DNP3 Communication - Schneider Electric
Contents
1. 200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Profile MERLIN Configuration and Diagnostic ALT F4 Exit Inter message delay ee e It s the minimum line idle interval between two consecutive me frames Values are from 10 to 100 ms EL E Me UETAUN vale PRA Data Link Re tries Delay before emission Requires Data Link Layer Confirmation PETR e Select yes if you want User Data to be sent using a SEND mesauesenctanges ys CONFIRM expected frame type by the Link Layer Selecting Measured value deadband 10 configures Link Layer to use a SEND NO REPLY expected frame type for User Data transmission ESCAPESExt Notice that the case where SEND NO REPLY expected frame type is used T200 will never send RESET of remote link frames It will work strictly as a slave e Default is yes Maximum Data Link Re tries e Defines the number of re tries by the Link Layer when the RTU doesn t receive any CONFIRM frame ACK or to a frame using a SEND CONFIRM expected frame type When the Maximum Data Link Re tries is reached without confirmation Link Layer will perform RESET of remote link to re initialise the link e Default value is 3 Time out e It s the delay Link Layer will wait for a CONFIRM frame after sending a SEND CONFIRM expected frame Values are from2. Network Management Fault tracking Monitoring and Control Merlin Gerin Easergy Range T200 P T2001 DNP3 Communication User s manual Mn Modicon Schneider Electric We do more with electricity DNP3 Communication Summary General LLL L EAEAN ASAA 2 Functionnalities 2 Characteristics 2 Connection to the transmission line 3 Space available for a transmission interface 3 Connection to a transmission interface 3 Communication moduleErreur Signet non d fini E 4 Communication module configuration 5 Front panel indications 11 Normal operation 11 Diagnostic using front panel indicators and time stamped events 12 Replacing the Comms module 13 Device Profile Document 14 Implementation Table 17 Point List u u 18 T200 Dt uiscera tne e Puente era Dee 18 Igm 21 Special considerations 32 Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication General Functionnalit
3. 5 Active energy further development Not defined FD 253 5 Reactive energy further development Not defined FE 254 PM 6 Active energy further development Not defined FF 255 6 Reactive energy further development Schneider Electric T200 DNP3 Communication 0512 DNP3 Communication Special considerations Internal INdications Time synchronization required from the master Bit 4 of first IIN byte is set when T200 starts up More T200 needs to be synchronized by the master every hour This is necessary to assume a good accuracy of time stamps So if T200 doesn t receive any synchronisation from the master in an hour delay since the last synchronisation message received the IIN bit is set 32 T200 DNP3 Communication N0512 5GB Schneider Electric Schneider Electric SA N0512 5GB Issue 02 2004 64 70 avenue Jean Baptiste Cl ment F 92646 Boulogne Billancourt Cedex Tel 33 0 1 46 99 70 00 Fax 33 0 1 46 99 71 00 http www schneider electric fr Due to changes in standards and equipment the characteristics mentioned in the texts and images of this document cannot be considered as binding unless confirmed by our services Publication Schneider Electric Industries SA Schneider Electric T200 DNP3 Communication N0512 5GB 33
4. Class Desc Binary Input 5 92 1 1 NoStatus 2 2 1 With Phase fault SW5 Binary Input 5D 93 1 1 jNoStatus 2 2 1 With Time Earth fault A SW5 Binary Input 94 1 1 jNoStatus 2 2 1 With Time Phase fault SW6 Binary Input 5 95 1 1 jNoStatus 2 2 1 With Time Earth fault A SW6 Binary Input 60 96 1 1 jNoStatus 2 2 1 With Time Phase fault SW7 Binary Input 61 97 1 1 jNoStatus 2 2 1 With Time Earth fault A SW7 Binary Input 62 98 1 1 jNoStatus 2 2 1 With Time Phase fault SW8 Binary Input 63 99 1 1 jNoStatus 2 2 1 With Time Earth fault A SW8 Binary Input 64 100 1 1 jNoStatus 2 2 1 With Time Status SW5 Binary Input 65 101 1 1 jNoStatus 2 2 1 With Time Status SW6 Binary Input 66 102 1 1 jNoStatus 2 2 1 With Time Status SW7 Binary Input 67 103 1 1 jNoStatus 2 2 1 With Time Status SW8 Binary Input 68 104 1 1 jNoStatus 2 2 1 With Time Earth fault B SW5 Binary Input 69 105 1 1 jNoStatus 2 2 1 With Time Earth fault B SW6 Binary Input 6A 106 1 1 jNoStatus 2 2 1 With Time Earth fault B SW7 Binary Input 6B 107 1 1 jNoStatus 2 2 1 With Time Earth fault B SW8 Binary Input 6C 108 1 1 NoStatus 2 2 1 With Time Digital Input 7 Binary Input 6D 109 1 1 NoStatus 2 2 1 With Time Digital Input 8 Binary Input 6E 110 1 1 NoStatus 2 2 1 With Time presence SW5 Binary Input 6F 111 1 1 NoStatus 2 2 1 With Time MV presence SW6 Binary Input 70 112 1 1 NoStatus 2 2 1 With Ti
5. A support structure mounted on sliding rails offers multiple possibilities for adding such a unit Connection to a transmission interface Power supply The interface may be connected to the Telecomms supply terminals Voltage available 12 VDC 10 8 to 14 8 VDC Current available See T200 documentation for further details This output is protected by a 4A time lag fuse located on the right side of the rack Serial I O Port The RS 232 serial I O Port is available on the 9 pins SUB D male socket located on the right side of the rack m Signals wiring T200 o CD Carrier Detect RD Receive Data o TD Transmit Data DTR Data Terminal Ready DSR Data Set Ready RTS Request To Send CTS Clear To Send RI Ring Indicator Schneider Electric T200 DNP3 Communication N0512 5GB EN DNP3 Communication Communication Module Location Communication using DNP3 protocol takes place via a COMMS module The module is installed in the rack of a T200 enclosure on the left side of the Power supply module T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication MERLIN GERIN Configuration and Diagnostic ALT F4 Exit T200 Comms Card DNP3 EPROM v3 02 PARAMETERS SETUP SCADA address 0 RTU address 10 Modem type Direct RS232 Comms Parameters CPU Modules installed 1 2
6. Time PM 4 Current 1 Analog Input 227 30 2 16 Bit 32 16 Bit Without Time PM 4 Current 2 Analog Input E4 228 30 2 16 Bit 32 16 Bit Without Time PM 4 Current 3 Analog Input 5 229 30 2 16 Bit 32 16 Bit Without Time PM 4 Voltage 1 Analog Input E6 230 30 2 16 Bit 32 16 Bit Without Time PM 4 Voltage 2 Analog Input 231 30 2 16 Bit 32 16 Bit Without Time PM 4 Voltage 3 Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Base Expansion PowerMeter option Description Index hex dec Default Static Variation Default Event Variation Obj Var Desc Obj Var Class Desc Point Name Analog Input E8 232 30 2 16 Bit 32 1 16 Bit Without Time PM 5 Current 1 Analog Input 9 233 30 16 Bit 32 16 Bit Without Time PM 5 Current 2 Analog Input EA 234 30 16 Bit 32 16 Bit Without Time PM 5 Current 3 Analog Input 235 30 16 Bit 32 16 Bit Without Time PM 5 Voltage 1 Analog Input 236 30 16 Bit 32 16 Bit Without Time PM 5 Voltage 2 Analog Input ED 237 30 16 Bit 32 16 Bit Without Time PM 5 Voltage 3 Analog Input 238 30 16 Bit 3
7. 1 1 jNoStatus 2 2 1 With Time Status SW13 Binary Input 5 165 1 1 jNoStatus 2 2 1 With Time Status SW14 Binary Input A6 166 1 1 jNoStatus 2 2 1 With Time Status SW15 Binary Input A7 167 1 1 jNoStatus 2 2 1 With Time Status SW16 Binary Input A8 168 1 1 jNoStatus 2 2 1 With Time Earth fault B SW13 Binary Input A9 169 1 1 jNoStatus 2 2 1 With Time Earth fault B SW14 Binary Input AA 170 1 1 jNoStatus 2 2 1 With Time Earth fault SW15 Binary Input AB 171 1 1 jNoStatus 2 2 1 With Time Earth fault SW16 Binary Input 172 1 1 jNoStatus 2 2 1 With Time Digital Input 19 Binary Input AD 173 1 1 jNoStatus 2 2 1 With Time Digital Input 20 Binary Input AE 174 1 1 jNoStatus 2 2 1 With Time MV presence SW13 Binary Input AF 175 1 1 jNoStatus 2 2 1 With Time MV presence SW14 Binary Input B0 176 1 1 jNoStatus 2 2 1 With Time MV presence SW15 Binary Input B1 177 1 1 jNoStatus 2 2 1 With Time MV presence SW16 Binary Input B2 178 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input B3 179 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input B4 180 1 1 jNoStatus 2 2 1 With Time Digital Input 21 Binary Input B5 181 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input B6 182 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input B7 183 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input B8 184 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input B9 185 1 1 jNoStatus 2 2 1 With
8. 3 no 4 no PowerMeters installed 1 2 no 3 no 4 no 5 no Profile SAVE CONFIGURATION OK Cancel DIAGNOSTIC DNP3 analyser Communication module configuration The communication parameters are configured by using the T200 Configuration and diagnostic software Plug a computer to the COMMS module computer being under DOS control insert the T200 Configuration and diagnostic disquette and enter A MG then ENTER The main menu is displayed The use of the software is described into the T200 user s manual Main screen SCADA address e take every value between 0 and 65534 e Default value is 0 RTU address of ASDU e take every value between 0 and 65534 e Default value is 0 Modem type e The different links available are Direct RS 232 Radio external modem and Direct RS 485 with special Comms interface Notice that if RS 485 is present you have no choice to enter e Default is Direct RS 232 CPU Modules installed Permits to declare the CPUs which are used 1 to 4 Each CPU may be used yes or not no e Default setting is yes for the first CPU no for the others Notice that some information are only available from CPU number 1 Local PowerMeters installed e Permits declaration of PowerMeters used 1 to 6 when optional Powermeters are used T200 1 To declare a PowerMeter enter yes no otherwise e Default setting is
9. NoStatus 2 2 1 With Time SW2 Binary Input 22 34 1 1 2 NoStatus 2 2 1 With Time SW3 Binary Input 23 35 1 1 2 NoStatus 2 2 1 With Time SW4 24 1 36 1 1 2 Status 2 2 1 With Time SW5 Binary Input 25 37 1 1 2 No Status 2 2 1 With Time SW6 Binary Input 26 38 1 1 2 No Status 2 2 1 With Time SW7 Binary Input 27 39 1 1 2 NoStatus 2 2 1 With Time SW8 Binary Input 28 40 1 1 2 No Status 2 2 1 With Time SW9 Binary Input 29 41 1 1 2 NoStatus 2 2 1 With Time SW10 Binary Input 2 42 1 1 2 NoStatus 2 2 1 With Time SW11 Binary Input 2B 43 1 1 2 NoStatus 2 2 1 With Time SW12 Binary Input 2C 44 1 1 2 NoStatus 2 2 1 With Time SW13 Binary Input 2D 45 1 1 2 No Status 2 2 1 With Time SW14 Binary Input 2E 46 1 1 2 No Status 2 2 1 With Time SW15 Binary Input 2F 47 1 1 2 NoStatus 2 2 1 With Time SW16 Binary Input 31 49 1 1 2 Status 2 2 1 With Time FPI Reset Binary Input 34 52 1 1 2 No Status 2 2 1 With Time Enable Disable Automatism Group 1 Binary Input 35 53 1 1 2 Status 2 2 1 With Enable Disable Automatism Group 2 Binary Input 36 54 1 1 2 Status 2 2 1 With Enable Disable Automatism Group 3 Binary Input 37 55 1 1 2 NoStatus 2 2 1 With Time Enable Disable Automatism Group 4 Always read as Off T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communicat
10. analyser ESCAPE Exit SPACE Pause C Clear 0449 16 DIT UOS 64 05 4 This analyser shows the different frames recognised with some 081563 m 05 64 05 03 00 2200 F4 D complementary information such as the direction of the frame nd penne GOCOTTC2AT 2200899 Host gt T200 or T200 gt Host possibly the error detected 04 49 16 EE 05 64 05 40 22 00 03 00 38 20 04 49 21 ME a 05 64 05 80 03 00 22 00 4E E8 05 15 63 NE 05 64 05 0 03 00 22 00 F4 D8 05 26 58 EN 05 64 10 44 22 00 03 00 68 2C CO CO 81 90 00 34 02 07 01 AF 00 38 06 13 60 06 13 65 07 03 20 07 03 27 05 64 12 4 03 00 2200 13 2 CO C1 02 32 01 07 01 20 D1 13 10 DB 00 8C CF 05 64 44 22 00 03 00 C2 E8 C1 81 80 00 5D 12 05 64 OE C4 03 00 22 00 60 5D C2 01 02 06 01 06 FA 35 05 64 2 44 22 00 03 00 4019 2 C2 81 80 00 01 01 00 60 65 33 01 01 00 80 9 BO 70 00 00 00 04 1E 02 00 0 01 00 00 01 00 00 00 9E 00 80 00 00 80 9F 55 character framing error overflow checksum bad length bad control character In case of multiple errors it s the first one that is indicated Each correct frame is shown one block per line 10 bytes for the first one 18 bytes for next ones last one may be shorter 200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Front panel indications COMMS Comms module is sending data Comms modu
11. hex 1 0 Binary Input All Variations 1 06 1 1 Binary Input 129 00 1 2 Binary Input with Status 129 00 2 2 Binary Input Change with Time 129 17 10 0 Output All Variations 1 06 n 12 1 Control Relay Output Block 3 4 5 6 17 28 129 echo of request 30 0 Analog Input All Variations 1 06 30 2 16 Bit Analog Input 129 00 32 2 16 Bit Analog Change Event without Time 129 17 40 0 Analog Output Status All Variations 1 06 e 41 2 16 Bit Analog Output Block 3 4 5 6 17 28 o 50 1 Time and Date see 07 where 4 14 quantity 1 52 2 Time Delay Fine 129 07 quantity 1 60 1 Class 0 Data 1 06 60 2 Class 1 Data 1 06 07 08 60 3 Class 2 Data 1 06 07 08 m 60 4 Class 3 Data 1 06 07 08 i 80 1 Internal Indications 2 00 index 7 No object 13 No object 23 see 4 14 Addition to Highest DNP Levels Supported e Response to this request is OBJECT UNKNOWN Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Base Expansion Point List T200 P Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Control Relay 04 04 12 1 SW1 Output Block Control Relay 05 05 12 1 Reserved Output Block Control Relay 06 06 12 1 Rese
12. no for all PowerMeters Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Comms Parameters Modem Direct RS 232 Host baud rate 1200 bauds Handle DSR no Handle CD no Handle CTS no CTS delay 20ms RTS or CTS to message delay 20ms Message to RTS delay 20ms Comms parameters Modem Direct RS 232 This menu is available when Direct RS 232 has been chosen for Modem type Host baud rate e This is the transmission speed between the SCADA RTU The range is from 200 to 9600 bauds For test purposes if possible select a low speed So it will be easier to show the messages exchanged between the SCADA and the RTU see DNP3 analyser below e The default value is set to 1200 bauds Select yes if you want T200 to detect connection using e Select yes if you want T200 to control reception with CD Frame transmission may be represented as below ESCAPE Exit Handle DSR DSR e Default value is no Handle CD e Default value is no RTS CTS Frame Handle CTS e Select yes if you want T200 to wait for CTS after asserting RTS before sending the message e Default value is no CTS Delay e It s the delay T200 will wait for CTS if handled Value is from 20 to 500 ms e Default value is 20 ms RTS or CTS to message delay e It s the delay T200 will wait after RTS or CTS if handled b
13. 1 to 10 s e Default value is 5 s Delay before emission e To avoid collision when spontaneously emitting on a half duplex link T200 will wait a T delay after seeing the link is no more busy using CD If at this moment CD is still not present T200 will send the message If present it will wait another T delay T delay is the sum of Delay before emission and a random value Configured values are from 0 to 10 s e Default value is 0 s Handle requested object s unknown bit e Because some SCADAs don t manage requested object s unknown bit in IIN byte properly you can permit or inhibit it s transmission e Default value is yes Schneider Electric T200 DNP3 Communication N0512 5GB EN DNP3 Communication Transmission of measures on changes e You can permit or inhibit transmission of measures on changes by selecting respectively yes or no e Default value is yes Measured value deadband CPU e It s the difference for measures obtained from CPU cards there must be between last reported value and current value to have a Change Event generated Range is from 1 to 10 000 e Default value is 10 Measured value deadband PM e It s the difference for measures obtained from PowerMeters when option installed T200 only there must be between last reported value and current value to have a Change Event generated Range is from 1 to 10 000 e Default value is 10 DNP3 analyser DNP3
14. 128 1 1 jNoStatus 2 2 1 With Time Phase fault SW11 Binary Input 81 129 1 1 jNoStatus 2 2 1 With Time Earth fault A SW11 Binary Input 82 130 1 1 jNoStatus 2 2 1 With Time Phase fault SW12 Binary Input 83 131 1 1 jNoStatus 2 2 1 With Time Earth fault A SW12 Binary Input 84 132 1 1 jNoStatus 2 2 1 With Time Status SW9 Binary Input 85 133 1 1 jNoStatus 2 2 1 With Time Status SW10 Binary Input 86 134 1 1 jNoStatus 2 2 1 With Time Status SW11 Binary Input 87 135 1 1 jNoStatus 2 2 1 With Time Status SW12 Binary Input 88 136 1 1 jNoStatus 2 2 1 With Time Earth fault B SW9 Binary Input 89 137 1 1 jNoStatus 2 2 1 With Time Earth fault SW10 Binary Input 8A 138 1 1 jNoStatus 2 2 1 With Time Earth fault B SW11 Binary Input 8B 139 1 1 jNoStatus 2 2 1 With Time Earth fault B SW12 Binary Input 8C 140 1 1 NoStatus 2 2 1 With Time Digital Input 13 Binary Input 8D 141 1 1 NoStatus 2 2 1 With Time Digital Input 14 Binary Input 8E 142 1 1 NoStatus 2 2 1 With Time presence SW9 Binary Input 8F 143 1 1 NoStatus 2 2 1 With Time MV presence SW10 Binary Input 90 144 1 1 NoStatus 2 2 1 With Time presence SW11 Binary Input 91 145 1 1 NoStatus 2 2 1 With Time presence SW 12 Binary Input 92 146 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 93 147 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 94 148 1 1 NoStatus 2 2 1 With Time Digital Input 15 Binary Inpu
15. 2 16 Bit Without Time PM 6 Current 1 Analog Input EF 239 30 16 Bit 32 16 Bit Without Time PM 6 Current 2 Analog Input FO 240 30 16 Bit 32 16 Bit Without Time PM 6 Current 3 Analog Input F1 241 30 16 Bit 32 16 Bit Without Time PM 6 Voltage 1 Analog Input F2 242 30 16 Bit 32 16 Bit Without Time PM 6 Voltage 2 Analog Input F3 243 30 16 Bit 32 16 Bit Without Time PM 6 Voltage 3 T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Base Expansion PowerMeter option further development Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Not defined F4 244 1 Active energy further development Not defined F5 245 1 Reactive energy further development Not defined F6 246 PM 2 Active energy further development Not defined F7 247 PM 2 Reactive energy further development Not defined F8 248 PM 3 Active energy further development Not defined F9 249 PM 3 Reactive energy further development Not defined FA 250 PM 4 Active energy further development Not defined 251 PM 4 Reactive energy further development Not defined 252
16. R ELECTRIC Device Name T200 DNP3 V1 02 Highest DNP Level Supported Device Function For Requests L1 Master Slave For Responses L1 Notable objects functions and or qualifiers supported in addition to the Highest DNP Levels Supported the complete list is described in the attached table e Binary input All Variations Read all points e Analog input All Variations Read all points Maximum Data Link Frame Size octets Maximum Application Fragment Size octets Transmitted 292 Transmitted 14180 if 2 2048 must be configurable Received must be 292 Received 2048 must be gt 249 Maximum Data Link Re tries Maximum Application Layer Re tries O None None 1 Fixed at Configurable range to Configurable range 1 to 10 Fixed is not permitted Allows an application fragment to contain all class 0 data including expansion future use and reserved points and 100 event objects corresponding to event buffer capacity Configuration with a PC EIN T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Requires Data Link Layer Confirmation Never Always L Sometimes Configurable Requires Application Layer Confirmation Never Always not recommended O When reporting Event Data Slave devices only O When sending multi fragment responses Slave devices only Sometimes Configura
17. SW3 Output Block Control Relay 07 07 12 1 SW4 Output Block Control Relay 08 08 12 1 SW5 Output Block Control Relay 09 09 12 1 SW6 Output Block Control Relay 0A 10 12 1 SW7 Output Block Control Relay 0 11 12 1 SW8 Output Block Control Relay 0C 12 12 1 SW9 Output Block Control Relay 00 13 12 1 SW10 Output Block 7Control Relay 14 12 1 SW11 Output Block Control Relay 15 12 1 SW12 Output Block Control Relay 10 16 12 1 SW13 Output Block Control Relay 11 17 12 1 SW14 Output Block Control Relay 12 18 12 1 SW15 Output Block Control Relay 13 19 12 1 SW16 Output Block Control Relay 15 21 12 1 Reset Output Block Control Relay 18 24 12 1 Enable Disable Output Block Automatism Group 1 Control Relay 19 25 12 1 Enable Disable Output Block Automatism Group 2 Control Relay 1 26 12 1 Enable Disable Output Block Automatism Group 3 Control Relay 1B 27 12 1 Enable Disable Output Block Automatism Group 4 19 Only accepts On orders Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Base Expansion PowerMeter option Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Binary Input 20 32 1 1 2 No Status 2 2 1 With Time SW1 Binary Input 21 33 1 1 2
18. Time Digital Input 22 Binary Input BA 186 1 1 jNoStatus 2 2 1 With Time Digital Input 23 Binary Input 187 1 1 NoStatus 2 2 1 With Time Digital Input 24 200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Base Expansion PowerMeter option Description Index hex dec Default Static Variation Default Event Variation Obj Var Desc Obj Var Class Desc Point Name Analog Input C0 192 30 2 16 Bit 32 1 16 Bit Without Time SW1 Current Analog Input C1 193 30 2 16 Bit 32 16 Bit Without Time SW2 Current Analog Input C2 194 30 2 16 Bit 32 16 Bit Without Time SW3 Current Analog Input C3 195 30 2 16 Bit 32 16 Bit Without Time SW4 Current Analog Input C4 196 30 2 16 Bit 32 16 Bit Without Time SW5 Current Analog Input C5 197 30 2 16 Bit 32 16 Bit Without Time SW6 Current Analog Input C6 198 30 2 16 Bit 32 16 Bit Without Time SW7 Current Analog Input C7 199 30 2 16 Bit 32 16 Bit Without Time SW8 Current Analog Input C8 200 30 2 16 Bit 32 16 Bit Without Time SW9 Current Analog Input C9 201 30 2 16 Bit 32 16 Bit Without Time SW 10 Current Analog Input 202 30 2 16 Bit 32 16 Bit Wit
19. ble If Sometimes when If Configurable how Timeouts while waiting for Data Link Confirm None Fixed at Variable Configurable Complete Appl Fragment None Fixed at O Variable L1 Configurable Application Confirm None Fixed at Variable Configurable Complete Appl Response None Fixed at O Variable Configurable Others Sends Executes Control Operations WRITE Binary Outputs Never O Always Sometimes Configurable SELECT OPERATE Never Always O Sometimes O Configurable DIRECT OPERATE O Never Always O Sometimes O Configurable DIRECT OPERATE Never Always 1 Sometimes Configurable Count gt 1 O Never Always O Sometimes Configurable Pulse On O Never Always O Sometimes Configurable Pulse Off O Never Always O Sometimes Configurable Latch On O Never Always O Sometimes Configurable Latch Off O Never Always O Sometimes Configurable Queue Never Always Sometimes Configurable Clear Queue Never Always Sometimes Configurable 3 Configuration with a PC a Executes as it has been received o Range 1 to 10 s configuration with a Always execute a Pulse On with on time 3 s Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Reports Binary Input Change Events when no specifi
20. c variation requested Never Only time tagged Only non time tagged Configurable to send both one or the other attach explanation Reports time tagged Binary Input Change Events when no specific variation requested Never Binary Input Change With Time Binary Input Change With Relative Time Configurable attach explanation Sends Unsolicited Responses Never Configurable attach explanation Only certain objects Sometimes attach explanation ENABLE DISABLE UNSOLICITED Function codes supported Sends Static Data in Unsolicited Responses Never O When Device Restarts O When Status Flags Change No other options permitted Default Counter Object Variation No Counters Reported Configurable attach explanation Default Object Default Variation Point by point list attached Counters Roll Over at M No Counters Reported Configurable attach explanation 16 Bits 32 Bits Other Value Point by point list attached Sends Multi Fragment Responses Yes 200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Implementation Table OBJECT REQUEST RESPONSE Notes slave must parse master must parse Obj Var Description Func Qual Func Qual Codes Codes Codes Codes dec hex dec
21. e is from 20 to 500 ms e Default value is 20 ms RTS or CTS to message delay e It s the delay T200 will wait after RTS or CTS if handled before sending the message Value is from 0 to 500 ms e Default value is 20 ms Message to RTS delay e It s the delay T200 will wait after the end of the message before asserting RTS low Value is from 0 to 500 ms e Default value is 20 ms Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Comms Parameters Modem Direct RS 485 Host baud rate 1200 bauds RTS to message delay 20ms Message to RTS delay 20ms ESCAPE Exit Modem Direct RS 485 This menu is available when special Comms RS 485 interface is used Host baud rate e This is the transmission speed between the SCADA The range is from 200 to 9600 bauds For test purposes if possible select low speed So it will be easier to show the messages exchanged between the SCADA and the RTU see DNP3 analyser below default value is set to 1200 bauds Frame transmission may be represented as below RTS Frame RTS to message delay e It s the delay T200 will wait after RTS before sending the message Value is from 0 to 500 ms e Default value is 20 ms Message to RTS delay e t s the delay T200 will wait after the end of the message before asserting RTS low Value is from 0 to 500 ms e Default value is 20 ms
22. efore sending the message Value is from 0 to 500 ms e Default value is 20 ms Message to RTS delay e It s the delay T200 will wait after the end of the message before asserting RTS low Value is from 0 to 500 ms e Default value is 20 ms T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Modem Radio external modem Comms Parameters This menu is available when Radio external modem has been chosen for Modem type Modem Radio external modem Host baud rate 1200 bauds DTR to RTS delay 20ms Host baud rate Resa ae e This is the transmission speed between the SCADA and RTS or CTS to message delay 20ms The range is from 200 to 9600 bauds For test purposes if Message to RTS delay 20ms possible select low speed So it will be easier to show the messages exchanged between the SCADA and the RTU see DNP3 analyser below e default value is set to 1200 bauds ESCAPE Exit Frame transmission may be represented as below DTR RTS CTS Frame DTR to RTS delay e t s the delay T200 will wait after asserting DTR before setting RTS to 1 Value is from 0 to 500 ms e Default value is 20 ms Handle CTS e Select yes if you want T200 to wait for CTS after asserting RTS before sending the message e Default value is no CTS Delay e 5 the delay T200 will wait for CTS if handled Valu
23. hout Time PM 2 Current 1 Analog Input D7 215 30 16 Bit 32 16 Bit Without Time PM 2 Current 2 Analog Input D8 216 30 16 Bit 32 16 Bit Without Time PM 2 Current 3 Analog Input D9 217 30 16 Bit 32 16 Bit Without Time PM 2 Voltage 1 Analog Input DA 218 30 16 Bit 32 16 Bit Without Time PM 2 Voltage 2 Analog Input DB 219 30 16 Bit 32 16 Bit Without Time PM 2 Voltage 3 T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Base Expansion PowerMeter option Description Index hex dec Default Static Variation Default Event Variation Obj Var Desc Obj Var Class Desc Point Name Analog Input DC 220 30 2 16 Bit 32 1 16 Bit Without Time PM 3 Current 1 Analog Input DD 221 30 2 16 Bit 32 16 Bit Without Time PM 3 Current 2 Analog Input DE 222 30 2 16 Bit 32 16 Bit Without Time PM 3 Current 3 Analog Input DF 223 30 2 16 Bit 32 16 Bit Without Time PM 3 Voltage 1 Analog Input EO 224 30 2 16 Bit 32 16 Bit Without Time PM 3 Voltage 2 Analog Input E1 225 30 2 16 Bit 32 16 Bit Without Time PM 3 Voltage 3 Analog Input E2 226 30 2 16 Bit 32 16 Bit Without
24. hout Time SW 11 Current Analog Input CB 203 30 2 16 Bit 32 16 Bit Without Time SW 12 Current Analog Input CC 204 30 2 16 Bit 32 16 Bit Without Time SW 13 Current Analog Input CD 205 30 2 16 Bit 32 16 Bit Without Time SW 14 Current Analog Input CE 206 30 2 16 Bit 32 16 Bit Without Time SW15 Current Analog Input CF 207 30 2 16 Bit 32 16 Bit Without Time SW16 Current Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Base Expansion PowerMeter option Description Index hex dec Default Static Variation Default Event Variation Obj Var Desc Obj Var Class Desc Point Name Analog Input DO 208 30 2 16 Bit 32 1 16 Bit Without Time PM 1 Current 1 Analog Input D1 209 30 16 Bit 32 16 Bit Without Time PM 1 Current 2 Analog Input D2 210 30 16 Bit 32 16 Bit Without Time PM 1 Current 3 Analog Input D3 211 30 16 Bit 32 16 Bit Without Time PM 1 Voltage 1 Analog Input D4 212 30 16 Bit 32 16 Bit Without Time PM 1 Voltage 2 Analog Input D5 213 30 16 Bit 32 16 Bit Without Time PM 1 Voltage 3 Analog Input D6 214 30 16 Bit 32 16 Bit Wit
25. ies Telecontrol Transmission of remote control commands to MV switches Transmission of the remote control command to reset fault currents stored Transmission of enable disable automatism command when automatism exists Monitoring Position of switches Enable disable automatism position when automatism exists Status of switches Phase and earth fault A and B currents of ways presence of ways Digital inputs Local Remote control operating mode Immediate AC supply OFF Delayed AC supply OFF Charger fault fault Battery fault Switchgear supply OFF Automatism operated when automatism exists Measurements Phase currents Voltage T200 P Currents voltages given by optional PowerMeters T200 I Active and reactive energies given by optional PowerMeters further development T200 I Characteristics Type of transmission asynchronous serial Protocol DNP3 Data format 1 start bit 8 data bits no parity 1 stop bit Speed 200 300 600 1200 2400 4800 9600 bauds Electrical interface RS232 Type of connector 9 pin SUB D male E T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Connection to the transmission line Space available for a transmission interface The top right section of the equipment contains a space available for a transmission interface Modem optical fibre radio
26. ion Base Expansion PowerMeter option Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Binary Input 3C 60 1 1 jNoStatus 2 2 1 With Time Phase fault SW1 Binary Input 3D 61 1 1 jNoStatus 2 2 1 With Time fault A SW1 Binary Input 3E 62 1 1 jNoStatus 2 2 1 With Time Phase fault SW2 Binary Input 63 1 1 jNoStatus 2 2 1 With Time Earth fault A SW2 Binary Input 40 64 1 1 NoStatus 2 2 1 With Phase fault SW3 Binary Input 41 65 1 1 NoStatus 2 2 1 With Time Earth fault SW3 Binary Input 42 66 1 1 jNoStatus 2 2 1 With Time Phase fault SW4 Binary Input 43 67 1 1 NoStatus 2 2 1 With Time Earth fault A SW4 Binary Input 44 68 1 1 NoStatus 2 2 1 With Time Status SW1 Binary Input 45 69 1 1 NoStatus 2 2 1 With Time Status SW2 Binary Input 46 70 1 1 NoStatus 2 2 1 With Time Status SW3 Binary Input 47 71 1 1 NoStatus 2 2 1 With Time Status SW4 Binary Input 48 72 1 1 NoStatus 2 2 1 With Earth fault B SW1 Binary Input 49 73 1 1 NoStatus 2 2 1 With Time Earth fault B SW2 Binary Input 4A 74 1 1 NoStatus 2 2 1 With Time Earth fault B SW3 Binary Input 4B 75 1 1 jNoStatus 2 2 1 With Time Earth fault B SW4 Binary Input 4C 76 1 1 jNoStatus 2 2 1 With Time Digital Input 1 Binar
27. le is receiving data Comms module in fault Comms modulepowered x Comms module powered Plug for the connection of a PC used for configuration and maintenance Normal operation During normal operation the COMMS module display is as follow RD and TD communication LEDs are lighted when T200 is receiving or transmitting ONLED is lighted Fault LED is OFF Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Diagnostic using front panel indicators and time stamped events T200 includes time stamped facilities in order to help in the diagnostic The events are saved into the CPU module The Time stamped events can be read locally from a lap top PC computer equipped with the software T200 Configuration and Diagnostic and connected to the CPU configuration plug Connect the Lap top to the CPU module The PC being powered and under Dos control insert the diskette T200 Configuration and Diagnostic into the driver and press A MG then ENTER Capital letter either not The main menu is displayed For information on the use of the configuration software package refer to the chapter entitled Commissioning in the T200 user s manual Event Possible cause Solution The ON LED on the Equipment is not powered Power the equipment COMMS module is OFF Control unit supply fuse is burnt Change the fuse on the Power supply unit Fuse 5x20mm 0 8A semi ti
28. me presence SW7 Binary Input 71 113 1 1 NoStatus 2 2 1 With Time MV presence SW8 Binary Input 72 114 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 73 115 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 74 116 1 1 NoStatus 2 2 1 With Time Digital Input 9 Binary Input 751117 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 76 118 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 77 119 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 78 120 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 79 121 1 1 NoStatus 2 2 1 With Time Digital Input 10 Binary Input 122 1 1 NoStatus 2 2 1 With Time Digital Input 11 Binary Input 7B 123 1 1 NoStatus 2 2 1 With Time Digital Input 12 T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Base Expansion PowerMeter option Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Binary Input 70 124 1 1 5 2 2 1 With Phase fault SW9 Binary Input 7D 125 1 1 jNoStatus 2 2 1 With Time Earth fault A SW9 Binary Input 7E 126 1 1 jNoStatus 2 2 1 With Time Phase fault SW10 Binary Input 7F 127 1 1 jNoStatus 2 2 1 With Time Earth fault A SW10 Binary Input 80
29. me lag Comms module failure Change the Comms module The Fault LED on the Configuration has been lost Connect a lap top PC computer equipped Comms module is ON with the software T200 Configuration and Diagnostic If configuration lost is blinking in the main menu verify or enter correct configuration After validation if problem persists change the Comms module The Fault LED on the The Comms module software is in Press General RESET button on the Comms module blink fault Power supply unit If the led doesn t turn OFF some seconds later change the Comms module The Fault LED on the Comms module failure Change the Comms module Control module is ON and presence of MODBUS comms failure event 12 T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Replacing the Comms module Removing the module a switch off the control unit Switch Off the AC supply Disconnect the batteries b unscrew the two module locking screws and extract it from its location Installing the module a install the new board and lock it to its slot b switch the control unit on again IMPORTANT Do not forget to configure the module refer to the section entitled Communication module configuration Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Device Profile Document DNP V3 00 DEVICE PROFILE DOCUMENT Vendor Name SCHNEIDE
30. rved Output Block Control Relay 07 07 12 1 Enable Disable Output Block Automatism Control Relay 15 21 12 1 Reset Output Block Control Relay 18 24 12 1 Reserved Output Block Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Binary Input 20 32 1 1 2 No Status 2 2 1 With Time SW1 Binary Input 21 33 1 1 2 NoStatus 2 2 1 With Time Reserved Binary Input 22 34 1 1 2 NoStatus 2 2 1 With Time Reserved Binary Input 23 35 1 1 2 NoStatus 2 2 1 With Time Enable Disable Automatism Binary Input 31 49 1 1 2 NoStatus 2 2 1 With Time FPI Reset Binary Input 34 52 1 1 2 No Status 2 2 1 With Time Reserved Only accepts On orders Always read as Off T200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication Base Expansion Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Binary Input 3C 60 1 1 jNoStatus 2 2 1 With Time fault SW Binary Input 3D 61 1 1 jNoStatus 2 2 1 With Time fault A SW Binary Input 3E 62 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 63 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 40 64 1 1 jNoStatu
31. s 2 2 1 With Time Reserved Binary Input 41 65 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 42 66 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 43 67 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 44 68 1 1 jNoStatus 2 2 1 With Time Status SW Binary Input 45 69 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 46 70 1 1 5 2 2 1 With Time Reserved Binary Input 47 71 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 48 72 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 49 73 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 4A 74 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 4B 75 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 4C 76 1 1 jNoStatus 2 2 1 With Time Digital input 1 Binary Input 4D 77 1 1 jNoStatus 2 2 1 With Time Digital input 2 Binary Input 4E 78 1 1 jNoStatus 2 2 1 With Time Digital input Binary Input 4F 79 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 50 80 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 51 81 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 52 82 1 1 jNoStatus 2 2 1 With Time Local Binary Input 53 83 1 1 No Status 2 2 1 With Time Immediate AC supply OFF Binary Input 54 84 1 1 jNoStatus 2 2 1 With Time Reserved Binary Input 55 85 1 1 NoStatus 2 2 1 With Charger fault Binary Input 56 86 1 1 NoStatus 2 2 1 With Time Battery fa
32. t 95 149 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 96 150 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 97 151 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 98 152 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 99 153 1 1 NoStatus 2 2 1 With Time Digital Input 16 Binary Input 9A 154 1 1 NoStatus 2 2 1 With Time Digital Input 17 Binary Input 9B 155 1 1 NoStatus 2 2 1 With Time Digital Input 18 Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Base Expansion PowerMeter option Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Binary Input 9C 156 1 1 jNoStatus 2 2 1 With Time Phase fault SW13 Binary Input 9D 157 1 1 jNoStatus 2 2 1 With Time Earth fault A SW14 Binary Input 9E 158 1 1 jNoStatus 2 2 1 With Time Phase fault SW15 Binary Input 9F 159 1 1 jNoStatus 2 2 1 With Time Earth fault A SW16 Binary Input A0 160 1 1 jNoStatus 2 2 1 With Time Phase fault SW13 Binary Input 1 161 1 1 jNoStatus 2 2 1 With Time Earth fault A SW14 Binary Input A2 162 1 1 jNoStatus 2 2 1 With Time Phase fault SW15 Binary Input A3 163 1 1 jNoStatus 2 2 1 With Time Earth fault SW16 Binary Input A4 164
33. ult Binary Input 57 87 1 1 No Status 2 2 1 With Switchgear supply OFF Binary Input 58 88 1 1 No Status 2 2 1 With Time Delayed AC supply OFF Binary Input 59 89 1 1 jNoStatus 2 2 1 With Time Operated Binary Input 5A 90 1 1 NoStatus 2 2 1 With Time Reserved Binary Input 5B 91 1 1 NoStatus 2 2 1 With Time Reserved Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Base Expansion Index Default Static Default Event Variation Point Name Description hex dec Variation Obj Var Desc Obj Var Class Desc Analog Input 0 192 30 2 16 Bit 32 2 1 16 Bit Phase Current Without Time Analog Input C1 193 30 2 16 Bit 32 2 1 16 Bit Voltage Measure Without Time Analog Input 2 194 30 2 16 Bit 32 2 1 16 Bit Reserved Without Time Analog Input C3 195 30 2 16 Bit 32 2 1 16 Bit Reserved Without Time 200 DNP3 Communication N0512 5GB Schneider Electric DNP3 Communication sm T2001 Expansion PowerMeter option Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var Class Desc Control Relay 04 04 12 1 SW1 Output Block Control Relay 05 05 12 1 SW2 Output Block Control Relay 06 06 12 1
34. y Input 4D 77 1 1 jNoStatus 2 2 1 With Time Digital Input 2 Binary Input 4E 78 1 1 jNoStatus 2 2 1 With Time MV presence SW1 Binary Input 4F 79 1 1 jNoStatus 2 2 1 With Time MV presence SW2 Binary Input 50 80 1 1 jNoStatus 2 2 1 With Time presence SW3 Binary Input 51 81 1 1 jNoStatus 2 2 1 With Time presence SW4 Binary Input 52 82 1 1 jNoStatus 2 2 1 With Time Binary Input 53 83 1 1 No Status 2 2 1 With Time Immediate AC supply OFF Binary Input 54 84 1 1 NoStatus 2 2 1 With Time Digital Input 3 Binary Input 55 85 1 1 NoStatus 2 2 1 With Time Charger fault Binary Input 56 86 1 1 NoStatus 2 2 1 With Time Battery fault Binary Input 57 87 1 1 NoStatus 2 2 1 With Switchgear supply OFF Binary Input 58 88 1 1 No Status 2 2 1 With Time Delayed AC supply OFF Binary Input 59 89 1 1 NoStatus 2 2 1 With Time Digital Input 4 Binary Input 5A 90 1 1 NoStatus 2 2 1 With Time Digital Input 5 Binary Input 5B 91 1 1 NoStatus 2 2 1 With Time Digital Input 6 Schneider Electric T200 DNP3 Communication N0512 5GB DNP3 Communication Base Expansion PowerMeter option Description Index Default Static Default Event Variation Point Name hex dec Variation Obj Var Desc Obj Var
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