LPHD1 ZRsData13 Reset Onboard Data Log 14 LPHD1 ZRsData14 Reset Onboard Data Log 2 LPHD1 ZRsData2 Reset Onboard Data Log 3 LPHD1 ZRsData3 Reset Onboard Data Log 4 LPHD1 ZRsData4
130. taset lt FCDA doName Loc lt FCDA doName PhyHealth lt Private type SchneiderEl icd lt Private gt lt Private type SchneiderE lt Private type SchneiderE l lt Private type SchneiderE lt Private type SchneiderE l lt Private type SchneiderE l lt Private type SchneiderEl lt Private type SchneiderE l lt Private type SchneiderE lt Private type SchneiderE l lt Private type SchneiderE l ectric SFT IcdFileName gt SE Easergy _T200I lectric SFT IedVersion gt 0 lt Private gt lectric SFT IedName gt T200I lt Private gt ectric SFT IedFamily gt T200 ectric SFT IedAppli gt T200 lt Private gt ectric IED DevModel gt T200 T200 lt Private gt ectric IED MdbAddr gt 5 lt Private gt lectric IED MdbTb1 gt 34 lectric IED MdbTb1 gt 38 lectric IED MdbTb1 gt 40 lectric IED MdbTb1 gt 30 prefix gt prefix gt AA A A A A A A FCDA doName Loc fc ST FCDA doName Pos fc ST lt FCDA doName DPCSO1 fc ST prefix gt lt FCDA doName Ind1 fc ST 1 FCDA doName Op fc ST ld FCDA doName Op fc ST ld prefix SPh_ gt FCDA doName RsFltSt fc ST prefix SPh_ gt FCDA doName Op fc ST ld prefix SEF_ gt FCDA doName RsFltSt fc ST prefix SEF_ gt FCDA doName Health fc ST prefix gt lt DataSet gt lt DataSet desc Defaul lt FCDA doName zAvMes lt DataSet gt lt ReportControl bufTime 100 buffered true
131. ted pair shielding to the terminal of the black screw terminal block m Connect the Ethernet cable to the green RJ45 connector The G3200 can be connected with a PRI surge arrester for improved surge withstand protection See Powering the G3200 for surge withstand protection page 77 2 wire RS 485 network Up to 32 devices see note 1 cd MCT2W485 terminator or 120 Q resistor Belden 9841 G3200 Slave 1 Slave 2 Slave 3 Blue 3 Rx D1 L L L f Wane 4 Rx DO L E ll Z Terminator Shield 5 amp amp _ 8 _ Green see note 1 White 4 wire RS 485 network Up to 32 devices see note 1 Belden 8723 or 9842 S T Two 2 MCT2W485 terminators or 120 Q resistor G3200 Slave 1 Slave 2 Slave 3 Green 1 Tx TXD1 Rx Rx Rx 7 White 2 Tx TXDO Rx Rx Rx see note 2 Red 3 Rx RXD1 Tx Tx Tx Terminators Black 4 Rx RXDO Te Tx Tx Shield 5 amp A u s Setting the RS 485 network parameters The network polarization and line impedance matching resistors and type of 2 wire 4 wire RS 485 network are selected by means of the RS 485 parameter setting selector switches These selector switches are configured by default for a 2 wire RS 485 network with network polarization and line impedance matching resistors Network line impedance matching SW1 sw2 sw3 SW4 SW5 SW6 with resistor 2 wire RS 485 OFF ON 4 wire RS 485 ON
132. teway Address 10 155 24 1 change Media Type 10T 100Tx Auto ui Parity None Stop bits 1 lt Connected 0 03 06 Auto detect 19200 8 N 1 Flow contot i v Hyper Terminal access G3200 setup utility Hyper Terminal configure serial port 10 Schneider PLSED309028EN 12 2010 PowerLogic G3200 Modbus to IEC 61850 Server PLSED309028EN 12 2010 Installation and configuration Configuration G3200 setup utility options in Hyper Terminal Option Description Setting 1 Used to select the language for the current English French Spanish Hyper Terminal session Default English 2 Used to enter the static IP address of the 0 0 0 0 to 255 255 255 255 G3200 Default 169 254 0 10 3 Used to enter the subnet mask of your 0 0 0 0 to 255 255 255 255 network Default 255 255 0 0 4 Used to enter the default gateway router IP 0 0 0 0 to 255 255 255 255 address used for wide area network WAN Default 0 0 0 0 communications 5 Used to define the physical Ethernet m 10T 100Tx Auto connection m 10BaseT HDo 10BaseT FD m 100BaseTx HD m 100BaseTx FD Default 10T 100Tx Auto 6 Saves the settings and exits the setup utility Ethernet setup using a web browser 1 Disconnect your computer from your network Note After disconnecting from your network your computer should automatically use the default IP address 169 254 0 to 255 and the default subnet mask 255
133. ts 8 Parity None Stop bits 1 and Flow control None Click OK Counkyregior 6 Start the G3200 Setup Utility p m Cycle power or press the reset button on the G3200 below the LED power status el a 8 While re eer LED blinks rapidly press Enter on i computer keyboard to access the setup utility Note The Power Status LED stops blinking after 5 seconds Connect using com 7 The following screen is displayed G3200 HyperTerminal File Edit View Call Transfer Help Hyper Terminal choose connection port Enter details for the phone number that you want to dial Phone number PE80492 Dae 3 028 AE SE SE HE EE EE E EE EE EE EE E ME ME DE DE GE SE EE DE GE SE DE BE EE EE EE EE E EE EE E EE E SETUP UTILITY 96 JE JE JE JE E E E JE JE JE JE JE JE JE JE JE JE JE JE JE EE EE JE JE JE JE JE JE JE JE JE JE E FE JE JE JE JE JE JE JE JE JE JE JE EE EE JE JE JE EENG COM1 Properties Model Number G3200PL Firmware Version 1 27 Serial Number 33024654 MAC Address 00 80 67 80 F6 3F Port Settings Bits per second 19200 c 2009 Schneider Electric All Rights Reserved JE JE JE JE JE E PE DE JE JE DE JE JE JE JE JE JE JE JE JE JE JE E PE JE JE JE JE JE JE JE JE JE JE JE JE JE JE E PE JE JE JE JE JE JE JE JE JE JE JE JE JE JE JE FE FE JE JE JE JE JE JEJE Data bits E Choose an option Change Language English Change IP Address 10 155 24 131 Change Subnet Mask 255 255 255 0 Change Ga
134. tus Integer be used to choose the appropriate enumeration T XX m R1 0000 L P 29 L P 226 2 to 4 registers Each register is compared to a ones mask These results are ORed Generic Status OR SS together Optionally it can also be compared to a zeros mask T XX m R1 0000 2zzz This result can be inverted m R2 0000 zzzz N For inversion only one bit can be tested using either the ones or the I L P 226 zeros mask To use only the zeros mask a ones mask of 0 must be used as a place holder Result is 0 OFF and 1 ON L P 227 2 to 4 registers Same as Status OR SS except Generic Status OR DS Result is 0 intermediate 1 OFF 2 ON 3 bad state T XX m R1 0000 ZZZZ m R2 0000 zzzz N I L P 227 L P 228 2 to 4 registers Same as Status OR SS except Generic Status OR TF Result is 0 false 1 true T XX m R1 0000 ZZZz m R2 0000 zzzz N 1 L P 228 L P 229 Up to 4 registers Each register is evaluated against its mask Generic Status Enumeration Individual results are all 0 or 1 false or true then the results are added T XX m R1 0000 m R2 together like this 0000 result for R1 2 0 result for R2 2 1 result for R3 242 result for R4 m R3 0000 m R4 0000 Dong L P 229 Scaled registers processing codes L P 30 3 registers First register R1 300 399 inclusive indicates that this is a analog input Generic T register A XX m R1 u1 m R2 u1 Second register R2 is treated as a signed value m R3 u1 L P 30 Third register R3 can c
135. ty access to the Priority is used only with tables of type M NL table One of the following single character values m H high frequency read as fast as possible m N normal priority default m L low priority slow reading The actual rates of H N and L are implementation specific and cannot be defined by the ICD file Priority is optional If not specified it is by default N Normal priority PLSED309028EN 12 2010 Examples of Modbus Register table private tags lt Private type SchneiderElectric IED MdbTb1 gt 200 291 M lt Private gt lt Private type SchneiderElectric IED MdbTb1 gt 400 421 M L lt Private gt lt Private type SchneiderElectric IED MdbTb1 gt A00 A11 M H lt Private gt lt Private type SchneiderElectric IED MdbTb1 gt C10 C15 S lt Private gt lt Private type SchneiderElectric IED MdbTb1 gt C88 C8B C lt Private gt Schneider 51 PowerLogic G3200 Appendix A Modbus to IEC 61850 Specific syntax and rules for mapping Server Modbus devices Rules for defining Modbus register tables It is important to follow the rules below when defining the Modbus register tables m The size of the table end address start address 1 must never exceed 125 This limitation comes from the Modbus protocol m All registers must be covered by the table m All data objects that start from a register address but can extend up to consecutive registers must b
136. umidity ratio 5 to 95 relative humidity non condensing at 55 C 131 F Degree of pollution Class 2 Tightness IP30 Electromagnetic compatibility Emission tests Emissions radiated and conducted EN 55022 EN 55011 FCC Class A Immunity tests Radiated disturbances Electrostatic discharge EN 61000 4 2 Radiated radiofrequencies EN 61000 4 3 Magnetic fields at the network frequency EN 61000 4 8 Immunity tests Conducted disturbances Fast transient bursts EN 61000 4 4 Surges EN 61000 4 5 Conducted radiofrequencies EN 61000 4 6 Safety International IEC 60950 USA UL 508 UL 60950 Canada cUL complies with CSA C22 2 no 60950 Australia New Zealand AS NZS 60950 Certification Europe cE 2 wire 4 wire RS 485 communication port Electrical interface Standard 2 wire or 4 wire differential RS 485 EIA Maximum number of devices per G3200 32 Daisy chain maximum distances Maximum distance for 1 16 devices 3048 m 10 000 ft when Baud rate 9600 1524 m 5 000 ft when Baud rate 19200 1524 m 5 000 ft when Baud rate 38400 Maximum distance for 17 32 devices 1219 m 4 000 ft when Baud rate 9600 762 m 2 500 ft when Baud rate 19200 457 m 1 500 ft when Baud rate 38400 Modbus communication port Mode Master Baud rate 9600 19200 or 38400 Parity Even or Odd Ethernet communication port Number of ports 1 Type of port 10 100 Base Tx Protocols HTTP FTP SNMP MIB Il SNT
137. ww w3 org 2001 XMLSchema instance gt lt Private type SchneiderElectric SFT Key gt 1A60EADF5C788B2CD7058673908E7037 lt Private gt lt Private type SchneiderElectric SFT EditTime gt 2009 08 21 15 18 59 lt Private gt lt Private type SchneiderElectric SFT Version gt 2 0 23 lt Private gt lt Header id My Project Id nameStructure IEDName revision 0 toolID SFT850 v2 0 version 1 gt lt Communication gt lt IED configVersion 1 0 desc IEC61850 server for modbus devices manufacturer Schneider Electric name GW51_ owner My Project Id type G3200 Generic server gt lt DataTypeTemplates gt lt SCL gt Header The CID file header contains m the SCL syntax m the MD2 key m the date of creation of the file m the communication parameters of the G3200 server An example of the contents of a CID header is shown below lt xml version 1 0 encoding UTF 8 standalone no gt lt SCL xmlns http www iec ch 61850 2003 SCL XML version xmlns exse http www schneider electric com schema xmlns xsi http www w3 org 2001 XMLSchema instance gt lt Private type SchneiderElectric SFT Key gt 1A60EADF5C788B2CD7058673908E7037 lt Private gt MD2 Key lt Private type SchneiderElectric SFT EditTime gt 2009 08 21 15 18 59 lt Private gt Date of creation lt Private type SchneiderElectric SFT Version gt 2 0 23 lt Private gt lt Header id My Project Id nameStructure IEDName revision 0 t
138. ype cancel valKind Sett Data object Type lt DA bType Struct count 0 dchg false dupd false fe co listing the name Oper qchg false type oper valKind Set gt types of all the lt DA bType Enum count 0 dchg false dupd false fc CF Data Attribute name ctlModel qchg false type CtlModel valKind RO gt under the lt Val gt sbo with enhanced security lt Val gt instantiable DA gt Data Object lt DA bType INT32U count 0 dchg false dupd false fc CF name sboTimeout qchg false valKind RO gt lt DA bType Enum count 0 dchg false dupd false fc CF name sboClass qchg false type SboClass valKind RO gt lt Val gt operate once lt Val gt lt DA gt lt DOType gt Data Attribute lt DAType id originator iedType gt Types describe lt BDA bType Enum count 0 name orCat type Orcategory the types valKind Set gt lt BDA bType Octet64 count 0 name orIdent valKind Set gt of Basic Data lt DAType gt Attributes which lt EnumType id CtlModel gt hold the actual lt EnumVal ord 0 gt status only lt EnumVal gt data lt EnumVal ord 1 gt direct with normal security lt EnumVal gt Enumeration lt EnumVal ord 2 gt sbo with normal security lt EnumVal gt Types defined by lt EnumVal ord 3 gt direct with enhanced security lt EnumVal gt ihe standard lt EnumVal ord 4 gt sbo with enhanced security lt EnumVal gt lt EnumType gt or by lt DataTyp
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