"MV substation control and monitoring units"
Contents
1. 110 P ME 1 gt lt 111 P ME NB 1 gt 112 P ME NC 1 gt 113 P AC 1 gt lt 120 F FR 1 gt lt 121 SR 1 gt lt 122 F SC 1 gt lt 123 LS NA 1 gt lt 124 AF 1 gt lt 125 F SG NA 1 gt 126 F DR TA 1 gt Blank or X only NT00199 EN 08 Schneider Electric 11 T200 Flair 200C R200 IEC 60 870 5 104 Basic application functions Station station specific parameter mark X if function is used initialization X Remote initialization Cyclic data station specific parameter mark X if function is only used in the standard direction R if only transmission used in the reverse direction and B if used in both directions X Cyclic data transmission Read procedure station specific parameter mark X if function is only used in the standard direction R if only used in the reverse direction and B if used in both directions X Read Procedure station specific parameter mark X if function is used Spontaneous transmission X Spontaneous transmission Double station specific parameter mark each information type X where both a Type ID without time transmission of and corresponding Type ID with time are issued in response to a single spontaneous change information of a monitored object objects with cause of transmission spontaneous2. bit in CP56Time2a format after a synchronization made by the protocol 60870 5 104 0 correspond to an always valid clock Command type Direct or Direct Command by the protocol mode Selection and execution Command 1060 55 of command with time SC 1 timeout orC DC TA 1 define the validity delay of the command compare to the frame date and time Select Timeout 0 to 60 5s In Selection and execution mode define the maximum delay between the selection frame and the execution frame 0 correspond to an infinite delay Single point Yes or No Yes Specify if spontaneous single points events dating must be time stamped or not Double point Yes or No Yes Specify if spontaneous double points events dating must be time stamped or not 48 Schneider Electric NT00199 EN 08 T200 Flair 200C R200 IEC 60 870 5 104 Integrated totals Yes or No Yes Specify if spontaneous integrated totals dating events must be time stamped or not Measured value Yes or No Yes Specify if spontaneous measured value dating events threshold dead band must be time stamped or not Cyclic Measured Yes or No Yes Specify if cyclic measured value events must value dating be time stamped or not R200 ATS100 Configuration Settings The protocol configuration can be found under Settings SCADA communication Protocol Device Variables The parameters are similar to T200 F20
3. Address of ASDU HO One octet X Two octets Information object system specific parameter all configurations that are used are to be marked X address Gne eetet Structured Twe eetets Unstructured Three octets Cause of system specific parameter all configurations that are used are to be marked X transmission One octet X Two octets with originator address originator address is set to zero Length of APDU System specific parameter specify the maximum length of the APDU per system The maximum length of the APDU is 253 default The maximum length may be reduced by the system Maximum length of APDU per system Selection of standard ASDUs PROCESS if only used in INFORMATION the reverse direction and B if used in both directions IN MONITOR DIRECTION X 1 Single point information asSingle point information with time tag X Double point information E lt 4 gt D T A 5 Step position information NT00199 EN 08 Schneider station specific parameter mark each Type ID X if it is only used in the standard direction R M SP NA 1 M SP TA 1 M DP NA 1 M DP TA 1 M ST NA 1 T200 Flair 200C R200 IEC 60 870 5 104 lt Step position information with time tag M ST TA 1
4. T200 only RFC 2200 suite RFC 2200 is an official Internet Standard which describes the state of standardization of protocols used in the Internet as determined by the Internet Architecture Board IAB It offers a broad spectrum of actual standards used in the Internet The suitable selection of documents from RFC 2200 defined in this standard for given projects has to be chosen by the user of this standard 16 Schneider Electric NT00199 EN 08 T200 Flair 200C R200 60 870 5 104 2 3 Protocol Characteristics Transmission pile Transmission pile is linked to the number of events that can be kept in memory as long as the size SCADA has not read them This is important when communication is lost or when the events flow is bigger than the protocol data flow In all cases those events are lost in case of equipment shut down The equipment deals with digitals information TOR integrated totals or measured values The size of the transmission pile is 350 events for each type Possible data flow With a point to point connection 10 100Mb s Ethernet link the protocol is able to transmit 1000 events per seconds WARNING Performances are dependent on the Ethernet network Configuration 9 The list of available parameters is the following Scbneider EASERGY amp I ec t r i c Administrator Monitoring Control Jiagnostic Maintenance Settings Protocol Parameters IEC 60870 5
5. lt gt M EP TA lt 18 gt MEP FB lt 49 gt M EP TG lt 20 gt M PS NA 1 lt 21 gt M ME ND 1 30 M SP TB 1 X X lt 31 gt M DP TB 1 X lt 32 gt M ST TB 1 lt 33 gt M BO TB 1 10 Schneider NT00199 EN 08 Electric T200 Flair 200C R200 IEC 60 870 5 104 lt 34 gt M ME TD 1 X X lt 35 gt M ME TE 1 X X 36 M ME TF 1 X X lt 37 gt MIT TB 1 X 38 M EP TD 1 lt 39 gt M EP TE 1 lt 40 gt MEP TF 1 lt 45 gt C SC NA 1 XIX XIX X lt 46 gt C DC NA 1 XIX XIX X lt 47 gt RC NA 1 lt 48 gt SE NA 1 XIX XIX X lt 49 gt C SE NB 1 XIXI XIX X lt 50 gt SE NC 1 XIX XIX X lt 51 gt BO NA 1 lt 58 gt SC TA 1 XIX XIX X lt 59 gt DC 1 XIX XIX X 60 C RC 1 lt 61 gt C SE TA 1 XIX XIX X lt 62 gt C SE TB 1 XIX XIX X 63 SE 1 XIX XIX X lt 64 gt BO 1 lt 70 gt MEI MA 1 100 C IC NA 1 XIXIXIX X gt lt 101 C CI 1 XIX X gt 102 C RD NA 1 X gt 103 C CS NA 1 XIX gt ralione ES gt 105 C RP NA 1 XIX gt toco EMEN EE gt 107 C TS TA 1 gt
6. The following type identifications may be transmitted in succession caused by a single status change of an information object The particular information object addresses for which double transmission is enabled are defined in a project specific list Single point Information M SP 1 M SP TA 1 M SP TB 1 and M PS NA 1 Diouble point Information M DP 1 M DP TA 1 and M DP TB 1 Step position information M ST NA 1 M ST TA 1 ST TB 1 Bitstring of 32 bit M BO NA 1 M BO TA 1 and M BO 1 if defined for a specific project Measured value normalized value M ME NA 1 M ME TA 1 M ME ND 1 and M ME TD 1 Measured value scaled value M ME NB 1 M ME TB 1 and M ME TE 1 Measured value short floating point number M ME NC 1 M ME TC 1 and M ME TF 1 HOUOL 12 Schneider NT00199 EN 08 Electric T200 Flair 200C R200 60 870 5 104 Station station specific parameter mark X if function is only used in the standard Interrogation direction if only used in the reverse direction if used in both directions Clock station specific parameter mark X if function is only used in the standard synchronization direction if only used in the reverse direction and if used in both directions global group 1 N group 7 group 13 group 2 group 8 group 14 group m gro
7. Transmission frame formats e IEC 60870 5 2 1992 Telecontrol equipment and systems Part 5 Transmission protocols Section 2 Link transmission procedures e IEC 60870 5 3 1992 Telecontrol equipment and systems Part 5 Transmission protocols Section 3 General structure of application data e IEC 60870 5 4 1993 Telecontrol equipment and systems Part 5 Transmission protocols Section 4 Definition and coding of application information element e IEC 60870 5 5 1993 Telecontrol equipment and systems Part 5 Transmission protocols Section 5 Basic application functions e IEC 60870 5 101 2003 Telecontrol equipment and systems Part 5 101 Transmission protocols Companion standard for basic telecontrol tasks e IEC 60870 5 104 2000 Telecontrol equipment and systems Part 5 104 Transmission protocols Network access for IEC 60870 5 101 using standard transport profiles Previous documents use references to others useful documents with the following references e IEC 60050 371 1984 International Electro technical Vocabulary IEV Chapter 371 Telecontrol e IEC 60870 1 1 1988 Telecontrol equipment and systems Part 1 General considerations Section 1 General principles e IEC 60870 5 103 1997 Telecontrol equipment and systems Part 5 103 Transmission protocols Companion standard for the informative interface of protection equipment e OSI IEC 8824 1 2000 Information te
8. 0C and described in previous paragraph Classes El synoptic view Single line Signals SCADA communication Protocol Ethernet port Serial port Protocol Parameters IEC 60870 5 104 General protocol parameters Common address of ASDUs h Interoperability Transmission Frame Length max 253 K LEN w mets fo 2 x1s 1309 120 Measured value Normalized v End of init Transmission Yes Clock validity x1s 50 type Select before execute Command with time validity 5 select Timeout Single point dating Yes w Double point dating Yes Integrated totals dating Yes v Measured value dating Yes v Cyclic measured value dating Yes v e TCP port configuration The TCP server port can be modified under Settings SCADA communication Ethernet Port TCP Port Parameters IEC 60870 5 104 General protocol parameters TCP IP Port 2404 Communication parameters ports Protocol IEC 60870 5 104 Link Normal NT00199 EN 08 Schneider 19 T200 Flair 200C R200 IEC 60 870 5 104 2 4 Bibliography IEC101 Standard 20 Schneider Electric The international standard has been specified by the International Electro technical Commission mainly in following documents e IEC 60870 5 1 1990 Telecontrol equipment and systems Part 5 Transmission protocols Section 1
9. 104 IP client 4 255 255 255 255 IP client 2 255 255 255 255 IP client 3 255 255 255 255 IP client 4 255 255 255 255 IP client 5 255 255 255 255 IP client 6 255 255 255 255 IP client 7 255 255 255 255 client 8 55255255255 General protocol parameters Common address of ASDUs TCPAP Port 2404 Interoperability Transmission Frame Length max Interoperability Application aaa a Adjusted End of init Transmission Use 5 clock Se Validity Clock ualidity 3500 5 Command type Direct v Command timeout 5 Select Timeout f 0 5 Single point dating Double point dating Measured value dating rneasured ualue dating NT00199 EN 08 Schneider i7 T200 Flair 200C R200 IEC 60 870 5 104 W Protocol 60 870 5 104 Configuration page Paragraph Parameter Configuration Default Comments limits Configuration SCADAs IP_client1 0 0 0 0 to 255 255 255 25 The product allowed until 8 redundancy Adresses IP_client8 255 255 255 255 5 connections Incoming addresses can be T200 only filtered 0 0 0 0 means that no incoming connections are allowed 255 255 255 255 means that all incoming connections are allowed General Common ASDU 1 to 65534 1 The equipment has a unique database for protocol Address the all variables only one ASDU address par
10. 200 Flair 200C R200 IEC 60 870 5 104 Unbalanced interchange Circuit V 24 V 28 Standard o B o W gt lt LINK LAYER Unbalanced interchange Balanced interchange Circuit V 24 V 28 Circuit X 24 X 27 if gt 1 200bit s network specific parameter all options that are used are to be marked X Specify the maximum frame length If a non standard assignment of class 2 messages is implemented for unbalanced transmission indicate the Type ID and COT of all messages assigned to class 2 Link transmission procedure Frame length BE number of octets Address field of the link Structured Unstructured When using an unbalanced link layer the following ASDU types are returned in class 2 messages low priority with the indicated causes of transmission l l identification 9 11 13 21 A specialassignment of ASDUS to class 2 messages is used as follows 6 Schneider Electric Type identification Cause of transmission 1 Cause of transmission NT00199 EN 08 T200 Flair 200C R200 60 870 5 104 Application layer TRANSMISSION 1 Least significant octet first as defined in clause 4 10 of IEC 60870 5 4 is used MODE FOR exclusively in this companion standard APPLICATION D ATA system specific parameter all configurations that are used are to be marked X
11. Bit string of 32 bit M BO 1 B lt Bitsting o 32 bit with time tag M BO TA 1 X 9 Measured value normalized value M ME 1 B o Measured value normalized value with time tag M ME 1 X 11 Measured value scaled value M ME NB 1 B lt gt Measured value scaled value with time tag M ME TB 1 X lt 13 gt Measured value short floating point value 1 B lt Measured value short fleating point value with time tag M ME TC 1 X 15 Integrated totals M IT 1 B e M IT TA 1 B M EP TA 1 B M EP TB 1 B lt gt M EP TC 1 20 Packed single point information with status change detection M PS NA 1 21 Measured value normalized value without quality descriptor M ME ND 1 30 Single point information with time tag CP56Time2a M SP TB 1 31 Double point information with time tag CP56Time2a M DP TB 1 32 Step position information with time tag CP56Time2a 5 1 lt 33 gt Bit string of 32 bit with time tag CP56Time2a 1 X 34 Measured value normalized value with time tag CP56Time2a M ME TD 1 X lt 35 gt Measured value scaled value with time tag CP56Time2a M ME TE 1 X lt 36 gt Measured value short floating point value with time tag CP56Time2a M_ME_TF_1 X 37 Integrated totals with time tag CP56Time2a M IT TB 1 38 Event of protection equipment with time tag CP56Time2a M EP TD 1 lt 39 gt 3 Packed start events of protection equipment with time tag CP56Time2a M_EP_TE_1 lt 40 g
12. Counter freeze without reset Counter freeze with reset Counter reset General request counter Request counter group 1 Request counter group 2 Request counter group 3 S Request counter group 4 Parameter loading station specific parameter mark X if function is only used the standard direction R if only used in the reverse direction and B if used in both directions Threshold value Smoothing factor Low limit for transmission of measured values High limit for transmission of measured values Parameter station specific parameter mark X if function is only used in the standard activation direction R if only used in the reverse direction and B if used in both directions Act deact of persistent cyclic or periodic transmission of the addressed object Test procedure station specific parameter mark X if function is only used in the standard direction R if only used in the reverse direction and B if used in both directions Test Procedure File transfer station specific parameter mark X if function is used Electric 14 Schneider NT00199 EN 08 T200 Flair 200C R200 60 870 5 104 File transfer in monitor direction Transparent file Transmission of disturbance data of protection equipment Transmission of sequences of events Transmission of sequences of recorded analog values File
13. MV electrical network management Easergy range 200 amp Flair 200C amp R200 ATS100 MV substation control and monitoring units IEC 870 5 104 communication Appendix to the User Manual j gi Schneider Electric 200 Flair 200C 200 Contents 1 2 3 ABOUT THE BOOK C 3 IEC 60 870 5 104 4 2 1 PRESENTATION ttr adea 4 2 2 INTEROPERABILITY TABLE vice E 5 2 3 PROTOCOL CHARACTERISTICS 17 Transmission pile Sizo nm 17 Gata NOW TT 17 Gro fell ez Tor ELE 17 200 100 Configuration esses enne 19 2 4 BIBLIOGRAPHY trente tn eu dc p Bey dp eto estt e ie x 20 OBJECT ADDRESSING EE 21 2 Schneider P Electric NT00199 EN 08 T200 Flair 200C R200 About the book 1 About the book Presentation Document scope This manual describes the IEC 870 5 104 protocol implementation T200 and Flair 200C products Application field Apply to T200 and Flair 200C products V1 0 Creation of IEC 870 5 104 user s manual ocuments V1 1 Flair 200C added evolutions V1 2 T200 V3 3 release e Redundancy until 8 connections e Dating validity through SNTP
14. S Schneider Electric Telecontrol 839 chemin des Batterses 2 1 Ouest 01700 St Maurice de Beynost Tel 33 0 4 78 55 13 13 Fax 33 0 4 78 55 50 00 http www schneider electric com E mail telecontrol schneider electric com NT00199 EN 08 01 2014 As standards specifications and designs change from time to time please ask for confirmation of the information given in this publication Publication production and printing Schneider Electric Telecontrol Made in France Europe
15. V1 3 Interoperability table update add of Set point Commands Related documents User comments NT00199 EN 08 Schneider Electric T200 Flair 200C R200 IEC 60 870 5 104 2 IEC 60 870 5 104 2 1 Presentation Definition ISO Model Transmission mode Data Features Interoperability 4 Schneider Electric WThe IEC 60870 5 104 protocol is derived from the IEC 60870 5 101 protocol This one was specified on a serial link whereas IEC 60870 5 104 is an application running on a TCP IP layer E Main differences between the 2 protocols are e management of the TCP IP layer interface new functions ASDU that have been added IEC 60870 5 101 protocol specifies frame format and the IEC 60870 5 104 protocol specifies the frame format of the transport interface APCI as well as exchanging rules between two equipments Thus the equipment can communicate with a supervisor or another equipment The IEC 60870 5 104 protocol is based on TCP IP transport profile It is located exclusively on layer 7 of the ISO model but can be considered as made of two sub layers e Transport interface Application Protocol control Information e ASDU from IEC 60870 5 101 and IEC 60870 5 104 selection The protocol is client server application The equipment is acting as a server and the supervisor SCADA is acting as the client and connect the server The IEC 870 5 104 protocol specifies the data that c
16. ameters TCP IP Port 1 to 65534 2404 IEC 870 5 104 standard specifies that the number must be 2404 It is here configurable to be able to use any TCP IP network Interoperability Frame Length 4 to 253 253 Maximum length of APDU Application Transmission max Protocol Data Unit K 1 to 20 12 Number of frame that the unit can send without receiving acknowledged from the Supervisor 1 to 20 8 Number of frames that the unit can receive without sending acknowledgement W 2 3K T1 1 to 255 60s Maximum time to wait until the Supervisor indicates that it has correctly received the frame previously send by the unit If the confirmation is not received the session is closed T2 1 to 255 20s Maximum time to wait before to send a S frame confirmation for frames received from the Supervisor T2 T1 T3 1 to 255 120 If no data transfers occur during a certain period of time a frame will be send to test the link T32 T1 Interoperability Measured value Adjusted or Adjusted Define measured value format to the Application Normalized or SCADA Floating End of init Yes or No Yes Send or not a frame type M El NA 1 once Transmission the communication is established with the SCADA Use SNTP clock Yes or No No For signalization with time tag the validity validity invalidity of the dating can be given by SNTP synchronization by checking the option Clock validity 0 to 86400 s 3600 s Activation delay of the clock validity
17. an be exchanged and the format used for transmission Among the different data types provided by the protocol we can quote e signalisations singles or doubles measured values with different formats integrated totals commands parameters Features are associated to particular data types For example general interrogation clock synchronisation events transmission time stamped or not integrated totals specific treatment freezing reset command transmission modes select and execute mode or direct mode parameters activation Depending on their specifications connected equipments do not use the same data types or features define by the protocol In order to evaluate the compatibility between different equipments that should be connected each manufacturer provides a document called Interoperability table where the used data and features are shown and detailed NT00199 EN 08 T200 Flair 200C R200 IEC 60 870 5 104 2 2 Interoperability Table REMARKS System or device System definition This companion standard presents sets of parameters and alternatives from which subsets must be selected to implement particular telecontrol systems Certain parameter values such as the choice of structured or unstructured fields of the INFORMATION OBJECT ADDRESS of ASDUS represent mutually exclusive alternatives This means that only one value of the defined parameters is admitted per system Other pa
18. chnology Abstract Syntax Notation One ASN 1 Specification of basic notation e ITU T V 24 2000 List of definitions for interchange circuits between data terminal equipment DTE and data circuit terminating equipment DCE e ITU T V 28 1993 Electrical characteristics for unbalanced double current interchange circuits e ITU T X 24 1988 List of definitions for interchange circuits between Data Terminal Equipment DTE and Data Circuit terminating Equipment DCE on public data networks e ITU T X 27 1996 Electrical characteristics for balanced double current interchange circuits operating at data signalling rates up to 10 Mbit s e 754 1985 Binary floating point arithmetic NT00199 EN 08 T200 Flair 200C R200 60 870 5 104 3 Object addressing The table of information object addresses for IEC 870 5 104 protocol is exactly the same as the one of the IEC 870 5 101 protocol For the full list of these table addresses consult the IEC 870 5 101 protocol user s manual ref NT00156 EN xx NT00199 EN 08 Schneider 5 T200 amp Flair 200C Personal notes 22 Schneider NT00199 EN 08 ectric T200 amp Flair 200C Personal notes NT00199 EN 08 Schneider 23 Schneider Electric Industries SA
19. e call file call section F SC NA 1 123 Last section last segment F LS NA 1 124 Ack file ack section F_AF_NA_1 lt 125 gt Segment F_SG_NA_1 lt 126 gt Directory blank or X only available in monitor standard direction F DR TA 1 JL ILILILILILI identifier station specific 5 causes transmission Shaded boxes are not required assignment Black boxes are not permitted in this companion standard Blank functions or ASDU not used Mark Type Identification Cause of transmission combinations X if only used in the standard direction R if only used in the reverse direction B if used in both directions Type Identification Cause of transmission 12 8 4 5s e 7 8 o 10 11 12 133 20 374 44 45 46 47 36 41 lt 1 gt M SP NA 1 X X X M SP TA 4 EM NM lt 3 gt MDP NA 1 X X X lt 4 gt M BP FA 4 EM NM lt 5 gt MST NA 1 lt 6 gt EM NM lt 7 gt M BO NA 1 lt 8 gt MBO TA lt 9 gt 1 X X lt 10 gt M ME TA T EM lt 11 gt 1 X X X X 12 M ME TB EM EH 133 1 X X 14 MME FC EM lt 15 gt MIT NA 1 X M H TA
20. rameters such as the listed set of different process information in command and in monitor direction allow the specification of the complete set or subsets as appropriate for given applications This clause summarizes the parameters of the previous clauses to facilitate a suitable selection for a specific application If a system is composed of equipment stemming from different manufacturers it is necessary that all partners agree on the selected parameters The interoperability list is defined as in IEC 60870 5 101 and extended with parameters used in this standard The text descriptions of parameters which are not applicable to this companion standard are strike through corresponding check box is marked black system specific parameter indicate the station s function by marking one of the following with 5 Controlling station definition MASTER Controlled station definition SLAVE Network Configuration Physical layer Transmission speed Unbalanced interchange Circuit V 24 V 28 Standard B o gg o lt B o gt lt Transmission speed NT00199 EN 08 network specific parameter all configurations that are used are to be marked X network specific parameter all interfaces and data rates that are used are to be marked X Control direction Unbalanced interchange Balanced interchange Circuit V 24 V 28 Circuit X 24 X 27 Recommended if gt 1200bit s Monitor direction Schneider lectric T
21. t Packed output circuit information of protection equipment with time tag CP56Time2a M EP TF 1 Either the ASDUS of the set 2 4 8 10 12 14 gt 16 lt 17 gt 18 19 or of the set lt 30 gt lt 40 gt are used Process station specific parameter mark each Type ID X if it is only used in the standard direction R information in if only used in control direction the reverse direction and B if used in both directions 45 Single command C SC NA 1 lt 46 gt Double command C DC NA 1 47 Regulating step command C RC NA 1 lt 48 gt Set point command normalized value C SE 1 lt 49 gt Set point command scaled value C SE NB 1 8 Schneider NT00199 EN 08 Electric T200 Flair 200C R200 60 870 5 104 SEE NT00199 EN 08 X 50 Set point command short floating point value C SE NC 1 lt 51 gt Bit string of 32 bit 1 lt 58 gt Single command with time tag CP56Time 2a C SC 1 lt 59 gt Double command with time tag CP56Time 2a C DC TA 1 60 Regulating step command with time tag CP56Time 2a C RC TA 1 61 Set point command normalized value with time tag CP56Time 2a C SE 1 62 Set point command scaled value with time tag CP56Time 2a C SE TB 1 63 Set point command short floating point value with time tag CP56Time 2a C SE 1 64 Bit s
22. transfer in control direction Transparent file Background scan station specific parameter mark X if function is only used in the standard direction R if only used in the reverse direction and B if used in both directions Background scan Acquisition of transmission delay a T i me Definition of time outs Parameter Default value Remarks Selected value t0 30 5 Time out of connection establishment 30s ti 15s Maximum time to wait until the Supervisor Configurable indicates that it has correctly received the frame previously send by the unit If the confirmation is not received the session is closed t2 10s Maximum time to wait before to send a S Configurable frame confirmation for frames received from the Supervisor T2 T1 t3 20s If no data transfers occur during a certain Configurable period of time a frame will be send to test the link T3 gt T1 Maximum range of values k 1 to 32767 215 1 APDUs accuracy 1 APDU Maximum range of values w 1 to 32767 APDUs accuracy 1 APDU Recommendation w should not exceed two thirds of k Because of memory limitations k and w are limited to 20 APDUs with w lt k 15 NT00199 EN 08 Schneider lectric T200 Flair 200C R200 IEC 60 870 5 104 Port Number Parameter Value Remark Port number 2404 configurable Number N of redundancy group connections used
23. tring of 32 bit with time tag CP56Time 2a C BO 1 Either the ASDUs of the set lt 45 gt lt 51 gt or of the set lt 58 gt lt 64 gt are used System station specific mark X if used X lt 70 gt End of initialization M_EI_NA_1 System information in station specific parameter mark X if used control direction 100 Interrogation command 1 101 Counter interrogation command C CI NA 1 lt 102 gt Read command C RD NA 1 x lt 103 gt Clock synchronization command 5 1 a lt 104 gt Testcommand C_TS_NA 1 lt 105 gt Reset process command 1 Delay acquisition command C CD NA 1 lt 107 gt is Test command with time tag CP56time2a C TS TA 1 Parameter in station specific parameter mark X if used control direction 110 Parameter of measured value normalized value P ME NA 1 111 Parameter of measured value scaled value P ME NB 1 112 Parameter of measured value short floating point value P ME NC 1 113 Parameter activation P AC NA 1 Scbneider 9 lectric T200 Flair 200C R200 60 870 5 104 File Transfer station specific parameter mark each Type ID X if it is only used in the standard direction R if only used in the reverse direction and B if used in both directions 120 is File ready F FR NA 1 121 is Section ready F SR NA 1 122 Call directory select fil
24. up 9 group 15 group 4 group 10 group 16 group 5 group 11 Information Object Addresses assigned to each group must be shown in a separate group 6 group 12 table X Clock synchronization Command station specific parameter mark X if function is only used in the standard transmission direction if only used in the reverse direction and if used in both directions X Direct command transmission Direct set point command transmission X Select and execute command Select and execute set point command SE ACTTERM used X No additional definition Short pulse duration duration determined by a system parameter in the outstation Long pulse duration duration determined by a system parameter in the outstation Persistent output X Supervision of maximum delay in command direction of commands and set point commands 60s allowable delay of commands and set point commands NT00199 EN 08 Schneider 13 T200 Flair 200C R200 IEC 60 870 5 104 Transmission of station specific parameter mark X if function is only used in the standard direction R if only integrated totals used in the reverse direction and B if used in both directions Mode A Local freeze with spontaneous transmission Mode B Local freeze with counter interrogation Mode C Freeze and transmit by counter interrogation commands Mode D Freeze by counter interrogation command frozen values reported spontaneously Counter read
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