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BiTRONICS 70 SERIES - ElectricalManuals.net

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1. 367 T1 5 Input 5 T1 5 Input 6 370 5 Input 8 T1 6 Input 1 372 TI 6 Input 2 373 T1 6 Input 1 6 Input 5 TI 6 Input 6 377 TI 6 Input 7 TI 6 Input 8 E NL TU 380 T1 7 Input 2 TW7 Input 3 Ld 10026 21 DEC EMBER 2007 46 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters 7 Input 4 a TMTiputS 385 TMTIputZ 386 T7 Inputs Please note that the BITRONICS HAF Harmonics Advanced Fixed Point Set is identical BAF through point 386 but adds harmonics and phase angles for L L and L N voltages and for currents for all 63 harmonics through point 3271 10026 21 DECEMBER 2007 47 Copyright 2007 AREVA T amp D Inc DNP V3 0 DEVICE PROFILE DOCUMENT Vendor AREVA T amp D Device Name Mx71 Highest DNP Level Supported Device Function For Requests Level 2 L Master For Responses Level 2 Slave Notable objects functions and or qualifiers supported in addition to the Highest DNP Levels Supported For static non change event object requests request qualifier codes 00 and 01 start stop 07 and 08 limited quantity and 17 and 28 index are supported in addition to request qualifier code 06 no range Static object requests sent with qualifiers 00 01 06 07 or will be res
2. 124 ResevedforDemandRMSAmpsN2 125 MaxDemandRMSAmpsA2 Recorder Memory Low 126 MaxDemandRMSAmpsB2 WRI Recorder Active Te Max Demand RMS Amps C 2 WR2 Recorder Active o po oo 3 Max Demand RMS Ampsc2 0000000 aag ja Mex Demand PMS rt eco active _ 128 2 DR1 Recorder Active 129 BDemandRMSVotsA2 2 Recorder Active 130 J DemadRMSVotsB2 ny Recorder Active 131 j BDemadRMSVotsC2 Reserved returns 0 132 Demand RMS Volts 2 Heserved returns O 133 MaxDemandRMSVotsA2 Reserved returns 0 134 Max Demand RMS VotsB2 Reserved 135 MaxDemandRMSVotsc2 Reserved 136 Max Demand RMS Volts N 2 Reserved returns 0 187 MnDemadRMSVotsA2 Reserved returns 0 138 Min Demand RMS Volts B 2 Reserved returns 0 189 MnDemadRMSVotsO2 Reserved returns 0 140 Min Demand RMS Volts N 2 Reserved returns 0 p 142 Demand RMS Volts BC 2 Demand RMS Volts CA 2 p 10026 21 DECEMBER 2007 39 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters Max Demand RMS Volts AB 2 345 2 146 Max Demand RMS Votsca2 147 _ Min Demand RMS Vots AB2 148 2 1 149 Min Demand RMS Vots
3. 150 Demand RMS Watts Tot2 1 161 DemadRMSVARsToal2 G 3152 DemandRMSVAsTotal2 168 Demand RMS 4 154 Max Demand RMS VARsTotal2 156 MaxDemadRMSVAsToal2 156 MiDemandRMSWatsToal2 167 MinDemandRMSVARsTotal2 158 Min Demand RMS VAs Totar 359 Reserved retums 0 160 Reserved returns 0 161 Reserved returns 0 162 Reseved reumso 163 Reserved returns 0 164 Reserved returns 0 165 Reserved retums 166 Reserved returns 0 167 Reserved returns 0 168 Reserved returns 0 169 Reserved returns 0 Reserved returns 0 Phase Angle Volts 1 2 Phase Angle Volts 1 2 173 Phase Angle VoltsC 1 2 174 Phase Angle Volts A 1 R 1 176 Phase Angle VoltsC 1 R 1 Phase Angle Volts A 1 R2 Ld 10026 21 DECEMBER 2007 40 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters we PweAneVosO R2 1 380 381 RMSVotsBt 2 183 RMS Volts N 1 RMSVotsRt 5 31386 j FreqenyVotsA1 187 Frequency Volts 4 188 FrequencyvotsC 0 O 189 Frequency 1
4. sc ose Lope mem fee Volt Scale Volt Scale e e tee Volt Scale ee Volt Scale Volt Scale Volt Scale 10026 21 DECEMBER 2007 26 Copyright 2007 AREVA T amp D Inc 1 32768 10 Amp Scale 1 32768 10 Amp Scale A 1 32768 10 Amp Scale A 0 3767 13276 Data 0 32767 1 32768 150 Volt Scale 1 32768 150 Volt Scale V 1 32768 150 Volt Scale V 1 32768 4500 Amp Scale Volt Scale W vel 32768 32767 1 32768 4500 Amp Scale Volt Scale vars Data 32768 32767 1 32768 1500 Amp Scale Volt Scale W Data 32768 32767 1 32768 1500 Amp Scale Volt Scale W 5 DNP3 Point Assignments DNP Point Contents 5 i Max Step Al 13 EN a ul Scale BEE 32768 32767 1 32768 1500 Amp Scale Volt Scale vars Volt e olt Scale Herm pesas 1000 sse posae 16 99 AES ramp Scale 0 EA 15 Amp Sealey NENNEN S 70 Frequency Volts Bus2 Data 2000 8000 10 01 Hz pers an ts Test msec Volt Volt Scale Volt Volt Scale Power Factor A 1000 0 001 Amp Seal Pac Satine 4000 9999 1 Al 16 Amp Scale Factor Divisor T11 Setting 1 1000 Multiply by 10 valid values are 1 10 100 1000 Al 17 Volt Scal
5. 10026 21 DEC EMBER 2007 20 Copyright 2007 AREVA T amp D Inc 4 0 FILE TRANSFER The BITRONICS 70 SERIES IEDs support the DNP file transfer implementation as described in the Sequential File Transfer Objects DNP Technical Bulletin This document is a replacement for file transfer as described in the Basic 4 document set and is available from the DNP Users Group 10026 21 DEC EMBER 2007 21 Copyright 2007 AREVA T amp D Inc 5 0 DNP3 EVENTS OVERVIEW DNP3 provides for a method of reporting data only when it may be of interest to the application This can significantly reduce the network bandwidth required by eliminating the redundant polling of data and only polling data when it changes enough to be consider relevant When a change in a particular data value becomes relevant to the application that change is called an event Events are pre assigned to one of three CLASSes CLASS 1 CLASS 2 or CLASS 3 When an event occurs the data point and OBJECT type are placed in a buffer and the event s specific CLASS BIT BIT1 BIT2 or BIT3 of the first IIN octet is set in the 70 SERIES IED s Internal Indications IIN field DNP3 master devices monitor the bits and will issue a specific CLASS 1 CLASS 2 or CLASS 3 poll when the respective CLASS IIN bit is set The 70 SERIES IED will respond to the specific CLASS poll with all data buffered for the CLASS requested and than clear the associated CLASS IIN bit 5 1 BINARY INPUT CHANGE Event
6. Reserved returns 0 1 817 j Reseved etumsO OO 318 Reserved returns 0 319 Reserved returns 0 320 Reserved returns 0 1 321 Reserved returns 0 322 Reserved returns 0 1 323 Reserved returns 0 324 Reserved returns 0 1 325 Reserved returns 0 326 _ Reserved returns 0 327 Reserved returns 0 328 Reserved returns 0 329 Reserved returns 0 330 Reserved returns 0 TA Inputa 32 333 T1 1 Input 334 Input 4 336 TI 1 Input TI 1 Input 7 338 TH 1 Input 8 339 TI 2 Input 1 T1 2 Input TI 2 Input 4 343 2 Input 5 T1 2 Input 6 346 TI 2 Input 8 Input 1 Ld 10026 21 DEC EMBER 2007 45 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters 348 T1 3 Input 2 TM Input 3 Input 4 tus input 1 _ tis inputs o d S S S y O TMAmpat8 THs inputs Tempas 1 TMMput Tempar TMMput lt Lx THs gas A A
7. Setting 32768 AO38 JUserGanAmpsB 509 32768 AO39 JUserGainAmsC 59 32768 AO40 JUserGanAmsN Setting 32768 AO41 jJUserPhaseCorection Vots 18 JSetting 18000 AO42 User Phase CorrectionVotsB T8 09 18000 AO43 User Phase Correction Vots T8 18000 AO44 JJUserPhaseComection Vots T8 509 18000 RES Bus2 AO 46 User Phase Correction Volts Setting 18000 Bus2 L ee a Bus2 L ee EE Bus2 AO49 Correction 18 J SC JjSetting 18000 AO 50 JUser Phase Correction Amps B T8 18000 AO51 Amps 18 SC JjSetting 18000 AO 52 User Phase Correction Amps N_ T8 jSetting 18000 MLOO26 21 DEC EM BER 2007 7 1800010 01 1800010 01 1800010 01 Degrees 1800010 01 Degrees 32767 1 16384 32767 1 16384 32767 1 16384 32767 1 16384 32767 1 16384 32767 1 16384 18000 0 01 18000 0 01 Degrees Degrees 1800010 01 Degrees 1800010 01 Degrees 1800010 01 Degrees 1800010 01 Degrees 1800010 01 Degrees 1800010 01 Degrees Degrees Degrees Copyright 2007 AREVA T amp D Inc 1 4 2 DNP3 Calculation Type Codes Type Value Bit Mask Description Unsigned 16
8. Am Rate Divsor Future Use 1000 9999 Kroso mu Setting 0 see 100 566 When connected to 2 Element DELTA or 3 wire systems the Per Element quantities may have no direct physical meaning NOTE The BITRONICS 70 Series IEDs have a total of up to 6 different point sets depending upon Configurator and fimrware versions Please refer to the 70 Series Configurator DNP Points tab and click on the various options in the Point Set and Points to Display sections to see point assignments For Configurator versions 2 27 or higher the Point Sets on the left side of the box in the DNP Points Screen are all fixed sets whereas the ones on the right side of the box are all configurable to varying degrees some have 10026 21 DECEMBER 2007 31 Copyright 2007 AREVA T amp D Inc a fixed portion followed by a section where the user can select any of the measurements available in the 70 Series IEDs 10026 21 DEC EMBER 2007 32 Copyright 2007 AREVA T amp D Inc APPENDIX BITRONICS DNP3 POINT ASSIGNMENTS FOR DFC AND BAF POINT SETS Health Health Register Set Meter Type Firmware Version RMS Amps A 1 RMS Amps B 1 RMS Amps C 1 RMS Amps 2 RMS Amps B2 RMS Amps C 2 RMS Volts A 1 12 RMS VoltsB 1 13 RMS Volts 1 14 RMS Volts N 1 15 RMS Volts AB 1 1 RMS Volts BC 1 1 RMS Volts CA 1 1 RMS Volts A2 1 RMS VoltsB2
9. T10 15 1000 99991 AO906 JjXimrRatioDivisorVolls A Setting 1 1000 Muliply by 10 valid values are 1 10 100 1000 AO07 X J XtmrRaioVotsB Mmo Setting 1000 999911 0 08 XfmrRaioDvsorVtsB Tu Setting 1 1000 Muliply by 10 valid values are 1 10 100 1000 09 XfmrRaioVoltsC T10 15 1000 99991 Divisor Volts C Tu Setting 1000 Multiply by 10 valid values are 1 10 100 1000 LAO XfmrRaioVoltsN 0 _ Setting 1000 99991 AO32 JjXtmrRatioDivsorVolls T1 Setting 1 1000 Muliply by 10 valid values are 1 10 100 1000 AO 13 Xfmr Ratio Volts A Bus2 T10 Setting 1000 9999 1 A014 Xfmr Ratio Divisor VoltsABus2_ T11 5 1000 Multiply by 10 valid values are 1 10 100 1000 5 jXfmrRatio Volts BBus2 Setting 1000 99991 6 XtmrRatioDivsorVolls BBus2 T11 09 1 1000 Muliply by 10 valid values are 1 10 100 1000 17 Xfmr Ratio Volts T10 Setting 1000 99991 AO 18 Ratio Divisor Volts C T11 09 1 1000 Muliply by 10 valid values are 1 10 100 1000 9 Xfmr Ratio VotsNBus2 T10 Setting 1000 99991 AO20 Ratio Divis
10. A BITRONICS 70 SERIES Measurement System DNP3 Protocol Manual TABLE OF CONTENTS SERIES Firmware version aaa Iv 70 SERIES MANUAL SET Iv INSTALLATION AND MAINTENANCE an gi cui aaia WARRANTY AND ASSISTANGE u aaa Fangen COPY RIGHT NOTICE Tuch a aa ne mean vi TRADEMARKS a CREE cds vi SAFETY SEG BION Gasen vii TO DNP INTERFACE ausser aaa kann ee a Gd n a rca Fu 1 USB Ss een 1 1 2 lt DNP Address nik 1 13 Transaction Hs sek 2 TAOD ECE FOMA een ee 2 1 4 1 BITRONICS 70 SERIES IEDs DNP3 Point Assignments Configurable SFC Single Feeder eelssBirzie e c ELS 4 142 DNES Calculation TYPE GOdES Hm Eee eek 8 1 5 con dr rb et iin 9 1 5 1 Setting and VT 9 1 5 2 Setting Current and Voltage Scale Factors 9 1 5 2a Scale Factor Voltage Measurement 10 1 5 2b Scale Factor Current Measurement Example 11 1 5 3 Resetting Energy and Demands and Triggering WaVefOrmMs 11 1 92 Tag Register nee 12 1 55 VA Galcilation Type Heglsl
11. FreguenyR2 391 192 RMSVolsB2 194 _ RMS Volts N2 195 Frequency Votsa2 196 j FegenyVotsB2 197 Frequency Volts 2 198 Reserved returns 0 200 Reserved returns 0 201 Reserved returns 0 202 Reserved returns 0 203 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 210 Reserved returns 0 DSP Version Ld 10026 21 DECEMBER 2007 41 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters Protocol Version Time Sync Error msec Using lrigB Time Sync Reserved returns 0 217 Reserved returns 0 218 Reserved returns 0 219 Reserved returns 0 220 Reserved returns 0 221 Reserved returns 0 222 Reserved returns 0 223 Reserved returns 0 224 Reserved returns 0 225 Reserved returns 0 226 Reserved returns 0 __ gs RN 227 Reserved returns 0 228 Reserved returns 0 Reserved retums 0 230 Reserved retums 231 010 0 Input 232 DIO 1 Input 238
12. function using default User Gain 1 values i e w o user gain Unit will continue to User phase correction function using default _ values checksum error values i e w o user User Phase 0 phase Factory defined board ID for Analog Digital Signal Processor Module Volts Ratio 60 1 Amps Ratio 14 136 1 Unit will continue to function using default User 5 5 VT 1 1 Assumes default Analog Digital Signal Module A10 M87x Processor Module checksum error Factory defined board ID umm for Signal Input Module d ans Module Six M87x checksum error User defined denominators for TDD Assumes default TDD TDD Denom 5A measurement checksum Denominator Secondary error 12 DSP program integrity Host trips watchdog unit checksum error reboots 13 Debeka Host trips watchdog unit reboots Invalid or missing Amp 14 and or Voltage Scale El ME OR Scale Factor 1 1 Scale Factor actor m Protocol configuration IED uses default protocol 70 SERIES default invalid configuration register set 10026 21 DECEMBER 2007 15 Copyright 2007 AREVA T amp D Inc 1 9 Diagnostic Status LED The Diagnostic LED is an indicator that shows the communications activity on the DNP port of the 70 SERIES IEDs The Diagnostic LED is a bi color LED red green indicator that is located on the Front Panel Board adjacent to each serial port The Diagnostic LED will flash red every
13. 0 32767 1 32768 150 Volt Scale V A 16 Volts C Bus2 14 32767 1 32768 150 Volt Scale V VotsNBu2 VotScae 32767 1 32768 150 Volt Scale V Alt8 2 4 Of 32767 1 32768 150 Volt Scale V 2 4 Of 32767 1 32768 150 Volt Scale V ___ 2 2 14 jVotScae 32767 1 32768 150 Volt Scale V Volt Scale Volt Scale Volt Scale Al 24 Watts Total T6 Amp Scale Data 32768 32767 1 32768 4500 Amp Scale Volt Scale W Volt Scale Volt Scale Volt Scale Volt Scale Volt Scale Volt Scale Volt Scale Volt Scale Volt Scale ___ JPowrFacorA 1000 10000 001 PowerFactorB 1000 10000001 Al 35 Power Factor C T7 Data 1000 1000 0 001 A 36 jPowerFactorTotalGeometic 17 1000 1000 0 001 JFreqenyVotsA 8 2000 8000 0 01 Hz A38 T8 J 2000 8000001 Hz jrreqenyVotsC 8 2000 8000 0 01 Hz Frequency Volts 2 T8 2000 80000 01 Hz Frequency Volts B Bus2 T8 2000 80000 01 Hz A42
14. 2 RMS Volts 2 2 RMS Volts N 2 2 RMS Volts 2 2 RMS Volts BC 2 2 RMS Volts CA 2 2 RMS Volts R 1 RMS Volts R 2 RMS Watts A 1 RMS Watts B 1 RMS Watts C 1 RMS Watts Total 1 RMS VARs A 1 RMS VARs B 1 RMS VARs C 1 RMS VARs Total 1 RMS VAs A 1 36 RMS VAs B 1 RMS VAs C 1 38 RMS VAs Total 1 39 Power Factor A 1 40 Power Factor B 1 1 11 oo 22 02102 02 DFC Dual Feeder Configurable Analog Inputs Analog Outputs VT 1 Scale Factor VT 1 Scale Factor CT 1 Scale Factor CT 1 Scale Factor VT 2 Scale Factor VT 2 Scale Factor CT 2 Scale Factor CT 2 Scale Factor Xfmr Ratio Volts A 1 Xfmr Ratio Volts A 1 Xfmr Ratio Volts B 1 Xfmr Ratio Volts B 1 Xfmr Ratio Volts C 1 Xfmr Ratio Volts C 1 Xfmr Ratio Volts N 1 Xfmr Ratio Volts N 1 Xfmr Ratio Volts A 2 Xfmr Ratio Volts A 2 Xfmr Ratio Volts B 2 Xfmr Ratio Volts B 2 Xfmr Ratio Volts C 2 Xfmr Ratio Volts C 2 Xfmr Ratio Volts N 2 Xfmr Ratio Volts N 2 Xfmr Ratio Volts R 1 Xfmr Ratio Volts R 1 Xfmr Ratio Volts R 2 Xfmr Ratio Volts R 2 Xfmr Ratio Amps A 1 Xfmr Ratio Amps A 1 Xfmr Ratio Amps B 1 Xfmr Ratio Amps B 1 Xfmr Ratio Amps C 1 Xfmr Ratio Amps C 1 Xfmr Ratio Amps N 1 Xfmr Ratio Amps N 1 Xfmr Ratio Amps A 2 Xfmr Ratio Amps A 2 Xfmr Ratio Amps B 2 Xfmr Ratio Amps B 2 Xfmr Ratio Amps C 2 MLOO26 21 DEC EM BER 2007 33 Copyright 2007 AREVA T amp D Inc DFC Dual Feeder Co
15. 234 DIO 3 Inu DIO 4 Input 236 DIO 5 Input 237 DIO 6 239 Reserved 0 240 Heserved returns O 241 Reserved re Reserved returns O Reserved returns 0 Reserved returns 0 Te Ld returns O 10026 21 DECEMBER 2007 42 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters 246 Heserved returns O Reserved returns 0 248 Reserved returns 0 249 Reserved retums G d 250 Reserved returns 0 RMS Volts A 1 852 RMSVetsBt1 259 RMSVosCt OO 254 Phase Angle RMS Volts A 1 Hamonicot Fp OO 255 Phase Ange RMS Volts B 1 256 Phase Angle RMS VoltsC1Harmonicot 5 RMSAmsAT 25 AMsAmpsCt _ 260 Phase Angle RMS Amps 1 Harmonie 261 Phase Ange RMS AmpsBiHarmonicot oS S S S yO 262 Phase Angle RMS Amps 1 Harmonie 263 20 265 RMS Volts C 2 266 Phase Angle RMS Volts A 2 Harmonic 01 267 Phase Ange RMS VoltsB2Harmonicot 268 Phase Ange RMS Vots C2 269 RMSAmpsA2 270 RMS Amps 2 RMS Amps C 2 zm __ __ 273 PhaseAngeRMSAmpsB2HamonoOt ooo o S S yO P
16. Both COUNTER and ANALOG INPUT objects allow optional flags to be used If a value is requested as variation O the 70 SERIES IEDs respond as if the requested variation was for a 32 bit COUNTER or 16 bit ANALOG INPUT or 16 bit ANALOG OUTPUT STATUS When reading objects the Health Check point object 30 point 0 should always be read and checked before interpreting data since some failure modes will cause erroneous data to be presented See Section 1 8 The majority of the points are represented in Normalized 2 s complement format For conversion of the point data into engineering units please refer to Section 1 6 For specifics concerning the correct command and its implementation users are directed to the M87X or M57X User Manuals for the specific device that will request the data Listed in section 1 4 1 are the point assignments for the 5 70 SERIES IEDs when using the Configurable or Single Feeder Configurable SFC selection used for M571 and M871 Appendix A provides the Legacy or 10026 21 DECEMBER 2007 2 Copyright 2007 AREVA T amp D Inc t 4 BiTRONICS Legacy Fixed point set NOTE The BiITRONICS 70 Series IEDs have a total of up to 6 different point sets depending upon Configurator and fimrware versions Please refer to the 70 Series Configurator DNP Points tab and click on the various options in the Point Set and Points to Display sections to see point assignment
17. Frequency Volts 2 TSB 2000 8000001 Hz System Frequency T8 8000 0 01 Hz Al 44 Phase Angle Volts ABust Bus2 19 jData 1800 1800 0 1 Degrees 10026 21 DECEMBER 2007 5 Copyright 2007 AREVA T amp D Inc BiTRONICS 70 SERIES IEDs DNP3 Point Assignments DNP Point Contents Ind Values Dependencies Type Min 45 Phase Angle Volts Bus1 Bus2 T9 Data 1800 180010 1 Degrees 6 Phase Angle Volts CBust Bus2 T9 1800 180010 1 Degrees da fe n 1 E LEN iG 1 L ee m mere 1 Al50 Phase Angle Volts Harmonic 1 T9 1800 180010 1 Degrees Phase Angle Volts Harmonic 1 19 1800 1800 1 Degrees 52 Phase Angle Volts Harmonic 1 19 1800 1800 0 Degrees pep om 501 M57x Configurable reg AO 00 VA PF Calc Type 1 Setting 1 411 X VVoltScaleFacor Setting 1000 99991 AO92 Scale T1 Setting 1 10000 Multiply by 10 valid values are 1 10 100 1000 03 Amp ScaleFactor 10 Setting 1000 99991 AO04 X JAmpScaleFacorDivso T Setting 1 1000 Muliply by 10 valid values are 1 10 100 1000 AO05 _ xXfmrRaioVoltsA
18. Others Transmission Delay configurable Arm Select Timeout configurable Application Timeout configurable sends Executes Control Operations WRITE Binary Outputs Configurable SELECT OPERATE Configurable DIRECT OPERATE Configurable DIRECT OPERATE Configurable Count gt 1 Pulse On Pulse Off Latch On Latch Off Queue Configurable Clear Queue Never Always Sometimes Never Always Sometimes Never Always Sometimes Never Never Never Never Never L Never I Always 1 Sometimes UL Always L Sometimes Configurable Always Sometimes Configurable Always Sometimes Configurable Always Sometimes Configurable Always Sometimes Configurable Never Always Sometimes Never Always Sometimes L Configurable Attach explanation if Sometimes or Configurable was checked for any operation Reports Binary Input Change Events when no specific variation requested L Never L Only time tagged Only non time tagged Configurable Heports time tagged Binary Input Change Events when no specific variation requested 1 Never Binary Input Change With Time L Binary Input Change With Relative Time Configurable DNP V3 0 DEVICE PROFILE DOCUMENT sends Unsolicited Responses sends Static Data in Unsolicited Responses Never Configurable Never Only certain objects L When Device Restarts sometimes atta
19. value of the Voltage Scale Factor Divisor AO 02 is 1000 Assume a system with a 1 1 VT Ratio If it is desired to change the full scale representation of volts to 300V to accommodate a 208V input for instance change the value of the Normalized Voltage Scale Factor AO 01 to 2000 150 x 2000 _ 300v 32768 1000 VOLTAGE Phase Note that since VscaLe Factor 2 the values represented by the power quantity points will also be doubled Note that the full scale representation of all Voltage measurements will also change The scaling for Power quantities cannot be set independently but will be the product of the Voltage and Current Scale Factors 10026 21 DEC EMBER 2007 10 Copyright 2007 AREVA T amp D Inc 1 5 2b Scale Factor Current Measurement Example Consider a system with a 2000 5 400 1 CT on which it is desired to measure the Phase amperes The Normalized CT Ratio AO 21 would be set to 4000 the CT Ratio Divisor AO 22 to 10 With the default settings for the Current Scale Factor the maximum point value of 32767 would yield Vaue 32767 x 10x 1000 10A 32 68 1000 AMPEREs Phas In other words the integer value for Amperes would be at a maximum with only 10 flowing through the system primary conductors To compensate for this set the Iscate FACTOR equal to the The Normalized Current Scale Factor AO 03 would be set to 4000 and the Current Scale Factor Divisor AO 0
20. 0 3 Reserved returns 0 Reserved returns 0 074 Reserved returns 0 Reserved returns 0 oze Reservedretunso 076 Reserved returns 0 Reserved returns 0 073 Reserved returns 0 10026 21 DECEMBER 2007 37 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters Virtual Status Output Point 1 077 Reserved returns 0 Reserved returns 0 Virtual Status Output Point 2 079 Reserved returns 0 Virtual Status Output Point 3 080 Reserved returns 0 081 System 082 Demand RMS Amps A 1 Demand RMS Amps 1 Demand RMS Amps C 1 085 Demand RMS Amps N 1 BEE Virtual Status Output Point 4 085 Max Demand RMS Amps A 1 087 959 087 _ Max Demand RMS Amps B 1 Virtual Status Output Point 13 088 Max Demand RMS Amps C 1 089 Max Demand RMS Amps N 1 Demand RMS Volts A 1 091 Demand RMS Volts B 1 093 P Virtual Status Output Point 17 P Virtual Status Output Point 18 P Virtual Status Output 096 Max Demand RMS Volts C 1 Virtual Status Output Point 20 097 Max Demand RMS Volts N 1 Virtual Status Output Point 21 9 098 Min Demand RMS Volts A 1 Virtual Status Output Point 099 Min Demand RMS Volts B 1 po Virtual Status Output Point 28 Virtual Status Output Point 14 Virtual Status Output Point 15 Virtual Status Output Point 16 Min Demand RMS V
21. 100 1000 Example X XXX stored as 1000 XX XX stored as 100 XXX X stored as 10 T12 Signed 16 Bit 2 s Complement Saturation 2 Gain Value Integer Value 16384 Example 0 250 stored as 4096 T13 Unsigned 16 Bit Integer 12 Bit Offset Binary Saturation 10 Float Value Integer Value 2047 2048 Scale 10 Example 5 0 A stored as 3071 when Amp Scale 1 1 T14 Unsigned 16 Bit Integer 12 Bit Offset Binary Saturation 150 Float Value Integer Value 2047 2048 Scale 150 Example 119 97 stored as 3685 when Volt Scale 1 1 T15 Unsigned 16 Bit Integer 12 Bit Offset Binary Saturation 1000 Float Value Integer Value 2047 2048 Scale 1000 Example 500 W stored as 1023 when Volt Scale 1 1 Amp Scale 1 1 T16 Unsigned 16 Bit Integer 12 Bit Offset Binary Saturation 3000 Float Value Integer Value 2047 2048 Scale 3000 Example 349 10 kW stored as 3040 when Volt Scale 6 1 Amp Scale 40 1 17 Unsigned 16 Bit Integer 12 Bit Offset Binary Saturation 15 Float Value Integer Value 2047 2048 Scale 15 Example 11 79 A stored as 2369 when Amp Scale 5 1 T18 Unsigned 16 Bit Integer 12 Bit Offset Binary 1 Decimal Place Float Value Integer Value 2047 10 Example 121 4 degrees stored as 3261 T19 Unsigned 16 Bit Integer 12 Bit Offset Binary 3 Decimal Place Float Value Integer Value 2047 1000 Example 0 978 Power Factor stored as 3
22. 2007 V Copyright 2007 AREVA T amp D Inc ee 56 E Percyn COPYRIGHT NOTICE This manual is copyrighted and all rights are reserved The distribution and sale of this manual is intended for the use of the original purchaser or his agents This document may not in whole or part be copied photocopied reproduced translated or reduced to any electronic medium or machine readable form without prior consent of AREVA except for use by the original purchaser The product described by this manual contains hardware and software that is protected by copyrights owned by one or more of the following entities AREVA T amp D Inc 261 Brodhead Road Bethlehem PA 18017 VentureCom Inc Five Cambridge Center Cambridge MA 02142 SISCO Inc 6605 192 Mile Road Sterling Heights MI 48314 1408 General Software Inc Box 2571 Redmond WA 98073 Schneider Automation Inc One High Street North Andover MA 01845 Triangle MicroWorks Inc 2213 Middlefield Court Raleigh NC 27615 Greenleaf Software Inc Brandywine Place Suite 100 710 East Park Blvd Plano TX 75074 TRADEMARKS The following are trademarks or registered trademarks of AREVA Inc AREVA the AREVA logo BITRONICS PowerPlex Triplex Triple Il MultiComm PowerServe SubCycle Technology SubCycleStuf The following are trademarks or registered trademarks of the DNP User s Group DNP DNP3 The following are trademarks or registered trademarks of the Electric Power Res
23. 40 variation 2 object DNP MASTER devices can read these points or modify their value via the ANALOG OUTPUT BLOCK object 41 variation 2 command Digital Outputs and all other pseudo output points such as demand and energy resets are reported using the BINARY OUTPUT STATUS object 10 variation 2 BINARY OUTPUTS can be PULSED PULSED OFF or LATCHED ON and LATCHED OFF by using the CONTROL RELAY OUTPUT BLOCK object 12 variation 1 command The 70 SERIES IEDs are capable of reporting BINARY INPUT CHANGE object 02 variations 1 and 2 events with and without time and ANALOG CHANGE EVENTS object 32 variations 2 and 4 with and without time Any BINARY INPUT can be configured to report as a CLASS 1 CLASS 2 or CLASS 3 BINARY INPUT CHANGE event and any ANALOG INPUT can be configured to report as a CLASS 1 CLASS 2 or CLASS 3 ANALOG CHANGE EVENT Point Class Analog Deadband Values and Object Variation are all selectable by use of the BITRONICS 70 SERIES configuration utility software The Object Variations are selectable by Object not by point All ANALOG CHANGE EVENTS can be configured to report with or without time and all BINARY INPUT CHANGE objects can be configured to report with or without time The DNP protocol allows each device to determine the best method of data transfer The 70 SERIES IEDs support this by selecting the most appropriate response variation when either the requested variation is 0 or a CLASS 0 read is requested
24. Scale 1 32768 1 32768 1 32768 1 32768 1 32768 1 32768 1 32768 1 32768 1 32768 1 32768 o 32757 9 379 are ots 9 9 mca 9 9 asa venesse 9 379 9 3767 x m S 9 E B0 06 DIO Output Point 1 2 an DIO 0 Output Point 2 1 H BO 08 DIO 0 Output Point T22 0 Setting 0 1 1 epe ee en D pes DIO 0 Output Point 5 Loy Relay Off 1 4 Relay Energized BO 11 DIO 0 Output Point 6 T22 0 Relay Off 2 Setting 1 H BO 12 DIO 0 Output Point 7 T22 0 Relay Of Setting 1 H 13 DIO 0 Output Point 8 22 Setting 1 H 3 Element L N 2 Element L L 221 280 16 Log Interval Setting 720 720 i min lt lt lt lt lt lt lt lt MLOO26 21 DEC EM BER 2007 29 Copyright 2007 AREVA T amp D Inc BiTRONICS Legacy DNP3 Po
25. amp D Inc BEFORE OPERATE object The DNP function code WRITE is also supported by the 70 SERIES IEDs A 70 SERIES IED will attempt to respond with the same object variation and qualifier as in the request Exceptions to this rule include changing variation 0 to a specific variation and changing qualifier code 6 to 0 or 6 to 1 10026 21 DECEMBER 2007 18 Copyright 2007 AREVA T amp D Inc 3 0 DNP3 over ETHERNET TCP If the 70 SERIES IED is equipped with one of the Ethernet options then it will respond to DNP3 commands via The 70 SERIES IEDs can simultaneously support DNP3 Modbus and 2 protocols over the Ethernet link The table below lists port assignments for all Ethernet based protocols supported by the 70 Series PROTOCOL PORTNUMBER 20000 TEP UDP recommend passive mode 502 TCP 3 1 DNP IP The DNP IP DNP Over TCP IP and DNP Over UDP IP interface allows up to 16 DNP Masters to communicate with the 70 SERIES IEDs Each remote IP host Client may communicate with the 70 SERIES Server or TCP A Client may have multiple DNP Master addresses Each Client has a distinct set of DNP Master addresses Up to five filters for acceptable remote addresses may be set up these may include wild cards The 70 SERIES IEDs reject requests from an IP address that is not included in the filter list Any DNP Master address will be accepted Any DNP Slave address will be accepted with the res
26. divided by 1 000 If the user desires MEGAWATTS or MEGAVARS the answers given by the equations should be divided by 1 000 000 Energy values are in units of KWh or KVARh 10026 21 DECEMBER 2007 13 Copyright 2007 AREVA T amp D Inc 1 7 Data Sets and Data Types The 5 70 SERIES IEDs are shipped with a pre defined set of data points and data types These fixed points do not change but may be augmented by adding additional points and their data type from the master listing The List of Available Measurements may be found in the User Manual The 70 SERIES Configurator is required to modify the data points For users who wish to use the 70 SERIES IEDs on systems configured for other BITRONICS products a Legacy point list may be selected When selected the Legacy point list will be substituted for the 70 SERIES IEDs fixed data points This Legacy list cannot be modified and will cause the 70 SERIES IEDs to emulate the response of a BITRONICS MultiComm or PowerPlex unit To use the 70 SERIES IEDs with a BITRONICS Analog Output Converter model NAO8103 or NAO8104 it will be necessary to select the Legacy point list 1 7 1 Configuring the Class 0 Response The Class 0 request is essentially a request to give all data Since the 70 SERIES IEDs is capable of providing a vast amount of data provisions have been made to limit the response to this request The 70 SERIES Configurator is required to change the Class 0 re
27. ease of installation and maintenance As with any product of this nature installation and maintenance can present electrical hazards and should be performed only by properly trained and qualified personnel If the equipment is used in a manner not specified by AREVA the protection provided by the equipment may be impaired WARRANTY AND ASSISTANCE This product is warranted against defects in materials and workmanship for a period of thirty six 36 months from the date of their original shipment from the factory Products repaired at the factory are likewise warranted for eighteen 18 months from the date the repaired product is shipped or for the remainder of the product s original warranty whichever is greater Obligation under this warranty is limited to repairing or replacing at our designated facility any part or parts that our examination shows to be defective Warranties only apply to products subject to normal use and service There are no warranties obligations liabilities for consequential damages or other liabilities on the part of AREVA except this warranty covering the repair of defective materials The warranties of merchantability and fitness for a particular purpose are expressly excluded For assistance contact AREVA T amp D at Telephone 610 997 5100 Fax 610 865 0340 Email info bitronics areva td com Website www areva td com Shipping 261 Brodhead Road Bethlehem PA 18017 8698 USA 10026 21 DECEMBER
28. is responsible for reliably maintaining connectivity between two devices The application layer defines standardized messages that flow between devices DNP further defines an extra layer known as the transport layer that allows very long messages to be broken down into smaller pieces 2 3 DNP Request Response Overview The 70 SERIES IEDs DNP implementation supports a wide variety of messages The most general method to extract information from a 70 SERIES IED is to issue a READ CLASS 0 request DNP devices respond with the points to be returned in the Class 0 response See Section 1 71 for more details on Class O configuration This allows the MASTER to retrieve all readings from the instrument and determine whether the output points are online i e whether energy demand resets or ratio setup requests can be honored The 70 SERIES IEDs also allow READs of individual objects specifying all points variation 6 or individual points other variations The 70 SERIES IEDs execute the energy clear function and demand resets using the DIRECT OPERATE DIRECT OPERATE NO ACKNOWLEDGE or SELECT BEFORE OPERATE functions to the CONTROL RELAY OUTPUT BLOCK object points CT PT ratio setups are made via DIRECT OPERATE DIRECT OPERATE NO ACKNOWLEDGE or SELECT BEFORE OPERATE to the ANALOG OUTPUT BLOCK object points Configuration setups are also made via the DIRECT OPERATE DIRECT OPERATE NO ACKNOWLEDGE or SELECT 10026 21 DECEMBER 2007 17 Copyright 2007 AREVA T
29. s complement format can be changed by means of the Current Scale Factor and Voltage Scale Factor IscaLe rFacron and Vscate Factor Which are modified by writing to the Normalized Scale Factor and Scale Factor Divisor AO 01 to AO 04 points These Current Scale Factor and Voltage Scale Factor values are multipliers of the Default Full MLOO26 21 DEC EM BER 2007 9 Copyright 2007 AREVA T amp D Inc Scale values To convert values reported in DNP points to engineering units refer to Section 1 6 The default full scale values for quantities are Quantity Default Full Scale Phase Current _ Namalized Current Sale Fata 03 SCALE FACTOR Currant Sae Fata AO 04 SCALE FACTOR Vdtage Sale Fata Dinar AO 02 The Current and Voltage Scale Factors are written to points AO 01 through AO 04 and are stored in non volatile memory on the Host CPU Board Each Scale Factor is stored in two points one for the Normalized Scale Factor and the other for the Scale Factor Divisor Allowable constants for Normalized Scale Factors are 1000 to 9999 The Scale Factor Divisors may be 1 10 100 or 1000 only WARNING TO PRESERVE SYSTEM PERFORMANCE ONLY WRITE TO RATIO REGISTERS WHEN THE RATIOS NEED TO BE CHANGED 1 5 2a Scale Factor Voltage Measurement Example For example the default full scale value of voltage points 07 to 20 is 150V the default value of the Normalized Voltage Scale Factor AO 01 is 1000 and the default
30. the various self tests are described in the User Manual The following table lists possible faults that would be detected by the self tests how the fault is indicated the effects of the fault and any necessary corrective actions 10026 21 DECEMBER 2007 14 Copyright 2007 AREVA T amp D Inc Bit Description Effect Default Value Unit will continue to function using default values at reduced Factory gain calibration of O LSB Analog Digital Signal Processor checksum error A D Gain 1 accuracy Factory offset calibration Unit will continue to of Analog Digital Signal function using default Processor Module values at reduced checksum error accuracy Unit will continue to function using default Gain 1 A D Offset 0 Factory gain calibration of Sianal Input Module 9 values at reduced checksum error accuracy Factory offset calibration an 0 nee values at reduced Offset 0 Factory phase calibration Unit will continue to of Signal Input Module Unetion using default CT VT Phase 0 values at reduced Factory defined internal ratios of Signal Input Unit will continue to Module checksum error function Assumes 510 Type of Signal Input Signal Input Module Module User defined external transformer ratio checksum error values i e w o user ratios User gain correction Unit will continue to values checksum error _
31. 0 Scale T2 32767 AI 03 Amps B Amp Scale Data 0 32767 1 32768 0 Scale 1 32768 10 Scale 1 32768 15 Scale L4 A 04 AmsC 0 32767 10026 21 DECEMBER 2007 4 Copyright 2007 AREVA T amp D Inc il 1 Fa 1 gt gt gt gt LADO Amp Scale ol 32767 BiTRONICS 70 SERIES IEDs DNP3 Point Assignments DNP Point Contents Scale Ind Values Dependencies Type Step Amps Residual T3 Amp Scale Data 0 32767 1 32768 15 Amp Scale ALO VoltsA 4 0 32767 1 32768 150 Volt Scale V 4 jVotScae 0 32767 1 32768 150 Volt Scale V X VodttC 4 VotScae A O 32767 1 32768 150 Volt Scale V ALO 5 4 Volt Scale Of 32767 1 32768 150 Volt Scale V jVodtsAB 4 WotSce 0 32767 1 32768 150 Volt Scale V A 12 VotsBC 4 jVotScae 0 32767 1 32768 150 Volt Scale V 4 VotScae A 0 32767 1 32768 150 Volt Scale V AL i4 jVotsABu2 4 VotScae 0 32767 1 32768 150 Volt Scale V ALIS jVotsBBus2 4 VotScae
32. 0 Completed 056 RMSVAsA2 Reserved returns 0 Reserved returns 0 AnyRecorerCompeted 057 RMSVASB2 Reserved returns Reserved returns 0 Trigger WR1 Recorder o58 RMSVAsC2 Reserved returns 0 Reserved returns 0 Trigger WR2Recorder 059 RMSvAsT2 Reserved returns Reserved retums 0 Trigger DR1 Recorder Power Factor A 2 Reserved returns 0 Reserved returns 0 Trigger DR2 Recorder 061 Reserved returns 0 062 Config Register 2 Reserved returns 0 Reserved returns 0 PY 063 PowerFactorT2 Tag Register Reserved 0 Reserved returns 09 RMS VARs A2 Reserved returns 0 Virtual Status Input 29 DR1 Recorder Started PY System Frequenc Reserved returns 0 Reserved returns 0 064 065 Reserved for System Frequency2 Reserved returns Reserved returns 0 066 Reserved returns 0 P Reserved retums0 Reserved retums 0 P Reserved returns 0 Reserved retums0 Reserved retums 00000 070 Heserved returns O Reserved returns 0 Reserved returns 0 071 Reserved retums o Tooo returns Reserved returns 0 pO Reserved SS 067 Reserved returns 0 068 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns
33. 025 Unsigned 16 Bit Integer Bit Control Status DE stored as zero 1 stored as 65536 T21 Unsigned 16 Bit Integer 3 Decimal Places DE amp 54 321 stored as 54321 T22 Example 1 bit is set O bit is clear 10026 21 DEC EMBER 2007 8 Copyright 2007 AREVA T amp D Inc 1 5 Configuration 1 5 1 Setting CT and VT Ratios The 5 70 SERIES IEDs are capable of internally storing and recalling CT and VT ratios The CT and VT ratios are written to ANALOG OUTPUTS over the DNP communication port and are stored in non volatile memory on the CT VT Module Each ratio is stored in two points one for the Normalized Ratio and the other for the Ratio Divisor Allowable constants for the normalized ratios are 1000 to 9999 The Ratio Divisors may be 1 10 100 or 1000 only The number stored will be the high side rating of the CT Ratio or VT Ratio Both a 500 5 ratio CT and a 100 1 CT will have a value of 100 stored For example to calculate a CT and VT ratio for Phase A from the data stored in the 70 SERIES IEDs use the following equation Phase A CT Vaue AO 21 Phase A CT Ratio Diviax 22 Phase A VT Value AO 05 Phase A VT Ratio Diviar 06 Phase Phase A VT jio The 70 SERIES IEDs calculate all measured quantities in primary units unlike other BITRONIC
34. 4 to 10 If the maximum value of 32767 is returned in point Al 02 it is converted to Amperes as follows Value 32767 10x 4000 _ 4000A AMPEHEs Phase A 32768 x 10x 32768 10 If it is known that the maximum current on the circuit is not this high and it is desired to set the full scale representation to 1200A for added resolution the Normalized Current Scale Factor AO 03 could be set to 1200 and the Current Scale Factor Divisor AO 04 to 10 The maximum value returned 32767 would then be equal to Value 32767 1200 AMPEREs Phas x 10 x 1200A 32 68 10 1 5 3 Resetting Energy and Demands and Triggering Waveforms The Energy and Demand registers can be reset by issuing a CONTROL RELAY OUTPUT BLOCK to the appropriate BINARY OUTPUT Issuing a CONTROL RELAY OUTPUT BLOCK to a Trigger BINARY OUTPUT will trigger Waveform or Disturbance Record The 70 SERIES IEDs will store the record in the next available slot All of these registers are user defined they are not part of the default 70 SERIES IED register set Reset Trigger Functions Reset Demand Harmonic Trigger Waveform Recorder Trigger Disturbance Recorder 1 Trigger Disturbance Recorder 2 10026 21 DEC EMBER 2007 11 Copyright 2007 AREVA T amp D Inc 1 5 4 Tag Register The 70 SERIES IEDs provide a TAG BINARY OUTPUT for user identification purposes An ANALOG OUTPUT BLOCK can be issued to this point to write a number fro
35. 500 Amp Scale Volt Scale vars Volt Scale Al 50 m Demand Max VARs Total Amp Scale 32768 32767 1 32768 4500 Amp Scale Volt Scale vars Volt Prae Demand Min VARs Total 32767 1 32768 4500 Amp Scale Volt Scale vars Al 52 m Demand VAs Total LE Amp Scale T 32767 1 32768 4500 Amp Scale Volt Scale VAs Volt Scale Al 53 NE Demand Max VAs Total Amp Scale 32767 1 32768 4500 Amp Scale Volt Scale VAs Volt Scale nud 54 EE Ld Min VAs Total Amp Scale Data 32767 1 32768 4500 Amp Scale Volt Scale VAs Volt Scale 55 T1 400 M87x Legacy register set Data 502 0 402 M87x Configurable reg 500 M57x Legacy register set M57x Configurable reg Factory Version Software 65536 0 001 1 32768 150 Volt Scale 1 32768 150 Volt Scale 1 32768 150 Volt Scale 1 32768 150 Volt Scale V 1 32768 4500 Amp Scale Volt Scale W JA Demand Max Volts A T4 VotScale 0 32767 1 32768 150 Volt Scale 10026 21 DEC EMBER 2007 28 Copyright 2007 AREVA T amp D Inc BiTRONICS Legacy DNP3 Point Assignments DNP Point Contents 5 5 150 Volt 150 Volt 150 Volt Scale 150 Volt Scal 150 Volt Scal 150 Volt Scale 150 Volt Scal 150 Volt Scale 150 Volt Scale 150 Volt
36. 767 32767 32767 32767 9999 1000 9999 1000 9999 1000 9999 1000 9999 1000 1 32768 150 Volt Scale 1 32768 150 Volt Scale 1 32768 150 Volt Scale 1 32768 150 Volt Scale 1 32768 150 Volt Scale V 1 32768 150 Volt Scale V 1 32768 150 Volt Scale V 1 32768 150 Volt Scale 1 32768 150 Volt Scale V 1 Multiply by 10 valid values are 1 10 100 1000 1 Multiply by 10 valid values are 1 10 100 1000 1 Multiply by 10 valid values are 1 10 100 1000 1 Multiply by 10 valid values are 1 10 100 1000 1 Multiply by 10 valid values are 1 10 100 1000 Copyright 2007 AREVA T amp D Inc HELELELELELEL EE ELT E BiTRONICS Legacy DNP3 Point Assignments DNP Point Contents 5 i Max Step Acer Xm Rato vonsB Buse 1000 999 mravce m 100 999 mRaevosNEw2 100 56 WmRaoAwsn ro 100 999 os WmRaoAwsB 1000 9999 mRaoAwsc 100 9 AO 39 Xfmr Ratio Amps N T10 Setting 1000 9999 11 A042 aim Ratio Divsor Von O Satna 1000 98 Am Rate Divsor Von Amand Setting 1000 ee AO 46 Xfmr Ratio Divisor Future Use T11 Setting 1000 9999 1
37. Bit Integer T2 Signed 16 Bit Integer 2 s Complement Saturation 10 Float Value Integer Value 32768 Scale 10 Example 5 0 A stored as 16384 when Amp Scale 1 1 T3 Signed 16 Bit Integer 2s Complement Saturation 15 Float Value Integer Value 32768 Scale 15 Example 150 A stored as 16384 when Amp Scale 20 1 T4 Signed 16 Bit Integer 2 s Complement Saturation 150 Float Value Integer Value 32768 Scale 150 Example 119 998 V stored as 26214 when Volt Scale 1 1 T5 Signed 16 Bit Integer 2 5 Complement Saturation 1500 Float Value Integer Value 32768 Scale 1500 f Example 750 0 W stored as 16384 when Volt Scale 1 1 Amp Scale 1 1 Signed 16 Bit Integer 2 s Complement Saturation 4500 Float Value Integer Value 32768 Scale 4500 1 4 Example 90 0 kW stored as 8192 when Volt Scale 20 1 Amp Scale 4 1 16 Bit Integer 2 s Complement 3 Decimal Places BEEN 12 345 stored as 12345 T8 Signed 16 Bit Integer 2 s Complement 2 Decimal Places Example 123 45 stored as 12345 T9 Signed 16 Bit Integer 2 s Complement 1 Decimal Place Example 1234 5 stored as 12345 T10 Unsigned 16 Bit Integer Normalized Ratio ratio Normalized Ratio Ratio Divisor Example 1 234 12 34 123 4 and 1234 are all stored as 1234 T11 Unsigned 16 Bit Integer Ratio Divisor ratio Normalized Ratio Ratio Divisor valid Ratio Divisors are 1 10
38. C 1 R2 a Phase Angle RMS Amps A 1 Harmonic 01 Reserved returns 0 84 Phase Angle RMS Amps B 1 Harmonic 01 Reserved returns 0 Phase Angle RMS Amps C 1 Harmonic 01 Reserved returns 0 10026 21 DEC EMBER 2007 34 Copyright 2007 AREVA T amp D Inc DFC Dual Feeder Configurable Analog Inputs Analog Outputs Phase Angle RMS Amps A 2 Harmonic 01 Reserved returns 0 Phase Angle RMS Amps B 2 Harmonic 01 Reserved returns 0 Phase Angle RMS Amps C 2 Harmonic 01 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Phase Angle RMS Volts A 1 Harmonic 01 Reserved returns 0 Phase Angle RMS Volts B 1 Harmonic 01 Phase Angle RMS Volts 1 Harmonic 01 Phase Angle RMS Volts A 2 Harmonic 01 Phase Angle RMS Volts B 2 Harmonic 01 Phase Angle RMS Volts 1 Harmonic 01 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 m 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 Reserved returns 0 ee a co 110 BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Bin
39. INPUT that is assigned to a CLASS 1 CLASS 2 or CLASS 3 Data Object changes by more than its configured DEADBAND value since the last time it was reported Once the ANALOG INPUT s value changes by more than the configured DEADBAND the specific ANALOG INPUT point number and the new value are placed in the ANALOG CHANGE EVENT BUFFER as an ANALOG CHANGE EVENT BITRONICS 70 SERIES IEDs can be configured to report The ANALOG CHANGE EVENT Data Object in one of two Variations either 16 BIT ANALOG CHANGE EVENT WITHOUT TIME object 32 variation 2 or 16 BIT ANALOG CHANGE EVENT WITH TIME object 32 variation 4 All ANALOG CHANGE EVENTS will be reported with the same configured VARIATION The default ANALOG CHANGE EVENT 10026 21 DECEMBER 2007 22 Copyright 2007 AREVA T amp D Inc variation with or without time can be set using the 70 SERIES Configurator utility software The Configurator software is also used set the DEADBAND value for each configured ANALOG CHANGE EVENT The BITRONICS 70 SERIES IEDs allocate the ANALOG CHANGE EVENT BUFFER size based on the number of configured DNP3 ANALOG INPUTs The buffer size is equivalent to one more than number of configured ANALOG INPUTS For example a 70 SERIES IED with sixty four ANALOG INPUTs would be able to buffer sixty five ANALOG CHANGE events If the buffer size is exceeded prior to being emptied by the CLASS poll the oldest ANALOG CHANGE event is purged from the buffer and is lost in order to mak
40. Negative power factors indicate that the VARs are positive The sign of the Power Factor is the inversion of the Exclusive OR of the Watts and VARs if either or both of the Watts VARs are negative then the Power Factor will be negative 10026 21 DEC EMBER 2007 12 Copyright 2007 AREVA T amp D Inc EQUATIONS for Fixed Data Point Set _ 2 Currant Sale Fata AO 03 SCALEFACTOR ent Sde Fata AO 04 _ 2 Voltage Sale Fata AO 01 SCALE FACTOR Vatage Sale Fata AO 02 Vaue AMPERES ing Darra Max 32768 x 10 I scale FACTOR Value AMPERES ing Max 32768 X 15 FACTOR Vaue VOLT Sing Darra Min Mad 32768 150 x FACTOR Value WATT S VARS ing Max 32768 4500 x schaue l scALE FACTOR Vaue WATTS VARS VAS pep 32768 1500 x X scare kWh kVARh Value FREQUENCY Value Pre Lag Leu Vaue PHASE DIFFERENCE LineLexdngR ef 10 All quantities reported in Primary Values To force the 70 SERIES IEDs to report in secondary units set the Scale Factor to the CT or VT ratio as appropriate The above equations provide answers in fundamental units VOLTs AMPs WATTs VARs VAs and Hz the user desires other units such as KILOVOLTS KILOWATTS or KILOVARS the answers given by the equations should be
41. OUNTER values The BINARY COUNTER values for energy values will by default always match the energy measurements stored in the BITRONICS 70 Series IED database This ensures that the energy measurements will always be reported the same regardless of protocol port or master device A hidden protocol configuration mode can be changed that modifies the way the FREEZE AND CLEAR command works If the mode is changed the BITRONICS 70 Series IED will clear out the associated running counter and BINARY COUNTER when the FREEZE AND CLEAR command is issued When BiTRONICS 70 Series IEDs are configured to operate in this mode and one DNP3 master issues a FREEZE AND CLEAR command the energy measurements read from the BINARY COUNTERs will not longer match the energy measurements read by any other master DNP3 Modbus ModbusPlus UCA communicating with the same instrument In this mode the BINARY COUNTERs will initialized and synchronized to the true energy measurements until the first FREEZE AND CLEAR command After the first FREEZE AND CLEAR command synchronization to the true energy measurements Is lost All FROZEN COUNTERS are volatile As previously mentioned the FROZEN COUNTERS are initialized to zero at start up Any FROZEN COUNTERS that are part of a re started communication session are initialed to zero as well Any values frozen but not read prior to the BITRONICS 70 Series IED restarting or that were not read prior to the communication session clo
42. S instruments MultiComm and PowerPlex The CT and VT ratio information is used to calculate these primary values To force the 70 SERIES IEDs to report in secondary units set the Scale Factor to the CT or VT ratio as appropriate Note The Full Scale Integer Value of current and voltage reported by the 70 SERIES IEDs over DNP can be changed see Section 1 5 2 In the event of a CT VT Ratio Checksum Failure the value in the Normalized CT Ratio and Normalized VT Ratio points default to 1000 and the value in the CT Ratio Divisor and VT Hatio Divisor default to 1000 This results in a 1 1 CT Ratio and 1 1 VT Ratio WARNING TO PRESERVE SYSTEM PERFORMANCE ONLY WRITE TO RATIO REGISTERS WHEN THE RATIOS NEED TO BE CHANGED 1 5 2 Setting Current and Voltage Scale Factors As detailed in Section 1 6 the data in the 70 SERIES IEDs DNP points is in Normalized 2 s complement format Measurements presented in this format do not have as much resolution as the 70 SERIES IED s internal floating point values Because of the wide dynamic range of the device inputs the default full scale integer representation of measurement values is a compromise that has been selected to accommodate typical system signal levels while giving reasonable resolution Ihe maximum or full scale integer value that can be reported corresponds to some particular level of Amperes Volts Watts etc The maximum full scale integer value of Amperes and Volts in the Normalized 2
43. STER to selectively request data from any other device DNP uses the address 65535 for broadcast functions Broadcast requests NEVER generate DNP responses The DNP implementation in the 70 SERIES IEDs conforms to all of the Harris IED Intelligent Electronics Devices implementation guidelines All data items that are available from the BITRONICS 70 SERIES IEDs can be obtained via the DNP READ CLASS 0 command Individual items can also be read using READ BINARY OUTPUT STATUS or READ ANALOG INPUT or READ COUNTER or READ BINARY INPUT STATUS or READ ANALOG OUTPUT STATUS commands The Energy values can be reset to zero by issuing the DIRECT OPERATE DIRECT OPERATE NO ACKNOWLEDGE or SELECT BEFORE OPERATE by using the CONTROL RELAY OUTPUT BLOCK object The Demand values can be reset by issuing the same DIRECT OPERATE DIRECT OPERATE NO ACKNOWLEDGE or SELECT BEFORE OPERATE command to the other points of this object Waveform and Disturbance Records can be triggered and digital outputs on the optional Digital Module can be activated and cleared using these commands The CT and PT ratios Current and Voltage Scale Factors and various other configuration parameters can be changed by issuing DIRECT OPERATE DIRECT OPERATE NO ACKNOWLEDGE or SELECT BEFORE OPERATE by using the ANALOG OUTPUT BLOCK object Due to the limited number of FLASH write cycles scale factors SHOULD NOT be written continuously Refer to Section 1 5 for more inf
44. T 1 Xfmr Ratio Amps B 2 Virtual Status Input 16 Reserved returns 0 RMS VAs A 1 Xfmr Ratio Amps C 2 Virtual Status Input 17 Reserved returns 0 5 VAsB 1 Xfmr Ratio Amps 2 Virtual Status Input 18 Reserved returns 0 PY RMS VAs C 1 8 039 2 Virtual Status Input 19 Reserved returns 0 Reserved for Xfmr Ratio Amps N 040 RMS VAs T 1 2 Virtual Status Input 20 Reserved returns 0 041 Power Factor A 1 Xfmr Ratio Volts R 1 Virtual Status Input 21 Reset Energ 042 PowerFadorBi Xfmr Ratio Volts R1 Virtual Status Input22 Reset Demand Amps 043 Power Factor C 1 Xfmr Ratio Volts R 2 Virtual Status Input 23 Reset Demand Volts 10026 21 DEC EMBER 2007 36 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters 044 Power Factor T 1 Xfmr Ratio Volts 2 Virtual Status Input 24 Heset Demand Power RMS Watts A 2 Reserved returns 0 Virtual Status Input 25 Reset Demand Harmonic 046 RMS Watts 2 Reserved returns 0 Virtual Status Input 26 Parameters RMS Watts 2 Reserved returns 0 Virtual Status Input 27 Recorder Started RMS Watts T 2 Reserved returns 0 Virtual Status Input 28 WR2 Recorder Started 049 Reserved retums 0 054 Reserved retums 0 Reserved retums 0 Reserved retums0 DR1 Recorder Completed us eene em I 055 Meter Type Reserved returns 0 Reserved returns
45. ary Outputs Counters 00 Health VT 1 Scale Factor Reserved returns O DIO 0 Status Output Point 1 Heartbeat Health VT 1 Scale Factor Reserved returns 0 DIO 0 Status Output Point 2 KWatt1 Hrs Normal 002 Hegister Set CT 1 Scale Factor Reserved returns 0 010 0 Status Output Point KWatt1 Hrs Reverse MF 04 0 Firmware Version 2 Scale Factor Reserved returns 0 DIO 1 Status Output Point 1 KVAR1 Hrs Lead 005 RMS Volts A 1 VT 2 Scale Factor Reserved returns 0 DIO 1 Status Output Point 2 KWatt2 Hrs Normal 006 RMS VoltsB 1 CT 2 Scale Factor Reserved returns 0 DIO 1 Status Output Point 3 KWatt2 Hrs Reverse RMS VoltsC 1 CT 2 Scale Factor Reserved returns 0 DIO 1 Status Output Point 4 KVAR2 Hrs Lag 008 RMS Volts N 1 VA PF Calc Type Reserved returns 0 DIO 2 Status Output Point 1 KVAR2 Hrs Lead RMS Volts R 1 Xfmr Ratio Volts A 1 Reserved returns 0 DIO 2 Status Output Point 2 Reserved returns 0 010 RMS Volts R2 Xfmr Ratio Volts A 1 Reserved returns 0 DIO 2 Status Output Point 3 Reserved returns 0 10026 21 DEC EMBER 2007 35 Copyright 2007 AREVA T amp D Inc RMS Volts AB 1 Xfmr Ratio Volts B 1 Reserved returns 0 DIO 2 Status Output Point 4 Reserved RMS Amps C 1 Xfmr Ratio Volts N 1 Reserved BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters returns O RMS Volts BC 1 Xfmr Ratio Volts B 1 Reserved returns 0 DIO 3 Statu
46. between a master and slave device he electrical connection between devices is known as a bus In DNP two types of devices attach to the bus master and slave devices A master device issues commands to slaves A slave device such as a BITRONICS 70 SERIES IED issues responses to master commands that are addressed to them Each bus must contain exactly one master and may contain as many slaves as the electrical standards permit All devices on a bus must operate according to the same electrical standards i e all must be RS 232C or all must be RS 485 RS 232C standards specify that only two devices may be connected to a bus i e only one slave is allowed RS 485 specifications allow up to 32 devices 31 slaves on a bus Detailed information regarding DNP 3 0 is available in a document titled Basic 4 Document Set which can be obtained from the DNP Users Group The remainder of this chapter provides a brief overview of the protocol as implemented in the 70 SERIES IEDs 2 2 Overall Protocol Structure DNP is a 3 layer protocol based upon the standard IEC 870 5 Telecontrol Equipment and Systems Transmission Protocols The three layers comprise the Enhanced Performance Architecture EPA and is a subset of the more familiar ISO OSI 7 layer protocol The three layers are the physical data link and application layers The physical layer is responsible for transmission of raw 8 bit bytes octets across the network medium The data link layer
47. ble provides the most recent firmware and software versions For best results the Configurator version used should match with the firmware version A complete list of firmware and software versions is provided on the 70 Series Utilities CD Firmware Versions Bios DSP Host Description Version Firmware Firmware Configurator M870 Family Mx7x Product Release New Hardware supported Dual Bus Analog I O 2 1 3 0 1 210 2 050 2 31 2 43 03 24 06 Mx7x Updated Release 2 1 30 2 060 04 14 06 Mx7x Updated Release 2 1 3 0 1 240 2 120 10 01 06 M87x Updated Release 2 1 3 0 1 240 2 150 12 18 06 41 52 M87x Product Release Fault Location Adjustable Sample Rate 3 4 1 30 2 170 2 43 2 56 12 21 07 H10 H11 Utilities Release CD Date 70 SERIES MANUAL SET MLOO21 M87X User Manual MLOO32 57 User Manual MLOO22 70 SERIES UCA Object Model MLO024 70 SERIES Modbus Plus Module amp Protocol MLO0025 70 SERIES Modbus Protocol MLOO26 70 SERIES DNP3 Protocol ML0027 M870D Remote Display Manual MLOO33 M570Dx Remote Display Manual 10026 21 DECEMBER 2007 iv Copyright 2007 AREVA T amp D Inc E cun CERTIFICATION AREVA certifies that the calibration of our products is based on measurements using equipment whose calibration is traceable to the United States National Institute of Standards Technology NIST INSTALLATION AND MAINTENANCE AREVA products are designed for
48. ch explanation L When Status Flags Change ENABLE DISABLE UNSOLICITED Function codes No other options are permitted Supported Default Counter Object Variation Counters Roll Over at No Counters Reported No Counters Reported Configurable Configurable attach explanation Default Object 20 16 Bits Default Variation 5 32 Bits Point by point list attached Other Value Point by point list attached Sends Multi Fragment Responses Yes O No Sequential File Transfer Support Append File Mode L Yes Custom Status Code Strings 1 Permissions Field xl Yes File Events Assigned to Class File Events Send Immediately Multiple Blocks in a Fragment Max Number of Files Open 1 AREVA AREVA T amp D Inc 261 Brodhead Road Bethlehem PA 18017 610 997 5100 Fax 610 997 5450 www areva td com
49. e DNP serial asynchronous protocol Both UDP and TCP are piped into the 70 SERIES IEDs UDP messages are examined for the source IP address and automatically attached to the physical connection that it previously used TCP messages behave exactly the same way Note that the source IP port number is not used in any way TCP messages are sent over pre established IP connections The connection attachment request is accepted only if the connection attached to that IP address is unpopulated it could have previously been attached to either a UDP or TCP port TCP connections are de populated disconnected under two conditions 1 disconnection requests by the Client or 2 discovery that all Masters on the connection are unresponsive A Client disconnection request is treated exactly as if every Master on the connection has become unresponsive Note that TCP disconnection does not disassociate the individual Master addresses on that connector The only way that this disassociation takes place is when the number of Client Master address pairs exceeds 16 In this case the Master that has least recently been sent a message is disassociated from the Client Note that UDP communications are transient they behave as if they were TCP connect transaction disconnect groups UDP and TCP share the same Virtual Serial Port VSP Upon TCP disconnect the UDP can take over all Master sessions A TCP connection request can always take over for UDP data gram flow
50. e Factor T10 Setting 1000 9999 1 Multiply by 10 valid values are 1 10 100 1000 Vorne Pater Demand Amps A 32767 1 32768 10 Amp Scale A pa manse e so ro 367v Scie 10026 21 DECEMBER 2007 27 Copyright 2007 AREVA T amp D Inc BiTRONICS Legacy DNP3 Point Assignments DNP Point Contents 5 1 32768 10 Amp Scale 1 32768 10 Amp Scale 1 32768 10 Amp Scale 1 32768 15 Amp Scale 1 32768 15 Amp Scale Demana amos o 32707 192768 Demand Wan 9 Ser 19768 Amps 2 0 9 0132789 9 68988 Pa ass an a pe pomana a pse 6 Al 44 Demand Volts T4 Volt Scale Data 32767 46 Demand Total Amp Scale Data 32768 32767 Volt Scale 7 E Demand Max Watts Total a Amp Scale 32768 32767 1 32768 4500 Amp Scale Volt Scale W Volt Scale AI 48 Min Watts Total 32768 32767 1 32768 4500 Amp Scale Volt Scale W Volt Scale AI 49 Demand VARs Total Amp Scale LE 32768 32767 1 32768 4
51. e room for the most recent event This buffer overflow status is reported to the DNP3 master by setting the BIT 3 of the second IIN octet in the Internal Indications field The 5 70 SERIES IEDs allow for the ANALOG CHANGE EVENTSs to operate in one of two modes SOE mode or PRESENT mode In SOE Sequence of Events mode the ANALOG CHANGE EVENT buffering operates identical to the BINARY INPUT CHANGE events n SOE mode all events remain in the ANALOG CHANGE EVENT BUFFER until the CLASS poll retrieves them or in the case of a buffer overflow they are forced out by newer events In PRESENT mode before a new ANALOG CHANGE EVENT is placed in the ANALOG CHANGE EVENT BUFFER the buffer is checked to see it any other ANALOG CHANGE EVENTS are present in the buffer for the same point If there are the older ANALOG CHANGE EVENT for the same point is removed regardless of how much space remains in the buffer The ANALOG CHANGE EVENT buffering mode is selectable by the 70 SERIES Configurator utility software 10026 21 DEC EMBER 2007 23 Copyright 2007 AREVA T amp D Inc 6 0 DNP FROZEN COUNTER OBJECTS BITRONICS 70 Series IEDs with firmware v1 27 or later support the DNP3 FROZEN COUNTER Object Each DNP3 BINARY COUNTER OBJECT 20 Point configured will automatically have an associated FROZEN COUNTER OBJECT 21 Point configured The BINARY COUNTER and its associated FROZEN COUNTER will have the same point number FROZEN COUNTER Point 0
52. earch Institute UCA The following are trademarks or registered trademarks of Schneider Automation Inc MODSOFT Modicon Modbus Plus Modbus Compact 984 PLC The following are trademarks or registered trademarks of VentureCom Inc Phar Lap the Phar Lap logo The following are trademarks or registered trademarks of Systems Integration Specialists Company Inc SISCO SISCO MMS EASE Lite 54 5 The following are trademarks or registered trademarks of General Software Inc General Software the GS logo EMBEDDED BIOS Embedded DOS The following are trademarks or registered trademarks of the PCI Industrial Computer Manufacturers Group CompactPCl PICMG the CompactPCl logo the PICMG logo 10026 21 DECEMBER 2007 vi Copyright 2007 AREVA T amp D Inc 56 4 SAFETY SECTION Please refer to the M87x and M57x User Manuals ML0021 and 0032 respectively for information regarding safety installation commissioning and decommissioning 10026 21 DECEMBER 2007 vii Copyright 2007 AREVA T amp D Inc 56 4 m 1 0 DNP INTERFACE 1 1 Description The DNP network is a MASTER to SLAVE network that is to say one node asks a question and a second node answers A NODE is a DNP device RTU Computer BITRONICS M871 etc that is connected to the network Each DNP NODE has ADDRESS in the range of 0 to 65535 and it is this address that allows a MA
53. eclaring Masters dead based on lack of messages from them A suggested default for this value is either 0 or 30 Num IP Filters The number of IP filter values It ranges from 0 to 5 where zero means that all IP addresses are accepted by the 70 SERIES IEDs An IP address is accepted if it passes any filter IP Filter 0 The value of first acceptable Internet Protocol filter in the form of dotted decimal notation For example the filter 192 168 0 1 without quotes would allow exactly one address through the filter and 192 168 would allow any address beginning with 192 168 to be accepted A value of would allow all addresses to be accepted IP Filter 1 through IP Filter 4 Additional filter values 3 1 1 IP Addressing The TCP IP stack needs to be configured with an IP address a SUBNET mask and a ROUTER GATEWAY address It is very important that the network have no duplicate IP addresses Configuration of the address may be accomplished by using UCA by running the 70 SERIES Configurator or via a front panel serial port using a terminal emulator such as HyperTerminal or The units are pre configured with an IP address subnet mask gateway address of 192 168 0 254 255 255 255 0 192 168 0 1 3 2 DNP IP Quick Tutorial DNP IP uses the concept of a Virtual Serial Port VSP An IP Client communicates with DNP IP in the same way that a Client with a serial port would communicate over th
54. el uie re nnd ee 12 1 6 Converting Data to Engineering 12 1 7 Data Sets and Data Typesa sauer rei 14 12741 Configuring the Glass 0 Response ren 14 1 7 2 Configuring Class 1 Class 2 and Class 3 14 TIC ANU Check een ee ee 14 1 9 14 LED ara eier ei ne a 16 1 1 0 gt Heartbeat State Go nler a 16 MAT Metri REg Ste een 16 2 0 DNP PROTOCOL aesae aeaaea aaa A Eaa 17 2 1 INILOOUEION tc he X an 17 2 2 Overall Protocol SILIO onera erro a O 17 2 3 DNP ReguesuResponse OVOIVIOW ee 17 3 0 DNP3 over Ethernet TCP aan een 19 ter 19 Gases tecumiantagumecnese 20 22 ONIS TGC septs ee ee 20 4 0 File TRANSFER ge 21 5 0 DNP3 EVENTS OVERVIEW eu M UNT 22 5 1 BINARY INPUT CHANGE Evente ak 22 SZ ANALOG CHANGE EVEN ES ae ee T 22 10026 21 DECEMBER 2007 i Copyright 2007 AREVA T amp D Inc 60 DNP FROZEN COUNTER OBJECTS aa EXER ERN Ee Een al Appendix A BITRONICS Legacy DNP3 POINT Assignmentis uuunnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nn Appendix BITRONICS DNP3 POINT Assignments FOR DFC AND point sets MLOO26 21 DEC EM BER 2007 lil Copynght 2007 AREVA T amp D Inc 70 SERIES FIRMWARE VERSION The following ta
55. hase Angle RMS Amps C 2 Harmonie Reserved returns 0 Reserved returns 0 m Reserved returns 0 Reserved returns 0 Ta Ld 10026 21 DEC EMBER 2007 43 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters Reserved returns 0 281 Reserved returns 0 282 Reserved returns 0 1 Reserved retums 0 284 Reserved returns 0 Reserved retums 0 286 _ Reserved returns 0 1 287 Reserved returns 0 288 Reserved returns 0 1 289 Reserved returns 0 290 Reserved returns 291 impedanceAt G d 292 Impedance B 1 293 Impedance C 1 294 ResistaneeA 295 ResistanceB1 O 296 Resistance 1 Reactance A 1 Reactance B 1 SN NN 299 Reactance C 1 300 Phase Angle A 1 Phase Angle C 1 Impedance A 2 304 Impedance B 2 305 Impedance C 2 Resistance A 2 Resistance B 2 Resistance C 2 Reactance A 2 310 Reactance B 2 a H 312 Phase Angle A 2 Phase Angle B 2 Ld 10026 21 DEC EMBER 2007 44 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters 315 Resewed retunso OO 316
56. int Assignments DNP Point Contents AO 06 06 AO06 Tag Register Setting 0 _ BO 00 Reset Energy 22 0 Normal Setting BO 01 Reset Demand Amps 22 0 Normal Setting _ BO 03 Reset Demand Power 22 0 Normal Lp u BO 04 B Reset Demand Harmonic BO 05 Trigger Waveform Values Dependencies Type 0 Normal Setting Capture posae Demand Vers BE a Tara pemmVosch 9 C a poremos 9 Age Demand Wax Vol 56 m Morse 0_ Rode pe Demand Min Volts AB Volt Scale Tas Demand Vans Aro Demand Win Vots pm po BL m Ra Dior Vans TT 1 em ae Von seta 5020 Km Ra Dior Vans m porov mo pravos 1 pmwmaovoew 7000 pewRabowewvasw Satin pewRaovoease mo 7000 A025 JR Rate Dior Von qn Bem MLOO26 21 DEC EM BER 2007 30 Max 65536 0 Normal Setting i Volt Demands T22 0 bil NM Harmonic Demands T22 32767 32767 32767 32767 32767 32
57. m 1 to 65 535 in the tag register 1 5 5 VA Calculation Type Register The 70 SERIES IEDs can be configured to use one of several different methods to calculate Total VAs to the User Manual for an explanation of the different calculation types The VA Calculation Type register 00 is READ WRITE register VA Calculation Type Register Value Arithmetic Geometric Equivalent 3 element WYE Equivalent 2 element DELTA 1 6 Converting Data to Engineering Units As mentioned in Section 1 5 the majority of the data is stored in a normalized 2 s complement format When displaying these values at another location it may be desirable to convert this format into engineering units This conversion is readily accomplished using the following simple scaling equations BASIC EQUATION FOR NORMALIZED ANALOG INPUTS Value Namalizad Scale Fadar Engneging Units Daault Full Scale 32768 SECONDARY Fada The Value referred to the equations would be the value stored the point that you wished to convert to engineering units For example if you wanted to convert Phase A Amperes into engineering units Value would be the value in ANALOG INPUT point ENERGY is stored as 32 BIT values in static COUNTER points Energy values are in units of PRIMARY kWh or kVARh FREQUENCY is stored as a single binary value that is the actual frequency times 100 POWER FACTOR is stored as the value times 1000
58. nfigurable Analog Inputs Analog Outputs 41 Power Factor C 1 Xfmr Ratio Amps C 2 4 Ratio Amps C2 o O Power Factor Total 1 RMS Watts A 2 RMS Watts B 2 RMS Watts C 2 RMS Watts Total 2 RMS VARs A 2 RMS VARs B 2 RMS VARs C 2 RMS VARs Total 2 Reserved returns 0 Reserved returns 0 Meter Type Reserved returns 0 Meter Type RMS VAs A 2 RMS VAs B 2 RMS VAs 2 59 RMS VAs Total 2 User Gain Amps B 2 60 Power Factor A 2 User Gain Amps C 2 Power Factor B 2 Reserved for User Gain Amps N2 Power Factor C 2 User Phase Correction Volts A 1 Power Factor Total 2 User Phase Correction Volts B 1 Frequency Volts A 1 User Phase Correction Volts C 1 Frequency Volts B 1 User Phase Correction Volts N 1 Frequency Volts C 1 User Phase Correction Volts A 2 Frequency Volts A 2 User Phase Correction Volts B 2 Frequency Volts B 2 User Phase Correction Volts C 2 69 Frequency Volts C 2 Frequency Volts R 1 71 Frequency Volts 2 User Phase Correction Volts R 2 ea System Frequenc 73 Reserved for System Frequency 2 User Phase Correction Amps 1 74 Phase Angle Volts A 1 2 User Phase Correction Amps C 1 Phase Angle Volts B 1 2 Phase Angle Volts C 1 2 77 Phase Angle Volts A 1 1 User Phase Correction Amps B 2 Phase Angle VoltsB1 R 1 79 Phase Angle Volts C 1 R 1 Reserved for User Phas Correction Amps N 2 80 Phase Angle Volts A 1 R2 Phase Angle Volts B 1 R2 Phase Angle Volts
59. olts C 1 Virtual Status Output Point 101 Min Demand RMS Volts N 1 Virtual Status Output Point 25 102 Demand RMS Volts AB 1 Virtual Status Output Point 26 Demand RMS Volts BC 1 o Virtual Status Output Point 27 Demand RMS Volts CA 1 Virtual Status Output Point 28 Max Demand RMS Volts AB 1 po Virtual Status Output Point 28 Max Demand RMS Volts BC 1 Virtual Status Output Point 30 107 Max Demand RMS Volts CA 1 Virtual Status Output Point 31 Min Demand 5 Volts AB 1 1 Virtual Status Output Pointe 109 Min Demand RMS Volts BC 1 Reserved returns 0 Min Demand RMS Volts CA 1 Reserved returns 0 10026 21 DECEMBER 2007 38 Copyright 2007 AREVA T amp D Inc BAF Bitronics Advanced Fixed Analog Inputs Analog Outputs Binary Inputs Binary Outputs Counters Demand RMS Watts Total 1 MEE M Reserved returns 0 Demand RMS VARs Total 1 Reserved returns 0 Demand RMS VAs Total 1 Reserved returns 0 Max Demand RMS Watts Total 1 Reserved returns 0 Reserved returns 0 120 Reserved for System Frequency Reserved returns 0 Reserved returns 0 P m dl 7 7 BM B m Reserved returns 0 Reserved returns 0 Max Demand RMS VARs Total 1 Reserved returns 0 121 Demand RMS Amps A 2 Recorder Memory Low Demand RMS Amps B 2 WR2 Recorder Memory Low 123 Demand RMS Amps C 2 DR1 Recorder Memory Low DemandRMSAmpsC2
60. or Volts NBus2 T11 09 1 1000 Muliply by 10 valid values are 1 10 100 1000 21 XfmrRaioAmpsA J T10 Setting 1000 99991 AO22 JXtmrRatioDivsorAmpsA T1 Seting 1000 Multiply by 10 valid values are 1 10 100 1000 AO 23 Xfmr Ratio Amps B T10 Setting 1000 9999 1 ___ XfmrRatioDvsorAmsB 1000 Multiply by 10 valid values are 1 10 100 1000 NN ___ XtmrRaioAmpsC Setting 1000 999911 Mmm Ratio DvisorAmpsC TH 39 1 1000 Multply by 10 valid values are 1 10 100 1000 27 Xfmr Ratio Amps N T10 Setting 1000 9999 1 JXmmrRatioDivsorAmpsN SS 1000 Multiply by 10 valid values are 1 10 100 1000 jUserGanVolsA Ti2 32767 1 16384 ER X JUserGanVotsB Ti2 509 32767 1 16384 AO 31 User Gain Volts C T12 Setting 32768 3276711 16384 DENN User Gain Vots N Ti2 09 32768 32767 1 16384 p jUserGainVolisABus2 T2 fSeting 32768 32767 1 16384 a jUserGainVols BBus Ti2 309 32768 32767 1 16384 10026 21 DECEMBER 2007 6 Copyright 2007 AREVA T amp D Inc BiTRONICS 70 SERIES IEDs DNP3 Point Assignments DNP Point Contents Ind Values Dependencies Type Min User Gain Volts C Bus2 T12 Setting 32768 AO36 UserGainvVotsNBus2 T2 32768 ___ 7 _ 12
61. ormation on setting CT and PT ratios and Current and Voltage Scale Factors The SELECT BEFORE OPERATE arm timeout value is configurable from zero seconds to twenty four hours 1 2 DNP Address Each DNP instrument responds to a single destination address in the range 0 65519 Each instrument on a DNP link must have a unique address The 70 SERIES IEDs will allow any of the 65526 addresses to be selected DNP instruments also use a GLOBAL address of 65535 Requests sent to the GLOBAL address cause the instrument to execute the function but not to respond 10026 21 DECEMBER 2007 1 Copyright 2007 AREVA T amp D Inc t 4 1 3 Transaction Timing The 70 SERIES IEDs complete a set of calculations approximately every cycle and calculations for volt and amp measurements every quarter cycle The HOST CPU processor services the DNP ports by interrupts received from the corresponding serial ports Incoming messages are parsed and responded to in approximately 30ms 1 4 Object Format The 70 SERIES IEDs report all static measurements via the use of three static objects These objects include COUNTER object 20 variations 1 2 5 and 6 ANALOG INPUT object 30 variations 1 2 3 and 4 and BINARY INPUT object 01 variations 1 and 2 These objects are read only and cannot be modified by DNP MASTER devices Parameters such as configuration registers that can be modified make use of the ANALOG OUTPUT STATUS object
62. ponded with qualifiers 00 01 Static object requests sent with qualifiers 17 or 28 will be responded with qualifiers 17 or 28 Forchange event object requests qualifiers 17 or28 are alwaysresponded 16 bit Analog Change Events may be requested The read function code for Object 50 Time and Date variation 1 is supported Sequential file transfer Object 70 variations 3 through 7 are supported Maximum Data Link Frame Size Maximum Application Fragment Size octets octets Transmitted 292 Transmitted 2048 Heceived 292 Heceived 2048 Maximum Data Link Re tries Maximum Application Layer Re tries None None Fixed L Configurable Configurable from 0 to 255 Requires Data Link Layer Confirmation L Never 1 Always Sometimes Configurable as Never Only for multi frame messages or Always Requires Application Layer Confirmation Never Always When reporting Event Data Slave devices only When sending multi fragment responses Slave devices only sometimes Configurable as Only when reporting event data or When reporting event data or multi fragment messages DNP V3 0 DEVICE PROFILE DOCUMENT Timeouts while waiting for Data Link Confirm Configurable Complete Appl Fragment Configurable Application Confirm Configurable Complete Appl Response Configurable None Fixed at Variable None Fixed at Variable None Fixed at Variable None Fixed at Variable
63. s BINARY INPUT CHANGE events occur when a BINARY INPUT that is assigned to a CLASS 1 CLASS 2 or CLASS 3 Data Object changes states Once the BINARY INPUT changes states the specific BINARY INPUT point number and the new state value are placed in the BINARY INPUT EVENT BUFFER as a BINARY INPUT CHANGE event BITRONICS 70 SERIES IEDs can be configured to report The BINARY INPUT CHANGE data object in one of two VARATIONS either BINARY INPUT CHANGE WITHOUT TIME object 02 variation 1 or BINARY INPUT CHANGE WITH TIME object 02 variation 2 All BINARY INPUT CHANGE events will be reported with the same configured variation The default BINARY INPUT CHANGE variation with or without time can be set using the 70 SERIES Configurator utility software The BITRONICS 70 SERIES IEDs allocate the BINARY INPUT EVENT BUFFER size based on the number of configured DNP3 BINARY INPUTs The buffer size is equivalent to 5 times the number of BINARY INPUTS For example a 70 SERIES IED with eight BINARY INPUTs would be able to buffer forty BINARY INPUT CHANGE events If the buffer size is exceeded prior to being emptied by the CLASS poll the oldest BINARY INPUT CHANGE event is purged from the buffer and is lost in order to make room for the most recent event This buffer overflow status is reported to the DNP3 master by setting the BIT 3 of the second IIN octet in the Internal Indications field 5 2 ANALOG CHANGE Events ANALOG CHANGE events occur when an ANALOG
64. s For Configurator versions 2 27 or higher the Point Sets on the left side of the box in the DNP Points Screen are all fixed sets whereas the ones on the right side of the box are all configurable to varying degrees some have a fixed portion followed by a section where the user can select any of the measurements available in the 70 Series IEDs Note also that unless otherwise specified all points are READ ONLY 10026 21 DECEMBER 2007 3 Copyright 2007 AREVA T amp D Inc 56 4 1 4 1 BITRONICS 70 SERIES IEDs DNP3 Point Assignments Configurable SFC Single Feeder Configurable BiTRONICS 70 SERIES IEDs DNP3 Point Assignments DNP Point Contents Data Scale Ind Values Dependencies Type Mi n Al 00 Health 0 T1 DSP Gain Cal Error Data 0 DSP Offset Cal Error SIM Gain Cal Error SIM Offset Cal Error SIM Phase Cal error SIM Ratio Csum Error User Ratio Csum Error User Gain Csum Error User Phase Csum Error Bit 9 DSP Board ID Csum Error Board ID Csum Error 10 User TDD Csum Error 11 DSP Integrity Csum Error 12 DSP Stack Overflow 13 CT VT Scaling Error 14 Bit Protocol Config Error 15 T1 Al 01 Health 1 Bit O Reserved Data 10 Norm 1 Reserved Bit 7 Reserved Bit 9 Reserved Bit Reserved 10 Bit Reserved 11 Bit Reserved 12 Bit Reserved 13 Reserved 14 15 1 02 AmsA 4 2 Data 0 32767 1 32768 1
65. s Output Point 1 Reserved returns 0 RMS Volts CA 1 Xfmr Ratio Volts 1 Reserved returns 0 DIO 3 Status Output Point 2 Reserved returns 0 M RMS Amps A 1 Xfmr Ratio Volts C 1 Reserved returns 0 DIO 3 Status Output Point 3 Reserved returns 0 RMS AmpsB 1 Xfmr Ratio Volts N 1 Reserved returns 0 DIO 3 Status Output Point 4 Reserved returns 0 DIO 4 Status Output Point 1 Reserved returns 0 RMS Amps N 1 Xfmr Ratio Amps A 1 Reserved returns 0 DIO 4 Status Output Point 2 Reserved returns 0 RMS Volts A2 Xfmr Ratio Amps A 1 Reserved returns 0 DIO 4 Status Output Point 3 Reserved returns 0 RMS Amps 2 Xfmr Ratio Volts 2 Virtual Status Input 7 DIO 6 Status Output Point 4 Reserved for RMS Amps N 2 Xfmr Ratio Volts B2 Virtual Status Input 8 Reserved returns 0 RMS Watts A 1 Xfmr Ratio Volts 2 Virtual Status Input 9 Reserved returns 0 PY 030 RMS Watts B 1 Xfmr Ratio Volts C 2 Virtual Status Input 10 Reserved returns 0 031 RMS Watts C 1 Xfmr Ratio Volts N 2 Virtual Status Input 11 Reserved returns 0 RMS Watts T 1 Xfmr Ratio Volts N 2 Virtual Status Input 12 Reserved returns 0 PY 033 RMS VARs A 1 Xfmr Ratio Amps A 2 Virtual Status Input 13 Reserved returns 0 PY RMS VARs B 1 Xfmr Ratio Amps A 2 Virtual Status Input 14 Reserved returns 0 PY 035 RMS VARs C 1 Xfmr Ratio Amps B 2 Virtual Status Input 15 Reserved returns 0 036 RMS VARs
66. sing are lost BINARY COUNTER Ss are also resynchronized 10026 21 DECEMBER 2007 24 Copyright 2007 AREVA T amp D Inc with the energy measurement values at system start up and session start up Sessions are closed automatically when the number of sessions per port is exceeded Each serial port supports one communication session or one DNP3 master The 5 70 Series IED supports eighteen DNP3 communication sessions via Ethernet If a message from a new DNP3 master is detected and the number of sessions for the associated port has been exceeded the existing communication session with the oldest activity for the associated port is closed all FROZEN COUNTER values lost and a new communications session is started new FROZEN COUNTERs initialized to zero The new master is identified on the serial ports by having a different SOURCE ADDRESS in the DATA LINK LAYER of the DNP3 command The new DNP3 Ethernet masters are determined by different IP address 10026 21 DEC EMBER 2007 25 Copyright 2007 AREVA T amp D Inc APPENDIX A BITRONICS LEGACY DNP3 POINT ASSIGNMENTS BiTRONICS Legacy DNP3 Point Assignments Code DNP Point Contents Data Scale Values Dependencies Type Min Max AI 00 Health 0 T1 Bit O DSP Gain Cal Error 0 Norm 1 1 Error 0 mes 0 3276 2 Amp Seale 82757 w es
67. sponse The Legacy Class 0 response is also configurable and can return one of six pre defined responses 1 7 2 Configuring Class 1 Class 2 and Class 3 Events BINARY INPUT points become BINARY INPUT CHANGE events by assigning the point to either the CLASS 1 CLASS 2 or CLASS 3 Data Object ANALOG INPUT points become ANALOG CHANGE EVENTS by assigning the point to either the CLASS 1 CLASS 2 or CLASS 3 Data Object This assignment is accomplished by simply moving the desired point s into the associated CLASS Data Object block via the 70 SERIES Configurator utility software DNP Points configuration section When assigning ANALOG INPUTS a DEADBAND value must also be entered such that the ANALOG CHANGE EVENT will be generated whenever the last reported value changes by more than that DEADBAND amount Any point may exist in any CLASS but it may only exist in one CLASS All BINARY INPUTSs can be assigned to BINARY INPUT CHANGE events The BITRONICS 70 SERIES IEDs permit a maximum of forty ANALOG INPUTS to be assigned to ANALOG INPUT CHANGE events 1 8 Health Check The 70 SERIES IEDs have several self tests built in to ensure that the instrument is performing accurately The results of these self tests are available in the Health Check register AO 00 which is a simple 16 bit binary value Each bit represents the results of a particular self test with O indicating the test was passed and 1 indicating the test was failed The definitions of
68. time the 70 SERIES IED receives data via the associated port and will flash green whenever the 70 SERIES IED sends data over the associated serial port If the LED does not flash RED when a message is sent to it from a MASTER check the network for the following problems 1 Cable open or short circuit 2 Defective termination 3 Incorrect DNP ADDRESS 4 Incorrect polarity of cable connections 1 10 Heartbeat State Counter The 70 SERIES IEDs provide a Heartbeat State Counter Register that allows the user to determine the time between successive polls This counter will increment by the number of milliseconds that have elapsed since the last time the data was updated Another use of this register is as a visual indicator that the data is changing it allows users of certain MMIs to identify disruption in the polling of the instrument The Heartbeat State Counter is a full 32 bit counter that rolls over at 4 294 967 295 4 294 967 seconds The counter starts at zero on power up and is NOT stored in non volatile memory 1 11 Meter ID Register The 70 SERIES IEDs provides an ID register for model identification purposes 53 10026 21 DECEMBER 2007 16 Copyright 2007 AREVA T amp D Inc 2 0 DNP PROTOCOL 2 1 Introduction DNP 3 0 Distributed Network Protocol is an open standard that was designed by Harris Controls Division and then placed in the public domain DNP defines a command response method of communicating digital information
69. triction that all DNP Slave addresses from any particular Client must be the same After establishment of a connection from DNP Client the 70 SERIES IEDs attempt to maintain contact by periodically sending REQUEST LINK STATUS messages The device expects that each Master will maintain contact either by periodically polling the 70 SERIES IEDs or by responding to the REQUEST LINK STATUS messages with a RESPOND message These messages are used as keep alive messages DNP IP has the following configuration parameters Send Keep Alive This controls the minimum interval in seconds between outgoing messages from the 70 SERIES IEDs If no data messages have been sent for this interval a keep alive message is sent A value of zero stops the 70 SERIES IEDs from initiating keep alive messages A suggested default value for this is 10 Max Send This controls the number of keep alive messages that will be sent without receiving a response from the Master before it is declared unresponsive and the TCP connection closed A suggested default for this value is 10 Receive Keep Alive This controls the maximum time between messages in seconds from the Master before the Master is declared unresponsive When the 70 SERIES IEDs discover that all Masters on a TCP connection are unresponsive the IED will close the TCP connection Setting this value to zero stops the 70 SERIES IEDs from 10026 21 DECEMBER 2007 19 Copyright 2007 AREVA T amp D Inc d
70. will contain the value frozen from BINARY COUNTER Point 0 The BITRONICS 70 Series IEDs will support the IMMEDIATE FREEZE FC 07 IMMEDIATE FREEZE NO ACKNOWLEDGEMENT FC 08 FREEZE AND CLEAR FC 09 and FREEZE AND CLEAR NO ACKNOWLEDGEMENT FC 10 Function Codes Freeze commands and FROZEN COUNTERS can use any of the same QUALIFIERS and VARIATIONS as the BINARY COUNTERS Each DNP3 master communication session will have its own unique set of FROZEN COUNTERs Once a DNP3 master initiates communication with the BITRONICS 70 series IED a communications session is established This communication session allocates a dedicated set of FROZEN COUNTERs specifically for the new DNP3 master When the new DNP3 master issues a FREEZE or FREEZE AND CLEAR command only the FROZEN COUNTERs allocated for that DNP3 master are frozen and cleared depending on the command This allows multiple masters to maintain their own FROZEN COUNTERS and prevents one DNP3 master from inadvertently clearing another DNP3 master s counter s Upon session initialization the FROZEN COUNTERS are initialized to zero The FROZEN COUNTERs will continue to be read as zero until a FREEZE command is sent by the associated DNP3 master If a FREEZE AND CLEAR command is sent the present count value will be stored in the FROZEN COUNTER and the running count of the FROZEN COUNTER value will be reset By default the FREEZE AND CLEAR COMMAND will NOT clear the associated BINARY C

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