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SIL B

1. This is the thermal curve for 6 3 minutes www fanox com 45 309 4 7 Function 37 Definite time phase undercurrent This protection function is adjusted by setting three different parameters Function Description Minimum Maximum Step Unit Default 37P 1 Definite time phase undercurrent 37P 2 Permission Yes No No Tap 0 10 30 0 01 0 50 Operating time 0 02 300 00 0 01 s 0 02 The operating time is completely independent of the operating current through the equipment such that should the phase current gone down the set value during the same amount of time or more than the set one the protection function acts trips and there it is not restored until the measured value of the phase exceeds the current set point The function pick up occurs at 100 of the adjusted input and the dropout at 105 The reset type is instantaneous The accuracy of the Operating time is the set time plus a maximum of 30 ms 4 8 Function 59P_1 59P_2 Definite time phase overvoltage This protection function is adjusted using three parameters Function Description Minimum Maximum Step Unit Default 59P 1 Definite time phase overvoltage 2 Permission Yes No No Tap 4 110 1 V 75 Operating time 0 02 300 0
2. bit 10 Input 1 Table Active bit 11 Lock pulse input 79 bit 12 Input pulse Unlock 79 bit 13 Input start 50BF bit 16 Input 1 bit 17 Input 2 bit 18 Input 3 bit 19 Input 4 bit 20 Input 5 bit 21 Input 6 bit 22 Input 7 bit 23 Input 8 bit 24 Control voltage bit 25 Coil A continuity bit 26 Coil B continuity Outputs bit 0 Output 1 model SILBxxxx0xxxx bit 1 Output 2 bit 2 Output 3 bit 3 Output 4 bit 4 Output 5 bit 5 Output 6 bit 6 Output 7 bit 7 Start 79 bit 8 Start 50BF bit 9 Start Fault bit 10 LED ON bit 11 LED 1 bit 12 LED 2 bit 13 LED 3 bit 14 LED 4 bit 15 LED 5 www fanox com 241 309 Outputs 1 0 Led On model SILBxxxx1xxxx t 1 Led 1 and SILBxxxx2xxxx it 2 Led 2 it 3 Led 3 it 4 Led 4 it 5 Led 5 it 6 Output 1 7 Output 2 it 8 Output 3 it 9 Output 4 it 10 Output 5 it 11 Output 6 it 12 Output 7 it 13 Output 8 it 14 Output 9 it 15 Output 10 it 16 Output 11 it 17 Output 12 it 18 Start 79 it 19 Start 50BF it 20 Start fault it 21 79 Permit it 22 52 Permit 79 it 0 State 79 Inactive it 1 State 79 Reclosure Time it 2 State 79 Open it 3 State 79 Wait Time it 4 State 79 Closure Time it 5 State 79 Reset Time it 6 State 79 in Lockout it 7 State
3. Index Description 0 Protection active 1 Auxiliary input 1 2 Auxiliary input 2 3 Auxiliary input 3 4 Auxiliary input 4 5 Auxiliary input 5 6 Auxiliary input 6 7 Auxiliary input 7 8 Auxiliary input 8 9 Auxiliary output 1 10 Auxiliary output 2 11 Auxiliary output 3 12 Auxiliary output 4 13 Auxiliary output 5 14 Auxiliary output 6 15 Auxiliary output 7 16 Auxiliary output 8 17 Auxiliary output 9 18 Auxiliary output 10 19 Auxiliary output 11 20 Auxiliary output 12 21 Auto recloser active 22 Teleprotection active 23 Local parameter setting 24 Trip circuit supervision 25 Start pick up L1 26 Start pick up L2 27 Start pick up L3 28 Start pick up N 29 General trip 30 Trip L1 31 Trip L2 32 Trip L3 33 General start pick up 34 Breaker failure 35 Trip gt gt 36 Trip IN gt gt 37 on by 38 blocked 39 40 52 Status Closed 41 52 Status Open Time 42 52 Status Open Failure 43 52 Status Close Failure 44 52 Status excessive openings 45 52 Status excessive sum of switched amperes www lanox com 287 309 BINARY INPUT OBJECT 1 gt Assigned to Class 0 BINARY INPUT CHANGE OBJECT 2 gt Assigned to Class 1 Inde
4. B Digital input 1 Busbar Voltage B Digital input 2 74TCS voltage presence B Digital input 3 74TCS coil 1 4 Digital input 4 74TCS coil 2 Common of digital inputs 1 2 3 and 4 74 5 Digital input 5 Auxiliary voltage Digital input 6 Auxiliary voltage Digital input 7 IRIG B connector depending on model 4 Digital input 8 Common ol digital inputs 5 6 7 and 8 www fanox com 23 309 SILB with 60870 5 103 protocol 21100110 51515121515 100001 515121212 24 309 www fanox com Digital output common 1 A RS485 IEC 60870 5 103 Digital output 1 NC B RS485 IEC60870 5 103 Digital output 1 NO Gnd RS485 IEC60870 5 103 Digital output common 2 A RS485 Modbus RTU Digital output 2 NC B RS485 Modbus RTU Digital output 2 NO Gnd RS485 Modbus RTU Digital output 3 NO IRIG B depending on model Digital output 4 NO Phase A voltage Digital output 5 NO Phase A voltage Digital output 6 NO Phase B voltage Digital output 7 NO Phase B voltage Digital input 1 Phase C voltage Digital input 2 Phase C voltage Digital input 3 Busbar Voltage Digital input 4 Busbar Voltage Common of digital inputs 1 2 3 and 4 74 5 voltage presence Digital input 5
5. trie equipment 52 Permission of ty Send to equipment fd Save file as 2 Functions E INPUTS O Output 1 Output 2 E Output 3 E Output 4 I Output 5 E Output 6 2 Output 7 E Output 8 E Output 9 E Output 10 E Output 11 E Output 12 a a LEDS INTERNAL STATES E Starting 79 E Starting 50BF Oscillo Starting E79 Permission 2203 52 Permission of Closure E REMOTE MODBUS E IEC 60870 5 103 E LOCAL MODBUS EXIT 23 E m m www fanox com 68 309 Synchronism function 25 associated to manual closure 52 If 52 permission of closure is associated with Permission of closure of synchronism function could be occur 1 If permissions LLLB DLLB LLDB DLDB of 25 function are all prohibited the closure of the circuit breaker does not occur In spite of close breaker command being execute by communication or pressing the key in the relay circuit breaker never will close 2 If LLLB DLDB DLLB LLDB permissions of 25 function are enable it can be distinguished some possibilities If line bar or both of them are dead it will always produced the manual closure of the circuit breaker because 52 permission of closure only depends on corresponding permission adjustment and it is not necessary synchronism to get the circu
6. BINARY INPUT OBJECT 1 gt Assigned to Class 0 BINARY INPUT CHANGE OBJECT 2 gt Assigned to Class 1 Index Description 99 Unlock 79 Modbus remote 100 Maneuver Selection remote 101 Open CB remote 102 Close CB remote 103 Lockout 79 remote 104 Unlock 79 remote 105 CLP Activation 106 46 Start 107 46 Trip 108 49 Alarm 109 49 Trip 110 32_1 Start 111 32_1 Trip 112 32_2 Start 113 32_2 Trip 114 32_3 Start 115 32_3 Trip 116 32_4 Start 117 32_4 Trip 118 37_1 Start A 119 37_1 Start B 120 37_1 Start 121 37_1 Start P 122 37_1 Trip 123 37_1 Trip B 124 37 1 Trip 125 37 1 Trip P 126 37 2 Start A 127 37 2 Start B 128 37 2 Start 129 37 2 Start P 130 37 2 Trip 131 37 2 132 37 2 133 37_2 Trip P 134 50BF Start 135 Activation 136 50 1 Start N 137 50_1 Trip 138 50_2 Start N 139 50 2 Trip 140 50 1 Start 141 50 1 Start B 142 50 1 Start 143 50 1 Start P 144 50_1 Trip 145 50_1 Trip B 146 50_1 Trip 147 50_1 Trip P 148 50_2 Start A 149 50_2 Start B 150 50_2 Start 151 50_2 Start P www fanox com 289 309 BINARY INPUT OBJECT 1 gt Assigned to Class 0 BINARY INPUT CHANGE OBJECT 2 gt Assigned to Class 1 Index Description 152 50_2 Trip A 153 50_2 Trip
7. ULU IIIa sasa sau 292 APPENDIX Lia 293 Identification 293 617215 lt RE 295 Switch 295 TSt IMO MU cin u u aa sisa 295 Acceptance setting log UU nai 295 gocce Giai 302 Input configurationi iii iii 303 Q tput nuncinp me m 304 LED s configuration LULU UU UU ecran rc sa 306 LED s Configurationi template LLL 307 Comments ssaa siii 307 5 309 1 RECEPTION HANDLING INSTALLATION 1 1 Unpackaging Relays must only be handled by qualified personnel and special care must be taken to protect all of their parts from any damage while they are being unpacked and installed The use of good illumination is recommended to facilitate the equipment visual inspection The facility must be clean and dry and relays should not be stored in places that are exposed to dust or humidity Special care must be taken if construction work is taking place 1 2 Reception of relays It is necessary to inspect the equipment at the time it is delivered to ensure that the relays have not been damaged during transport If any
8. 55 Function 50BF Circuit Breaker opening fault 56 Function 74TCS Trip circuit supervision 57 Function 79 Autorecloser LL L UL UI iii 58 Counter to record the number 0 62 Function 25 Synchronism protection function 62 synchronism 25 and recloser 79 iaia 66 Syncronism 25 and manual closure 52 68 Gold Load PICK UD iii iii iaia 69 General settingS iuiurilali ili 71 mc 72 60255 151 2 42 2 recreo eicere autc ini 73 ANSI IEEE GUrves cucinata aaa 77 Application examples u 81 MONITORING AND CONTROL 87 Measurements eec 87 Counters 89 Statuses and Leda te 89 Fault ee 109 Real Time Clock RTC ceci te ire III asss 109 Oscillography 109 Data Diagram al 22 audet aee 114 Configurable inputs ci
9. characteristic angle 4 80 P P NON OPERATING ZONE g characteristic angle 0 function pik up NON OPERATING ZONE Y S function pikcup OPERATING Z NE N characteristic angle 270 Direct active overpower Inverse active overpower Direct reactive overpower Inverse reactive overpower The following table establishes the settings for each function and its characteristics Function Description Minimum Maximum Step Default 32 1 Definite time directional overpower 32 2 Permission Yes No No 32 3 0 10000 1 VA 10 32_4 Characteristic angle 0 359 1 9 0 0 02 300 00 0 01 5 100 www fanox com 49 309 4 12 Function 810 U Overfrequency and underfrecuency protection There are four protection units of the variation in frequency Each one of them has an adjustment which determines whether the unit acts as overfrequency or underfrequency The reaction time of the unit is determined by the set operating time In case the unit acts like overfrequency activation of the function occurs at 100 frequency level set and is reset when the measured frequency is 50 mHz lower than set start level If the unit is set as underfrequency activation of the function occurs at 100 frequency level set and is reset when the measured frequency is 50 mHz higher than set start level The reset is temporized and the reset time is determined by the reset time setting Accuracy of operating
10. 51 e 8 2 sila_osc_11 gt 1_ IA A IB A osc 11 gt 23 51 Pickup sila 056 11223 51N Pickup sita_0sc_11 gt 24 5 N Trip sila_osc_11 gt 23 51N Pickup sila_osc_11 gt 31 52 Open sila_osc_11 gt 33 52 Close otek Concepts ress www fanox com TOP The Output Pre sooo sila_osc_11 gt 28 50BF Trip Lu sila_osc_11 gt 34 Trip TOP The Output Processor 113 309 5 7 Data Diagram j a p gt 3 00000 O www fanox com 114 309 5 8 Configurable inputs The SIL B has eight digital inputs that can be configured by the user The inputs can be configured from the HMI or through the SICom program Firstly we will define the concepts of physical input and logical input Physical inputs are the equipment s real inputs The SIL B has eight physical inputs Input 1 Input 2 Input 3 up to Input 8 These physical inputs can be associated with the logical inputs The SIL B has the following logical inputs Logical inputs Description Input 52 Circuit breaker contact Input 52 b Circuit breaker contact b Locking phase input Function 50P1 and 50P2 trip lock Locking neutral input Function 50N1 and 50N2 trip lock External trip input External trip start If a pulse of more t
11. PHS PTOC1 Op phsC 67P_1 Trip P PHS PTOC1 Op general 67P_2 Start A PHS PTOC2 Str phsA 67P_2 Start B PHS PTOC2 Str phsB 67P_2 Start C PHS PTOC2 Str phsC 67P_2 Start P PHS PTOC2 Str general 67 _2 5 2 phsA 67P_2 Trip B PHS PTOC2 Op phsB 67P_2 Trip C PHS PTOC2 Op phsC 67 _2 Trip P PHS PTOC2 Op general CLP Activation RCLP1 Op general 46 Start NGS PTOC1 Str general 271 309 www fanox com 46 NGS PTOC1 Op general 49 1 AlmThm general 49 Trip PTTR1 Op general 32_1 Start 1 Str general 32_1 Trip PDOP1 Op general 32 2 Start PDOP2 Str general 32 2 Trip PDOP2 Op general 32 3 Start PDOP3 Str general 32_3 Trip PDOP3 Op general 32_4 Start PDOP4 Str general 32_4 Trip PDOP4 Op general 37P_1 Start A PTUCI Str phsA 37P_1 Start PTUCI Str phsB 37P_1 Start PTUCI Str phsC 37P_1 Start P PTUC1 Str general 37P 1 Trip PTUCI Op phsA 37P_1 TripB PTUCI Op phsB 37P_1 TripC PTUC1 Op phsC 37P_1 Trip P PTUC1 Op general 37P_2 Start PTUC2 Str phsA 37P_2 Start B PTUC2 Str phsB 37P_2 Start C PTUC2 Str phsC 37P_2 Start P PTUC2 Str general 37P 2 Trip 2 phsA 37 _2 Trip B PTUC2 Op phsB 37 _2 Trip 2 phsC 37 _2 Trip P PTUC2 Op general 50BF Start RBRF1 Str general Break Failure RBRF1 OpEx general 50BF Activation RBRF1 Opin general 50 1 Start
12. 79 Closing time 79 Reset time 79 Lock out 79 Safety time 79 Definitive opening time Synchronism LLLB Live line live bar LLDB Live line dead bar DLLB Dead line live bar DLDB Dead line dead bar Closure permission Circuit breaker monitoring 52 Start www fanox com 96 309 ModBus Remote Local Com 52 Error 52 Open 52 Opening time 52 Opening failure 52 Close 52 Closure time 52 Closure failure 52 Excess of openings 52 Excess of accumulated amperes 52 Excess of openings in a time window State 52 a State 52 b Trip circuit monitoring 74TCS Pickup 74TCS Activation Remote ModBus Remote communication exists Command selection Open breaker Close breaker Lock 79 Unlock 79 Remote com Remote communication exists Command selection Open breaker Close breaker Lock 79 Unlock 79 Local Modbus Local communication exists www fanox com 97 309 HMI activity Local Command selection Open breaker Close breaker Lock 79 Unlock 79 Set Remote Control to Local Set Remote Control to Remote In states 52 and 79 a bit has been assigned to each state of the automaton so that the evolution of said automatism can be seen if the oscil
13. Time to deactivate CLP decrementing In gt 10 Time to deactivate CLP incrementing In lt 10 3 Time Out Time Out In gt 10 Cold Load Pickup In lt 10 In gt 10 In lt 10 www fanox com 70 309 4 19 General settings General settings establish some parameters that are necessary for the relay to operate These settings are defined as general because they affect the entire relay and as a result they are not subject to a change of table Function Description Minimum Maximum Step Unit Default General settings Equipment identifier www fanox com Transformation ratio of the phase CTs P I 100 Transformation ratio of the neutral CTs 1 2000 1 100 Transformation ratio of the Vie 1 2000 1 100 Frequency 60 50 Hz 50 Language English Active table 1 3 1 1 Communications Modbus address 1 254 1 2 Modbus baudrate 4800 38400 bauds 19200 1 Equipment identifier It is an ASCII text used to identify the equipment Protection equipments are normally associated with a specific line or position and this setting is used for said identification It is important to fill this field in correctly as the events and oscillography data is accompanied by this information 2 The phase and neutral CT transformation ratio setting allows the measurements of the primary values from the protection transformer
14. activated activated activated activated activated activated 178 309 www fanox com Li activated activated 31 activated 4 activated 5 activated 3 activated 6 activated Te activated States OUTPUTS 179 309 www fanox com 8 activated 9 activated 10 activated Ls activated 12 activated 79 Init not activated 50BF Init not activated Osc Init not activated 79 Enable not activated 180 309 www fanox com AV States 79 Close Ena not activated STATES Standby not activated Reclose Time not activated Is 52 Open2 not activated Hold Time not activated Close Time not activated Reset Time not activated 181 309 www fanox com AY States 52 gt 52 Open Error Lockout not activated Security T not activated Manual Open not activated T STATES 27 Startup not activated Error not activated Open not activated Open Time not activated 52 Open Error lt lt ACTIVATED gt gt 182 309 www fanox com Close not activated Close Time not activated Close Error not activated Open Num Alarm lt lt ACTIVATED gt gt 12 Alarm lt lt ACTIVATED gt gt Too Many Trips not activated 52A contact not activated 52B contact not activated 183 309 States 74705 e STATES 22 74 5 Pickup Sta
15. www fanox com Instantaneous deactivation Timing accuracy 5 or 30 ms whichever is higher Function permission yes no Tap 0 10 a 2 40 Inominal step 0 01 heating a 600 minutos step 1 min cooling 1 a 6 veces heating step 1 Alarm level 20 a 99 step 1 Trip level 100 Deactivation level 95 of alarm level Timing accuracy 5 respect of theorical value Trip time curves are valid under 20 times the adjusted tap With currents higher than 20 times the adjusted tap trip time and thermal image value are truncated to 20 times the adjusted tap Function permission yes no Operating range 0 10 to 30 xIn step 0 01 Operating time 0 02 to 300 s step 0 01 s Activation level 100 Deactivation level 105 Instantaneous reset Timing accuracy 30 ms Function permission yes no Operating range 4 to 110V step 1 V Operating time 0 02 to 300 s step 0 01 s Reset time 0 2 to 1200 0 s step 0 1 5 Activation level 100 Deactivation level 95 Temporized deactivation Timing accuracy 30 ms Function permission yes no Operating range 4 to 110V step 1 V Operating time 0 02 to 300 s step 0 01 s Reset time 0 2 to 1200 0 5 step 0 1 5 128 309 www fanox com Activation level 100 Deactivation level 95 Temporized deactivation
16. 9 00 NOTE The Maximum accumulated amperes adjustment units are M A square mega amperes whilst the Accumulated amperes counter units are K A square kilo amperes It is also necessary to assign the logical inputs 52a and or 52b to a physical input This function provides information about the circuit breaker status and if any maintenance alarm has been activated www fanox com 51 309 following statuses associated with this function Function Status 52 Breaker monitoring Description Start Error Open Opening Time Opening Failure Close Closing Time Closing Failure Energized Deenergized These are the different statuses of the circuit breaker automatic control exceeded Configured number of openings Activated if the counter that measures the number ofopenings exceeds the Maximum number of openings setting exceeded Configured accumulated amperes Activated if the accumulated amps counter exceeds Maximum accumulated amps setting Repetitive trips Activated the number of openings exceeds the setting in Maximum repeated openings for the time set in Time of maximum repeated openings The way that the circuit breaker is monitored becomes more or less complex depending on whether it is fitted with one breaker contact 52a or 52b or both 52a and 52b If only the circuit brea
17. Operating Time 5 00 5 Reset Time c 10 0 5 4 SETTINGS GEN T A 1 gt Function Enable NO Tap 10 VA Operating Angle c 90 Operating Time 5 00 5 SETTINGS lt GEN T A 1 gt 203 309 Settings 32 1 www fanox com AV Settings 32 3 OK AY AY AY AY Function Enable NO Tap 50 VA Operating Angle 90 Operating Time 2 00 s 1 SETTINGS GEN T A 1 COM gt Function Enable NO Tap 100 VA Operating Angle 90 Operating Time 1 00 5 204 309 Settings 32 2 Settings 32 3 www fanox com Settings 32 4 Settings 49 AY AY AY TN SETTINGS lt GEN T A 1 gt Function Enable NO Tap 200 VA E Operating Angle 90 Operating Time 0 02 5 SETTINGS lt GEN db MAI gt Function Enable c NO t T Curren ap c 1 00xIn 205 309 Settings 32 4 Settings 49 Heating constant AY 3 min AY Cooling constant Alarma Level 80 n Settings 81 1 E ap SETTINGS GEN qon gt Function Settings 81 1 NO Function 57 c Activation level AY 60 00 Hz Operating Time 0 02 5 Reset Time 02 28 www fanox com 206 309 www fanox com Settings 81 2 Settings 81 3 AY AY AY AY SETTIN
18. 25 25 LLLB Live line dead bar Activation Deactivation 25 DLLB Dead line live bar Activation Deactivation 25 LLDB live line dead bar Activation Deactivation 25 DLDB Dead line dead bar Activation Deactivation 25 Closure permission Activation Deactivation Circuit breaker monitoring 52 52 Start Deactivation www fanox com 107 309 52 Error Activation Deactivation 52 Open Activation Opening time 52 Opening time Activation 52 Opening failure Activation Deactivation 52 Close Activation Deactivation Closure time 52 Closure time Activation 52 Closure failure Activation Deactivation 52 Total excess openings Activation Deactivation Activation Deactivation ma time Activation Deactivation 52a Activation Deactivation 52 b Activation Deactivation Trip circuit monitorin 74 5 74TCS Pickup Activation Deactivation E 74TCS Activation Activation Deactivation Remote control Command selection Activation 52 Activation Close 52 Activation Lock 79 Activation Unlock 79 Activation Local control Command selection Activation Open 52 Activation Close 52 Activation Lock 79 Activation Unlock 79 Activation Set Remote Control to Local Activation Set Remote Control to Remote Activation www fanox com
19. 300V DC 110 230VAC 20 supply 24V DC 48 VDC 20 Environmental Operating temperature 10 to 70 C conditions Storage temperature 20 to 80 C Relative humidity 95 Mechanical Metal case characteristics Panel mounting 1 2 Rack 4 U IP 54 6 2 Standards IEC 61000 4 2 Electrostatic discharge immunity tests Level 4 Contact 8kV Air 15kV IEC 61000 4 3 Testing for immunity to RF electromagnetic field interference Level 4 30 V m at MHz 80 1000 800 960 1400 6000 61000 4 4 Immunity to fast transients Level 4 4kV 5kHz and 0 75 ms 20 100kHz IEC 61000 4 5 Surge immunity Level 4 Class 5 2kV Line Line 4kV Line Ground IEC 61000 4 6 Immunity to conducted disturbances induced by radio frequency Level 3 x 0 15 80 MHz 140 dB uV 10V IEC 61000 4 8 Power frequency magnetic field immunity test Level 5 Continuous 100 A m 3s 1000 A m IEC 61000 4 9 Pulse magnetic field immunity Level 5 1000 A m IEC 61000 4 10 Immunity to damped oscillatory magnetic fields Level 5 100 A m www fanox com 133 309 61000 4 11 61000 4 12 61000 4 14 61000 4 17 61000 4 18 61000 4 27 61000 4 29 60255 5 60255 5 60255 5 60068 2 1 60068 2 2 60068 2 14 60255 21 1 60255 21 2 60255 21 3 502
20. Digital output 4 NO Phase B voltage Digital output 5 NO Phase C voltage Digital output 6 NO Phase C voltage Digital output 7 NO Busbar Voltage Digital input 1 Busbar Voltage Digital input 2 74 5 voltage presence Digital input 3 74TCS coil 1 Digital input 4 74TCS coil 2 Common ol digital inputs 1 2 3 and 4 74TCS common Digital input 5 Auxiliary voltage Digital input 6 Auxiliary voltage Digital input 7 IRIG B connector depending on model Digital input 8 Common ol digital inputs 5 6 7 and 8 www fanox com 21 309 Compact SILB with DNP 3 0 TCP IP 2 5 508004 5 5 lt 22 309 www fanox com 0 Digital output common 1 A RS485 Modbus RTU Digital output 1 8 RS485 Modbus Digital output 1 RS485 Modbus A4 Digital output common 2 RJ45 connector for DNP 3 0 TCP IP protocol A Digital output 2 NC Phase A voltage Digital output 2 Phase A voltage 8 Digital output 3 NO Phase B voltage AS VIE Digital output 4 NO Phase B voltage A A Digital output 5 NO Phase C voltage A ANY Digital output 6 NO Phase C voltage 2 Digital output 7 NO Busbar Voltage
21. Phase Pickup gt Led3 Phase Pickup gt Led4 Phase Pickup gt Led5 y n Phase B Pickup gt Output 1 y n RESET 226 309 Configuration Processing Con 1 16 Led1 Phase B Pickup Phase B Pickup gt Phase gt Ledi www fanox com AV AV AV Phase Pickup gt Output 2 y n Phase B Pickup gt Output 3 y n Phase B Pickup gt Output 4 y n Phase B Pickup gt Output 5 y n Phase B Pickup gt Output 6 y n Phase B Pickup gt Output 7 y n Phase B Pickup gt Output 8 y n Phase B Pickup gt Output 9 y n 227 309 www fanox com AV AV AV AV AV AV AV Phase Pickup gt Output 10 Phase Pickup gt Output 11 Phase Pickup gt Output 12 Phase Pickup gt 79 Init y n Phase B Pickup gt Init y n Phase B Pickup gt Osc Init y n Phase B Pickup gt 79 Permit y n Phase B Pickup gt 52 Permit y n 228 309 FANOX view to unassign instantaneous states that assigned to output navigate to the menu of STATE of OUTPUTS On viewing the current state activated or deactivated of the output press OK to switch to viewing the first instantaneous state associated with the output and its index from 1 to 16 from this menu
22. 100 000 Dial 0 05 am Dial 0 1 Dial 0 2 10 000 Dial 0 3 Dial 0 4 Dial 0 5 Dial 0 6 t s Dial 0 7 s Dial 0 8 Dial 0 9 1 000 Dial 1 0 Dial 1 1 Dial 1 2 0 100 www fanox com 74 309 IEC Very Inverse 1000 000 100 000 Y EE www fanox com 75 309 N N N NS N SS www fanox com 76 309 4 22 ANSI IEEE Curves ANSI curves follow the following mathematical equation t TD x B Where I V we have the following curves e Inverse Curve e Very Inverse Curve e Extremely Inverse Curve Which relate to the parameters figuring in the following table The curve can move from its axis using the TD time selection device which the user can adjust ladjusted is the initial operating current set by the user www fanox com 77 309 ANSI IEEE Inverse 1000 000 100 000 I LI k 1 fr eee 0 X LLL LI LL _ 2 TUT 0221 1 I www fanox com 78 309 ANSI IEEE Very Inverse 1000
23. 59N 2 Pickup 59N 2 Trip Level1 Phase definite time undervoltage 27P 1 Phase A pickup 27P 1 Phase B pickup 27P 1 Phase C pickup 27P 1 Function pickup 27P 1 Phase A trip 27P 1 Phase B trip 27P 1 Phase C trip 27P 1 Trip Level2 Phase definite time undervoltage 27P 2 Phase A pickup 27P 2 Phase B pickup www fanox com 92 309 27P 2 Phase C pickup 27P 2 Function pickup 27P 2 Phase A trip 27P 2 Phase B trip 27P 2 Phase C trip 27P 2 Trip Level1 Definite time directional overpower 32 1 Pickup 32 1 Trip Level2 Definite time directional overpower 32 2 Pickup 32 2 Trip Level3 Definite time directional overpower 32 3 Pickup 32 3 Trip Level4 Definite time directional overpower 32 4 Pickup 32 4 Trip Level1 Underfrequency Overfrequency 81 1 Pickup 81 1 Trip 81 1 Block Level2 Underfrequency Overfrequency 81 2 Pickup 81 2 Trip 81 2 Block Level3 Underfrequency Overfrequency 81_3 Pickup 81_3 Trip 81 3 Block Level4 Underfrequency Overfrequency www fanox com 93 309 81_4 Pickup 81_4 Trip 81_ 4 Block Cold Load Pickup CLP Activation Circuit breaker opening fault 50BF Pickup 50BF Trip General states General trip Battery
24. EXECUTE COMMAND y n Block Recloser 4p COMMANDS EXECUTE COMMAND y n UnBlock Reclos COMMANDS lt gt COMMAND y n no Telecontrol COMMANDS lt gt www fanox com AY EXECUTE COMMAND y n Telecontrol Yes COMMANDS CONFIRM COMMAND Telecontrol Yes 222 309 EXECUTE COMMAND y n Telecontrol Yes 1 COMMANDS 7 6 15 Input configuration menu assign logical input to physical input navigate to the STATE menu of INPUTS viewing the state of the input activated deactivated press to view the physical input associated with that logical input rather than the current state of the logical input To change the associated physical input press and use the keys to navigate to the desired physical input confirm your choice by pressing OK Use the C key to return to previous menus States INPUTS TSTATES gt lt 52 not activated States INPUTS 52 Not Asigned I 52 not activated I S2a A Do not Asign y n 52 Set to Input 1 52 ay Set to Input 2 y n I 52 Set to Input 3 y n www fanox com 223 309 www fanox com 224 309 52 Set to Input 4 FANOX States INPUTS Configuration Processing
25. 5 50 6 50 7 50 8 50 Trip P 67 51 50 _1 1 67 Pickup 67 51 50 _2 3 67 Pickup 3 67 Pickup 4 67 5 67 6 67 7 67 Trip C 8 67 Trip P www fanox com 244 309 50 1 50 50 2 50 67 51 50 1 67 67 51 50 2 67 Activation 50BF Pickup Activation 46 Pickup Activation 49 Pickup Activation 37P_1 37 Pickup A 37P_2 37 Pickup B 37 Pickup C 37 Pickup P 37 Trip A 37 Trip B 37 Trip C 37 Trip P 59P 1 59 Pickup A 59P 2 59 59 59 Pickup P 59 Trip A 59 TripB 59 Trip 59 59N 1 59 59 2 59 www fanox com 245 309 27 _1 1 27 27P_2 2 27 Pickup B 3 27 Pickup C 4 27 Pickup P 5 27 Trip 6 27 TripB 7 27 TripC 8 27 Trip P eh P 1 32 Pickup 324 2 32 1 7 General 50Hz 17 General Ready 18 General Protection Error 19 General Setting changed 21 General time synching 22 General Local Remote Control 23 General EEPROM with default values 24 General EEPROM error 28 General EEPROM values changed 29 General Events Error 30 General New waveform captu
26. 74TCS coil 1 Digital input 6 74TCS coil 2 Digital input 7 74TCS common Digital input 8 Auxiliary voltage Common ol digital inputs 5 6 7 and 8 Auxiliary voltage www fanox com 25 309 3 DESCRIPTION 3 1 Introduction worldwide energy industry is going through profound transformation Due to huge energy demands more distribution lines with advanced monitoring systems are needed Assuming the need for creating intelligent infrastructure FANOX has developed the SIL range of products to carry out this function SIL B relay is designed to protect a feeder system using current and voltage functions It is designed to use a circuit breaker as a cut off component The protection functions may be activated selectively either by using the front mounted panel or through the communications link to the Slcom program which facilitates accurate coordination with other equipment As an additional advantage all the models have been designed so that they can be powered by an external battery This facilitates putting centers into operation event management and specific work under adverse conditions 3 2 Description The power supply voltage for the SIL B can be selected by model We cover a wide range of power supply voltages with two models 2406 48Vdc 906 300 110 230 Vac The following protection functions are available on the SIL
27. Inside Logical Nodes there are Data objects that compose a functional unit and inside each Data object there are Data attributes that give complete information about this Data object As example the ground overcurrent protection unit is represented in SILB according IEC 61850 as the logical node PIOC with the prefix GND and the instance 1 GNDPIOC1 In the Logical Node the starting of the unit is represented by its Data Object Str with a list of Data Attributes that give information about the starting Attribute neut indicates the status of the starting t attribute indicates the time stamp when the starting has changed etc www fanox com 269 309 2 588 TEMPLATELD 1 amp x Ef ccio2 Ef caros gt Kf cnorioci ST 0 Mod 1 0100000000000 01 01 1970_00 00 00 000 00001010 8 1 1 0000000000000 201 03 1970 22 40 59 163 00011000 8 If Health 1 1 0100000000000 u01 01 1970 00 00 00 000 0000 1010 sr F 1 1 0100001000000 401 01 1970_00 00 33 525 00001010 m general F 7 drGeneral 1 m neut F 1 dirveut 1 0100001000000 Mi u01 01 1970_00 00 33 525 00001010 E op F F 0100001000000 u01 01 1970_00 00 33 526 000010 10 mc DC The Data model of SILB according IEC 61850 is represented in the following tables Protection Function Logical Node Data O
28. STATES not activated Battery Supply not activated 50 2 lt lt ACTIVATED gt gt Mag M error not activated Measure error not activated Ready lt lt ACTIVATED gt gt States GENERAL 173 309 www fanox com Protecti error not activated Setting change not activated Manual Close not activated Set Date Time not activated No Telecontrol not activated FactorySetting not activated Eeprom error not activated present activated Eeprom changed not activated 174 309 www fanox com AV States INPUTS Event error not activated STATES activated activated block activated block activated Trip activated Trip activated States INPUTS 175 309 www fanox com 79 Init not activated 79 Enable not activated 79 Block not activated I0 Sett Table not activated Il Sett Table not activated Block Recloser not activated UnBlock Reclos not activated I 50BF Init not activated Input 1 not activated 176 309 www fanox com Input 2 not activated Input 3 not activated Input 4 not activated Input 5 not activated Input 6 not activated Input 7 not activated Input 8 not activated Control Voltage not activated 177 309 www fanox com States OUTPUTS Continuity A not activated Continuity B not activated STATES
29. as follows Function Description Minimum Maximum Default 67P 1 Inverse time phase directional overcurrent 67P 2 Permission Yes No No Curve 1 inverse 0 05 2 20 0 01 1 00 0 10 30 00 0 01 rated 5 00 Operating time 0 02 300 00 0 01 s 0 02 Directionality Yes No No Polarization voltage 4 00 110 1 V 5 Operating angle 0 359 1 90 Half cone angle 0 170 1 90 1 IEC Inverse IEC Very inverse IEC Extremely Inverse ANSI inverse ANSI very inverse ANSI extremely inverse definite time If the definite time option is selected for the curve setting the unit behaves as an instantaneous directional overcurrent unit In this case the unit s operating time is adjusted using the Operating time parameter If an inverse very inverse or extremely inverse curve is selected in the curve setting the operating time is a function of curve dial and pickup adjustments If the unit operates with definite time the function starts up at 100 of the adjusted pickup and resets at 95 If the unit operates with a curve the function starts up at 110 of the adjusted pickup and resets at 100 Resets are instantaneous in both cases The actuation time is accurate 10 5 o 30ms whichever is higher of the theoretical actuation time The curves that are used are IEC 60255 151 and ANSI IEEE which are described in the corr
30. phsB 59P_1 Trip C PHS PTOV1 Op phsC 59P_1 Trip P PHS PTOV1 Op general 59P_2 Start A PHS PTOV2 Str phsA 59P_2 Start B PHS PTOV2 Str phsB 59P_2 Start C PHS PTOV2 Str phsC 59P_2 Start P PHS PTOV2 Str general 59P_2 Trip A PHS PTOV2 Op phsA 59P_2 Trip PHS PTOV2 Op phsB 59P_2 Trip C PHS PTOV2 Op phsC 2 Trip P PHS PTOV2 Op general Measures Function Logical Node Data Object Current Phase A MMXU1 A phsA Data Attribute cVal mag i Current Phase B MMXU1 A phsB cVal mag i Current Phase C MMXU1 A phsC cVal mag i Voltage Phase A MMXU1 PhV phsA cVal mag i Voltage Phase MMXU1 PhV phsB cVal mag i Voltage Phase C MMXU1 PhV phsC cVal mag i Active Power MMXU1 TotW mag i Reactive Power MMXU1 TotVAr mag i Frequency MMXU1 Hz mag i System Functions Function Logical Node Data Object Teleprotection active Attribute www fanox com 274 309 Protection active Auxiliary Input 1 Auxiliary Input 2 Auxiliary Input 3 Auxiliary Input 4 Auxiliary Input 5 Auxiliary Input 6 Auxiliary Input 7 Auxiliary Input 8 Auxiliary Output 1 Auxiliary Output 2 Auxiliary Output 3 Auxiliary Output 4 Auxiliary Output 5 Auxiliary Output 6 Auxiliary Output 7 Auxiliary Output 8 Auxiliary Output 9 Auxiliary Output 10 Auxiliary Output 11 Auxiliary Output 12 79
31. 163 309 www fanox com AY States 27P2 Phase B Pickup not activated Phase C Pickup not activated Phase Pickup not activated Phase A Trip not activated Phase B Trip not activated Phase C Trip not activated Phase Trip not activated STATES 27 164 309 www fanox com AY States 32 1 Phase A Pickup not activated Phase B Pickup not activated Phase C Pickup not activated Phase Pickup not activated Phase Trip not activated Phase B Trip not activated Phase C Trip not activated Phase Trip not activated T STATES 27 States 27 2 165 309 www fanox com AV AV States 32 2 States 32 3 Pickup c States 32 1 not activated Trip not activated TSTATES Pickup c States 32 2 not activated Trip not activated T STATES Pickup c States 32 3 not activated Trip not activated 166 309 www fanox com AV AY States 32 4 States 49 TSTATES v States 32 4 Pickup not activated not activated STATES States 49 not activated not activated 167 309 www fanox com AV AY States 81 1 States 81 2 STATES States 81 1 Pickup not activated Trip not activated Function blocked lt lt ACTIVATED gt gt STATES Y Pickup c States 81 2 not activated Trip not acti
32. AY AY V BC 0 00 V T 13 37 18 37 19 37 20 37 21 37 151 309 www fanox com AY AY AY AY AY 00 VAR VA VA VA VA 22 37 26 37 27 37 28 37 29 37 152 309 www fanox com cosPhiA 0 00 cosPhiB 0 00 cosPhiC 0 00 Thermal Image 0 Lin Frequency 0 00 Hz Bar Frequency 0 00 Hz PhaseDifferenc 0 deg 153 309 7 6 10 Status menu From the default screen press the OK key to access the first level of menus Use the keys to select STATES and press OK This gives the menu for groups of states Use the keys to select a group of states and press to access the states belonging to the group Use the and Y keys to select different states The information provided for each state is whether or not it is active In the menus of groups of states the message gt Active appears beneath the name if the group contains any state that is active The following diagrams give a graphical representation of navigation in the state menu TSTATES 4 States 50 1 TSTATES Phase Pickup States 50 1 not activated Phase B Pickup not activated a AY Phase C Pickup AY not activated Phase Pickup AY not activated www fanox com 154 309 www fanox com AV States 50P2 Phase A Trip not activat
33. If the recloser is prohibited when all start ups disappear it is understood that the fault has disappeared this includes the circuit breaker fault With the recloser permitted the fault end is given by the final condition of the recloser regardless of whether it has been successful or it has become blocked As a general rule the following logic shall provide the fault end 5 5 Real Time Clock RTC For events oscillographies and alarms the protection equipment required a clock for date and time stamping This clock must keep the date and time even with no power supply for up to 72 hours With the capacity charged beforehand If there is an events queue and the clock is synchronized with a date and time prior to the last stored event the relay does not reorder the queue but rather it stores the new events after the events already in the queue This clock can be synchronized with another clock in various ways From the HMI In this case the date and time can be entered using a keyboard The relay will save a new event indicating that it has been synchronised By protocol There are two options in this case o Local protocol The performance is identical to the HMI the relay synchronises the date and time and executes a new synchronisation event o Remote protocols These protocols can include continuous synchronisation sections For this reason the execution of synchronisation events is inappropriate 5 6 Oscillography The
34. Particular commands in control address X 200 lt gt open close 20 www fanox com 268 309 10 61850 PROTOCOL This section describes the implementation of IEC 61850 protocol in compact SILB IEC 61850 protocol defines a way of structuring the available information in each device that is reflected in the Data Model and a way of managing and sending this information through communications using specific Services SILB device will be known as a Server IED Intelligent Electronic Device which services will be available using the Ethernet through its default IP 192 168 0 121 MMS will be the used Ethernet protocol for the Client Server communication and 102 will be the used port GOOSE fast messages is not a Client Server communication like TCP IP but a Multicast communication that sends messages directly to the Link Layer using MAC directions as destination directions for publishing the GOOSE 10 1 Data model Server IEDs have all the information of all their events measures parameters and services organized in a hierachical structure with device s functional units as main ones The main level of the structure is the name of the IED by default TEMPLATE with its instance LD1 Down the IED there are Logical Nodes that represent the functional units of the IED Protection Control and measure units status of external elements like circuit breaker etc
35. keys Once the date and time are correct press OK to accept the changes Pressing C will return to the default screen Access date and time information from the main screen by pressing DATE AND TIME 01 01 2000 01 43 25 01 01 2000 01 43 1 7 6 5 From the default screen press the 4 key access the fault menu Use the keys to select the report of interest and press OK to access the events contained in the fault report Access fault report information from the main screen by pressing lt FAULT REPORT 535 02 08 12 11 18 52435 12 04 12 01 57 03260 FAULT REPORT 535 1 New Osc Regist 02 08 12 11 18 52435 1 9 535 1 New Osc Regist E FAULT REPORT 534 02 08 12 11 17 12545 lt www fanox com 141 309 7 6 6 Versions and communications parameters From the default screen press and hold the key to access the versions Vers COM DSP 1 56 1 51 1 06 a Q A serial number From the default screen press and hold key to access to communications parameters LOCAL COM Settings 1 19200 8 1 REMOTE Settings 5 MODBUS Settings 2 19200 8 N 1 REMOTE COM parameters depend on model the protocol that it is used IEC61850 DNP3 0 or IEC60870 5 103 depending on model www fanox com 142 309 7 6 7 Test me
36. power T amp D SIL B Feeder Relay USER S MANUAL SIL_MANU_SILB_ING_R010_Beta 1 1 1 2 1 3 1 4 1 5 1 6 2 1 2 171 211 2 2 1 3 2 1 4 2 1 5 2 1 6 2 2 2 2 1 2 2 2 2 2 3 2 2 4 2 2 5 3 1 3 2 3 3 3 4 3 5 3 5 1 3 5 2 4 1 4 2 4 3 4 4 4 5 4 6 4 6 1 4 6 2 4 6 3 4 6 4 RECEPTION HANDLING 5 222222 22 2 6 em 6 Reception of relays L l LIU ceca Paar 6 Handling electronic equipment 6 Installation commisioning and services 7 m Qiu ash ass auqa Gu kasqas 7 Recycling iii 7 DIMENSIONS AND CONNECTION DIAGRANS 8 Non compact SILB with external magnetic module 8 Equipment TOME 8 Equipment dimensions 5 lt 9 0 11 0151 91 11 11 e 10 Magnetic module 10 Connection ta 11 VANS seg tg ii 13 Compact SILB without
37. use the A and keys to view each state up to 16 associated with the physical output From the screen showing any instantaneous state associated with the output and its index from 1 to 16 press and hold the RESET key to unassign the physical output www lanox com 229 309 8 MODBUS RTU PROTOCOL communication parameters as follows Adjustable Speed and Direction 8 data bits No parity 1 stop bit This document describes the steps to follow to read and write data on the SIL B relay as per the ModBUS RTU protocol This memory map is only valid for one piece of equipment and one version of the memory The positions of existing objects in the memory remain fixed from one version to the next but new objects will naturally have new addresses which will in turn remain fixed in future versions The memory map is described further on The standard ModBUS RTU protocol is used so any program or PC can communicate easily with the equipment The SIL B always acts as a slave which means that it never initiates communications The master is always responsible for initiating communications Only a subset of the ModBUS RTU functions is implemented e Reading function 3 e Writing function 16 The ModBUS RTU protocol is independent from the hardware Therefore the physical layer can exist in different hardware configurations RS232 RS485 fiber optic or Ethernet Specifically the relay has a front RS23
38. 00 00 D2 80 21 00 00 00 03 RESERVED checksum checksum H L 00 00 00 01 00 00 00 00 7C B1 0A AF DD 3B 1D www fanox com 257 309 9 IEC 60870 5 103 PROTOCOL This section describes the implementation of the IEC 60870 5 103 protocol in the device 9 1 Physical layer Electrical interface x RS 485 32 Number of loads for one protection equipment Communication rate X 4800 bits s X 9600 bits s X 19200 bits s X 38400 bits s Transmission parameters Data bits 8 bit Parity Even Stop bits 1 9 2 Application layer Application data transmission mode Mode 1 octet least significant first as defined in 4 10 of IEC 60870 5 4 is the only mode used in this company s standard The following functions are supported Pickup General interrogation Synchronization Transmission of commands Information in monitoring address lt 1 gt time tagged message www fanox com 258 309 lt 2 gt time tagged message wilh relative time lt 3 gt measures lt 5 gt identification lt 6 gt time synchronization lt 8 gt general interrogation termination Information in control address lt 6 gt time synchronization lt 7 gt general interrogation lt 20 gt general command Shared ASDU address SHARED ASDU ADDRESS the same as the station address More than one SHARED ASDU ADDRESSE
39. 1 activated Ground Trip not activated States 67N2 5 STATES Ground States 67N2 not activated Trip activated 159 309 www fanox com States Pickup States CLP not activated States 50BF x Pickup not activated States 50BF not activated States 46 Pickup not activated States 46 not activated 160 309 www fanox com AY States 59 1 T STATES v Phase A Pickup not activated Phase B Pickup not activated Phase C Pickup not activated Phase Pickup not activated Phase A Trip not activated Phase B Trip not activated Phase Trip not activated Phase Trip not activated States 59P1 161 309 www fanox com AY States 59 2 4 STATES 27 Phase Pickup not activated Phase B Pickup not activated Phase C Pickup not activated Phase Pickup not activated Phase A Trip not activated Phase B Trip not activated Phase C Trip not activated States 59P2 162 309 www fanox com Phase Trip not activated 5 States 59N1 1 5 5 Pickup c States 59 1 activated Ground Trip c not activated States 5912 c TT STATES Ground States 59N2 not activated Trip c activated States 2751 1 5 5 Phase Pickup States 27P1 not activated
40. 1 to 300 min Function permission yes no Opening failure time 0 02 to 1 00 s step 0 01 s Open breaker activation threshold 8 In Open breaker reset time 10 In Function start Device trip opening failure input activation breaker opening command activation Function permission yes no Wait permission yes no Number of reclosings 1 to 5 Reclosure times 1 2 3 4 5 0 02 to 300 00 s step 0 01 s Hold time 0 02 to 300 s step 0 01 s Locking possibilities pulse inputs level inputs commands Replacement time 0 02 to 300 00 s step 0 01 s Definitive opening time 0 02 to 300 s step 0 01 s Closure permission LLLB LLDB DLLB DLDB yes no Live line bar voltage level 30 to 110 V step 0 1 V Dead line bar voltage level 4 to 110 V step 0 1 V Voltage supervisi n temporisation 0 02 to 300 step 0 01 Line bar voltage difference 4 to 110 V step 0 1 V Line bar phase difference 0 to 359 step 1 Line bar frequency difference 0 02 to 0 50 Hz step 0 01 Hz Synchro temporization 0 02 to 300 5 step 0 01 5 Phase B line voltage and busbar voltage Modules and phases using DFT Frequency using hardware circuit with the passing through zero detection www fanox com 130 309 86 Settings tables Oscillography Fault report 8 configurable inputs www fanox com Permission signal minimum t
41. 108 309 5 4 Fault Reports A fault report is a record of specific events in the period of time when a fault occurs On the one hand an oscillography record is very extensive information but only short regarding time for a significant number of faults Also event recording can be filled with general events which provide no information of a fault tables change local pulsing etc whereby it could be filled with general information losing any fault information Therefore having a specific events record for the fault period is of significant help to resolve an incident This record has a 20 fault capacity and each fault can store 80 events At any moment the information of the twenty most recent fault reports is available Each new fault report generated is stored on the oldest is lost therefore the information of this one The fault report is time limited by means of a fault start and a fault end and these must be clearly established The twenty fault reports are generated and they are registered in no volatile FRAM memory From the HMI by pressing key lt you will gain access to fault reports The information displayed is as follows e Date time at which the fault started e List of all events occurred in the equipment during the fault The fault start is the same as that of the oscillography i e an oscillography shall always be associated to the fault report The fault end shall depend on whether the recloser is active
42. 302 309 12 7 Input configuration Logical inputs Not configured Inp1 Inp2 Inp3 4 212 Inp7 8 52 52 b 50P locking 50N locking Oscillography start input Input Start 79 79 permission 79 level locking 79 pulse locking 79 pulse unlocking Input start Table 0 Table 1 External trip www fanox com 303 309 12 8 Output configuration Output 1 Output 2 Output 3 Output 4 Output 5 Output 6 Output 7 Start 79 www fanox com 304 309 Start Start oscillography 79 Closure permission 52 closure permission www fanox com 305 309 12 9 LED s configuration LEDs Blinking Latch Negate q LED On LED 1 LED 3 LED 4 www fanox com 306 309 12 9 1 LED s configuration template 12 10 Comments www lanox com 307 309 www fanox com 308 309 FANOX power T amp D FANOX ELECTRONIC S L Parque Tecnol gico de Bizkaia Astondo bidea Edif 604 ES 48160 DERIO BIZKAIA Tel 34 94 471 14 09 Fax 34 94 471 05 92 fanox fanox com www fanox
43. 3124 5124 DENUMNOSI 324 Permission 3125 5125 FLOAT 32 4 Pickup 3126 5126 LONG 32 4 Characteristic angle 3127 5127 FLOAT 32 4 Time 3128 5128 DENUM NOSI 49 Permission 3129 5129 FLOAT 49 Tap 3130 5130 FLOAT 49 Cheating 3131 5131 FLOAT 49 Zcooling www fanox com 253 309 3132 5132 FLOAT 49 Alarm 3133 5133 DENUM NOSI 74TCS Permission 3134 5134 FLOAT 74 5 Timing 3135 5135 DENUM NOSI CLP Permission 3136 5136 FLOAT CLP 50P_1 multiplier 3137 5137 FLOAT CLP 50P_2 multiplier 3138 5138 FLOAT CLP 67P_1 multiplier 3139 5139 FLOAT CLP 67 _2 multiplier 3140 5140 FLOAT CLP 50N_1 multiplier 3141 5141 FLOAT 2 multiplier 3142 5142 67 1 multiplier 3143 5143 FLOAT CLP 67N_2 multiplier 3144 5144 FLOAT CLP Cold Load pass time 3145 5145 FLOAT CLP duration time 3128 5128 DENUM NOSI 49 Permission 3129 5129 FLOAT 49 Tap 3130 5130 FLOAT 49 Cheating 3131 5131 FLOAT 49 Zcooling 3132 5132 FLOAT 49 Alarm 3133 5133 DENUM NOSI 81_1 Permission 3134 5134 DENUM 81_1 Type 3135 5135 FLOAT 81_1 Activation level 3136 5136 FLOAT 811 Operating time 3137 5137 FLOAT 81_1 Reset time 3138 5138 DENUM NOSI 812 Permission 3139 5139 DENUM 81_2 Type 3140 5140 FLOAT 81_2 Activation level 3141 5141 FLOAT 81_2 Operating time 3142 5142 FLOAT 81_2 Reset time 3143 5143 DENUM NOSI 81_3 Permission 3144 5144
44. 52 Asigned to Input 4 9 FA OX 7 6 16 Menu for configuration of physical outputs logical outputs and LEDs The same steps are followed to assign an instantaneous state to a physical output to an LED or to a logical output Navigate through the STATE menu to the desired instantaneous state Once the state is selected press to enter the output configurations menu Use the and keys to navigate to the desired physical output LED or logical output LEDs can be configured as NEGATED by pressing the RESET key and this state is then indicated with the symbol LEDs can be configured as FLASHING by pressing the 4 key and this state is then indicated with the symbol LEDs can be configured as LATCHED by pressing the gt key and this state is then indicated with the symbol Press to confirm After confirmation the screen will show an index of 1 to 16 associated with the instantaneous state in the configuration Use the C key to return to previous menus States 50P1 dello Phase oK not activated States 50P1 Phase B Pickup activated States 5001 Phase Pickup gt LedON Phase B Pickup AV Phase B pickup gt c States 50P1 gt Led1 y n gt ied y n States 50P1 www fanox com 225 309 www fanox com AV AV AV Phase Pickup gt Led2
45. 67N_1 Directionality 3052 5052 FLOAT 67N_1 Polarization voltage 3053 5053 LONG 67N_1 Operating angle 3054 5054 LONG 67N_1 Half cone angle 3055 5055 DENUM NOSI 67N_2 Permission 3056 5056 DENUM 67 2 3057 5057 67 2 Dial 3058 5058 FLOAT 67N_2 Pickup 3059 5059 FLOAT 67N_2 Operating time 3060 5060 DENUM NOSI 67N_2 Directionality 3061 5061 FLOAT 67N_2 Polarization voltage 3062 5062 LONG 67N_2 Operating angle 3063 5063 LONG 67N_2 Half cone angle 3064 5064 DENUM NOSI 50BF Permission 3065 5065 FLOAT 50BF Opening failure time 3066 5066 DENUM NOSI 46 Permission 3067 5067 DENUM 46 Curve CURVAEXT 3068 5068 FLOAT 46 Dial 3069 5069 FLOAT 46 Pickup 3070 5070 FLOAT 46 Operating time www lanox com 251 309 3071 5071 LONG 52 Excess number of openings 3072 5072 LONG 52 Maximum accumulated amperes 3073 5073 FLOAT 52 Opening time 3074 5074 FLOAT 52 Closure time 3075 5075 LONG 52 Excess repeated openings 3076 5076 FLOAT 52 Repeated openings excess time 3077 5077 DENUM NOSI 79 Permission 3078 5078 DENUM NOSI 79 Wait permission 3079 5079 LONG 79 Number of reclosings 3080 5080 FLOAT 79 Reclosure 1 time 3081 5081 FLOAT 79 Reclosure 2 time 3082 5082 FLOAT 79 Reclosure 3 time 3083 5083 FLOAT 79 Reclosure 4 time 3084 5084 FLOAT 79 Reclosure 5 time 3085 5085 FLOAT 79 Wait time 308
46. DENUM 81_3 Type www fanox com 254 309 3145 5145 FLOAT 813 Activation level 3146 5146 FLOAT 81_3 Operating time 3147 5147 FLOAT 81_3 Reset time 3148 5148 DENUM NOSI 81_4 Permission 3149 5149 DENUM 814 3150 5150 FLOAT 814 Activation level 3151 5151 FLOAT 814 Operating time 3152 5152 FLOAT 81_4 Reset time 3153 5153 FLOAT 25 Live line voltage level 3154 5154 FLOAT 25 Dead line voltage level 3155 5155 FLOAT 25 Live bar voltage level 3156 5156 FLOAT 25 Dead bar voltage level 3157 5157 FLOAT 25 Voltage supervision temporisation 3158 5158 DENUM NOSI 25 Permission LLLB 3159 5159 DENUM NOSI 25 Permission LLDB 3160 5160 DENUM NOSI 25 Permission DLLB 3161 5161 DENUM NOSI 25 Permission DLDB 3162 5162 FLOAT 25 Line bar voltage difference 3163 5163 FLOAT 25 Line bar phase difference 3164 5164 FLOAT 25 Line bar frequency difference 3165 5165 FLOAT 25 Synchronism time 3166 5166 DENUM NOSI 37P_1 Permiso 3167 5167 FLOAT 37P_1 Toma 3168 5168 FLOAT 37P_1 Tiempo operaci n 3169 5169 DENUM NOSI 37P_2 Permission 3170 5170 FLOAT 37P_2 Tap 3171 5171 FLOAT 37P_2 Operating Time 3172 5172 DENUM NOSI 74TCS Permission 3173 5173 FLOAT 74TCS Timing 3174 5174 DENUM NOSI CLP Permission www fanox com 255 309 3175 5175 FLOAT CLP 50P_1 multiplier 3176 5176 FLOAT CLP 50P_2 mul
47. Enabled Local Parameter Setting Trip Circuit Supervision Trip I gt Trip IN gt 52 Status Open Failure 52 Status Close Failure 52 Status excessive openinigs 52 Status excessive sum LPHD1 PwrUp stVal GGIO1 Ind1 stVal GGIO1 Ind2 stVal GGIO1 Ind3 stVal GGIO1 Ind4 stVal GGIO1 Ind5 stVal GGIO1 Ind6 stVal GGIO1 Ind7 stVal GGIO1 Ind8 stVal GGIO1 199 stVal GGIO1 Ind10 stVal GGIO1 Ind11 stVal GGIO1 Ind12 stVal GGIO1 Ind13 stVal GGIO1 Ind14 stVal GGIO1 Ind15 stVal GGIO1 Ind16 stVal GGIO1 Ind17 stVal GGIO1 Ind18 stVal GGIO1 Ind19 stVal GGIO1 Ind20 stVal GGIO2 Ind1 stVal GGIO2 Ind2 stVal GGIO2 Ind3 stVal GGIO2 Ind4 stVal GGIO2 Ind5 stVal GGIO2 Ind6 stVal GGIO2 Ind7 stVal GGIO2 Ind8 stVal GGIO2 Ind9 stVal GGIO2 Ind10 stVal www fanox com 275 309 switched amperes 52 Status excessive openings per minute 52 A Status 52 B Status 52 Status Error 79 Status Reclose Time 79 Status Open 79 Status Wait Time 79 Status Reclaim Time 79 Status Security Time 79 Status Final opne Time GEN 50Hz Magnetic module Error GEN Measurand Error GEN Synchronism GEN Eeprom with default values GEN eeprom Error GEN Eeprom values changed GEN Events Error GEN New Oscillograph register 52 a Input 52 b Input Phase lockout input Ground lockout input External trip input Oscillog
48. Floating Point Analog Change Events with Time may be requested Maximum Data Link Frame Size octets Maximum Application Fragment Size octets Transmitted 292 Transmitted 2048 Received 292 Received 2048 Maximum Data Link Re tries Maximum Application Layer Re tries O None 9 None O Fixed at O Configurable Configurable from 0 to 255 Default 3 Requires Data Link Layer Confirmation O Never O Always Sometimes If Sometimes when Configurable as Never Only for multi frame messages or Always Default Never Requires Application Layer Confirmation O Never O Always not recommended O When reporting Event Data Slave devices only L When sending multi fragment responses Slave devices only www fanox com 283 309 O Sometimes If Sometimes when Configurable as Only when reporting event data or When reporting event data or multi fragment messages Timeouts while waiting for 1 Default at 5000ms Variable Fixed at ___ Variable Default at 5000ms Variable Fixed at ___ Variable Configurable N Configurable Configurable N Configurable Data Link Confirm None Complete Appl Fragment None Application Confirm None Complete Appl Response None Others Need Time Interval configurable default Enable Need Restart IIN configurable default Disable Unsolicited Response Retry Delay configurable default 2000ms Unsolicited Offline Inte
49. Permission to Permission to Download and Execute commands Change delete the configuration events Read only permission ACCESS Status and Permission to protected settings LEVEL measurements Settings Events 1 YES YES NO NO YES 2 YES YES NO NO NO 3 YES NO YES NO NO 4 YES YES YES NO NO 5 5 YES YES YES NO Four passwords and their associated levels of access are set up when the equipment is configured using the Slcom program By default the equipment is programmed with the following passwords and their associated levels PASSWORD ACCESS LEVEL 2222 2 3333 3 4444 4 5555 5 www fanox com 139 309 7 6 Menus 7 6 1 Default screen The default screen shows the device model and the currents in phase A phase B phase C and Neutral Press OK to select a menu measurements states settings and events If the HMI is left in any state it will return to the default screen after 5 minutes without any key being pressed A 48 If an error is detected through the diagnostics an error message will appear on the second line of the main screen in place of the currents showing the following information as applicable see the section on diagnostics PROTECTION ERROR MEASUREMENT ERROR EEPROM ERROR MAGNETIC MODULE ERROR 7 6 2 Last Trip screen When a trip occurs the default screen alternates with the last tri
50. SIL B relay stores 2 oscillographic logs with a resolution of 16 samples cycle and a size of 138 cycles of which the first 10 correspond to the pre fault The oscillography can be downloaded by communications from the front or rear port through the Modbus protocol the protocol is documented in this manual The SICom communications program allows the oscillography to be downloaded and saved in COMTRADE format IEEE C37 111 1991 www fanox com 109 309 following information is included each oscillographic log Number Analogue channels 1 Phase current 2 Phase B current 9 Phase current 4 Neutral current 5 Phase 6 Phase voltage 7 Phase voltage 8 Busbar voltage The primary current and voltage are expressed in amperes and volts As well as the analogue magnitudes the relay stores 128 digital logs with the same precision of 16 samples cycle These 128 bits have the following content 1 50P_1 Pickup phase A 2 50P_1 Pickup phase B S 1 Pickup phase 4 50P 1 Trip 5 50P 2 Pickup phase A 6 50P 2 Pickup phase B 7 2 Pickup phase 8 2 Trip 9 67 1 Pickup phase 10 67P_1 Pickup phase 11 67P_1 Pickup phase 12 67 1 67 2 Pickup phase 14 67 2 Pickup phase 15 67 2 Pickup phase 16 67 2 Trip ile 50N_1 Pickup 18 50N_1 Trip 19 5
51. Start oscillography General trip Oscillography start input 79 Closure permission 79 closure supervision Not configured because of syncronism 52 closure permission 52 closure supervision Not configured because of syncronism The Output configuration menu section describes the process to configure the outputs www fanox com 119 309 5 10 86 Function output lockout When the trip utput is configured OR_LATCH this output is locked thanks to programmable logic 5 11 Configurable Leds The device features 8 LEDs 6 of which are configurable while the other two are assigned to fixed purposes Breaker status on when the breaker is closed Recloser status on when the recloser is operational The other LEDs can be configured by the user with the default configuration as follows LED Description Status Blinking Latch Negated LED Ready Ready x LED 1 50P 67P_1 50P_1 Trip x 50P_2 Trip 67P_1 Trip 67P_2 Trip 46 Trip 59P_1 Trip 59P_2 Trip 27P_1 Trip 27P_2 Trip LED 2 50N 67N_1 50N_1 Trip x 50N_2 Trip 67N_1 Trip 67 2 Trip 59N_1 59N_2 Trip LED 3 50BF 50BF_Trip x LED 4 32 40 32_1 Trip X 32_2 Trip 32_3 Trip 32_4 Trip LED 5 74TCS 74TCS_Activation X Although the ON LED is configurable it is recommended that its default configuration as Ready not be modified www fanox com 120 309 5 12 Self diagnosis Diagnostic
52. T A 1 194 309 Settings 50N1 Settings 50N2 www fanox com OK AV AY AY AY AY AY AY Function Enable NO Curve type Def Tim Time Dial 0 05 Current Tap 0 20 xIn Operating Time 5 00 s Directional YES Polarization V 35 0 Operating Angle 180 195 309 Settings 67N1 www fanox com Settings 67N2 AY AY AY AY AY AY Halfcone Angle 3 ay SETTINGS GEN 1 gt Function Enable NO Curve type Def Tim Time Dial 1 00 Current Tap 1 00 xIn Operating Time 0 02 s Directional YES Polarization V 35 0 V 196 309 Settings 67N2 www fanox com AV Settings CLP AY AY OK AY AY AY AY Operating Angle 180 Halfcone Angle 3 4p SETTINGS lt GEN T A 1 gt Function Enable NO Multiplier 50 1 1 00 Multiplier 50P2 1 00 Multiplier67P1 1 00 Multiplier 67P2 1 00 197 309 Settings CLP www fanox com AY Settings 50BF AY AY AY AY AY AY OK AY Multiplier 1 00 Multiplier 1 00 Multiplier 1 00 Multiplier 1 00 No Load Time 15 s Cold Load Time 15 s SETTINGS GEN 2 am A gt Function Enable NO Operating Time 0 02 s 198 309 Settings 50BF www fanox com Settings 46 Settings 59 1 AY AY AY
53. back through the menu levels As well as the 6 keys there is also a Reset key When Reset is pressed LEDs return to their initial position The Reset key can also be used to delete all of the events in the Events menu This is equipped with a specific key marked with 79 which permits operation on the recloser locking and unlocking it It is also equipped with a specific key marked with 52 which permits operation on the circuit breaker opening and closing it 7 4 SICom Communications program The Slcom program which works with the Windows 2000 XP 7 operating system is provided and can be used to gain access to all of the equipment information to modify the settings and to save events using a graphic user interface The following operations can be carried out using the Slcom program Status reading Measurement reading Reading and changing settings Reading and deleting events Changing the user passwords Loading settings files Date time synchronisation Checking the versions of the equipment Inputs outputs and leds configuration www fanox com 138 309 7 5 Setting the session Password and access levels Users must identify themselves with a password in order to start communications and to change the equipment settings or configuration using the HMI Depending on the access level it may or may not be possible to perform the operations shown on the table below Permission to Change settings
54. by opening When the circuit breaker opens the maximum number of primary amps in any of the phases is detected This reading is squared and divided by 1000 and then rescaled to KA and accumulated If the current detected in the opening is less than the rated current the rated current value is used for the accumulation It is used in conjunction with the counter of the number of openings to measure the circuit breaker aging process Since primary amps are being accumulated it is essential to correctly adjust the phase CT transformation ratio The Maximum accumulated amps setting is associated with this counter When the number of accumulated amps exceeds this preset value the Maximum accumulated amps status is activated and its corresponding event is generated The value of this counter can be started at any value within its range from the hmi or from communications if this protection is fitted on a circuit breaker with a previous service life This alarm can be replaced by modifying the Accumulated Amps counter The display unit shall be KA square kilo amperes 4 13 4 Maximum openings in a time window As well as counting the number of times the circuit breaker opens the SIL B equipment sets up a time window and the maximum number of openings allowed during this time Both parameters can be adjusted When this number is exceeded the Excess of repetitive number of openings status is activated and its corresponding ev
55. communications ports 85485 136 LCD and 222 12 ISI iii 138 SICom Communications program 138 Setting up the session Password and access levels 139 JD DU e 140 BI 140 Last Tip M 140 IMIG TU ACCESS rU 140 Date Time MENU iaia 141 Faul rep e 141 Versions and communications parameters seen 142 zs 143 Functions rp 148 Measurements pet tyre 149 Status MCU P 154 105 116 12225255 Sa hieu e tp De paces pda 187 EN RE EE 216 SOULS EET 218 Commands ii lei 220 input configuration 11 14 eer 223 Menu for configuration of physical outputs logical outputs and LEDs 225 MODBUS RTU PHOTOQGCOL nro conari endis sra re 230 ModBus package Tormalt UU 231 Function od s U UU anaana 44424444 41144444 231 Exceptions and error responses U enenatis 232 BEA e POE E 232 SIL B memory m
56. control closing of the circuit breaker In this case it shall switch to safety time during this time there is a trip it shall revert to Lockout e Unlocking of the recloser Via a command Of all the remaining conditions it is interesting to know that the recloser sends a closure command whilst it is in the Close Time condition and for this reason if you wish to program an output on said command the output must be set to the 79TmpCierre bit configuration U model SILB 2 4 Configurations 8 Read from file i 4 Receive from the equipment Output 10 Send to equipment Save file as Functions i El INPUTS L OUTPUTS E Output 1 El Output 2 Output 3 Output 4 Output 5 Output 6 E Output 7 Output 8 El Output 9 Output 10 E Output 11 Output 12 LEDS amp INTERNAL STATES El REMOTE MODBUS El IEC 60870 5 103 El LOCAL MODBUS _ cance The 79 Start status is adjustable logical output The default configuration is shown below Activation of the recloser start input 79 start input 67P_1 trip 67N_1 trip 46 trip www fanox com 61 309 By default in this configuration the recloser is not activated by the operations of functions 1 50P_2 50N_1 50N_2 and 50BF 4 16 1 Counter to record the number of reclosings The SIL B equipment is fitted with a counter that records the number of reclosings 4 17
57. ends of rs485 terminals In highly aggressive environments fiber optics can be used with the corresponding converters Connection diagram of an RS485 bus www fanox com 136 309 SILB with RS485 port for ModBus and one RJ45 port for 61850 or DNP3 0 The device features 1 exterior RS485 connections through three terminals y GND located on the back of the unit The protocol used is Modbus RTU These ports can be used for the continuous monitoring of the device from a remote PC or SCADA system Up to 32 units can be connected to one bus each with its own modbus address Speed and direction are configurable In order to minimize communications errors due to noise a shielded twisted conductor cable is the recommended physical medium In order to make the connection connect all terminals on one side and all terminals on the other side If a 3 strand cable is used for communication the ground terminals GND should be connected to the earth cable If a 2 strand cable is used for communication the ground terminals GND should be connected to the cable shielding The shielding should be connected to GND at only one point so as to avoid circular currents Resistance loads must be used at both ends if a very long cable is used The best solution for avoiding signal reflection is the addition of resistance loads at both ends of the cabl
58. handle the module by its edges e Remember that everyone who handles the module must have the same potential Use a conductive bag to transport the module For more information about how to handle electronic circuits consult official documents such as the IEC 147 OF www fanox com 6 309 1 4 Installation commisioning and service The personnel in charge of installing commissioning and maintaining this equipment must be qualified and must be aware of the procedures for handling it The product documentation should be read before installing commissioning or carrying out maintenance work on the equipment Personnel should take specific protection measures to avoid the risk of electronic discharge when access is unlocked on the rear part of the equipment In order to guarantee safety the crimp terminal and a suitable tool must be used to meet isolation requirements on the terminal strip Crimped terminations must be used for the voltage and current connections It is necessary to connect the equipment to earth through the corresponding terminal using the shortest possible cable As well as guaranteeing safety for the personnel this connection allows high frequency noise to be evacuated directly to earth The following checks must be performed before the equipment is supplied The rated voltage and polarity power rating of the CT circuit and the integrity of the connections integrity of the earth connect
59. in compact version 61850 ModBus RS485 DNP3 0 TCP IP ModBus RS485 IEC 60870 5 104 ModBus RS485 7 outputs 8 inputs 4U x 1 2 rack External MMS Compact 40 x 1 2 rack English Spanish French and German English Spanish French and Turkish English Spanish French and Russian 294 309 12 2 Checks Cabling verification Case earth o Vaux value g 12 3 Switch configurations 12 4 Test menu LED 1 LED 2 LED 3 LED 4 LED 5 LED 79 LED 52 LED ON 12 5 setting log 60 Hz 50 Hz Output 1 Output 2 Output 3 Output 4 Output 5 Output 6 Output 7 PASSWOrdi RR 9210 2 www lanox com 295 309 Rated phase and neutral currents Rated phase current Rated neutral current 50P_1 Permission Current pickup Definite time 2 Permission Current tap Definite time 67 51 50 _1 Permission Current pickup Curve type Dial Definite time Directionality Polarization voltage Operating angle Half cone angle 67 51 50 _2 Permission Current pickup Curve type Dial Definite time Directionality Polarization voltage Operating a
60. lt 110 gt 67 Start C 2 SE 201 lt 111 gt 67 Start P 2 SE X 201 lt 112 gt 67 2 X 201 lt 113 gt 67 2 X 201 lt 114 gt 67 2 201 lt 115 gt 67 2 5 202 lt gt Live Line Live Bus 1 SE GI X 202 lt 2 gt Live Line Dead Bus 1 SE GI X 202 lt 3 gt Dead Line Live 1 SE GI www fanox com 266 309 202 lt 4 gt Dead Line Dead 1 SE X 202 lt 5 gt Synchronism Permmision 1 SE X 202 lt 8 gt 27 Start A 2 SE X 202 lt 9 gt 27 Start B 2 SE X 202 lt 10 gt 27 Start C 2 SE X 202 lt 11 gt 27 Start P 2 SE X 202 lt 12 gt 27 Trip 2 SE X 202 lt 13 gt 27 Trip B 2 SE X 202 lt 14 gt 27 Trip C 2 SE X 202 lt 15 gt 27 Trip P 2 SE X 202 lt 16 gt 27 Start 2 202 lt 17 gt 27 Start 2 202 lt 18 gt 27 Start 2 202 lt 19 gt 27 Start P 2 SE X 202 lt 20 gt 27 Trip 2 SE X 202 lt 21 gt 27 Trip B 2 SE X 202 lt 22 gt 27 Trip C 2 SE X 202 lt 23 gt 27 Trip P 2 5 202 lt 24 gt 59 Start 2 202 lt 25 gt 59 2 202 lt 26 gt 59 Start N 2 SE X 202 lt 27 gt 59 Trip N 2 SE X 202 lt 28 gt 59 Start A 2 SE X 202 lt 29 gt 59 Start B 2 SE X 202 lt 30 gt 59 Start 2 SE 202 lt 31 gt 59 Star
61. measurement evolution 2 43 Thermal image with rmermoty LLL eerte 44 Thermal image measurement display Reset 44 Thermal protection CUNGS u 45 www fanox com 2 309 4 7 4 8 4 9 4 10 4 11 4 12 4 13 4 13 1 4 13 2 4 13 3 4 13 4 4 14 4 15 4 16 4 16 1 4 17 4 17 1 4 17 2 4 18 4 19 4 20 4 21 4 22 4 23 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 5 10 5 11 5 12 5 13 5 14 5 15 Function 37P Definite time phase undercurrent 46 Function 59P 1 59P 2 Definite time phase overvoltage 46 Function 59N 1 59N 2 Definite time neutral overvoltage 47 Function 27P 1 27P 2 Definite time phase undervoltage 47 Function 32 40 Definite time directional overpowetr 48 Function 810 U Overfrequency and underfrecuency protection 50 Function 52 Circuit Breaker monitoring 51 Circuit Breaker opening and closing 54 Counter to register the number of 55 Accumulated amps counter Fiaip iii 55 Maximum openings in a time
62. must not be confused with locked Prohibited means that the recloser shall never be in operation regardless of the controls performed on it A locked recloser means that the recloser is not operative but either because it has reached the end of the reclosing cycle or a fault has been detected or someone has performed a control procedure on it There is a final permission which serves to indicate that recloser must wait a period of time before closure In this time there is usually an external condition such as closure synchronism and this condition is defined by an external input Each reclosing cycle has its own specific operation time that can be set Apart from these times a further three times must be set e Hold time This is the time the reclosing device waits for an external condition for closure e Reset time This is the Hold time for the recloser for a final closure If during this time there is another trip the recloser count will increase e Final opening time The is the time used by the recloser to declare that the circuit breaker is finally open In this case the recloser understands that the opening was manual or via remote control and no reclosing is necessary On exceeding this time the recloser shall switch to locked mode The reclosing function settings are shown below Function Description Minimum Maximum Step Unit Default Reclosing device Permission Yes No No Hold per
63. setting index of 7001 61 GAJU See settings map each protection criterion 8 6 Counter map Active positive 3 phase energy counter Active negative 3 phase energy counter Reactive positive 3 phase energy counter Reactive negative 3 phase energy counter Counter for the number of openings Total amps counter 121 Reclosures counter Thermal image www fanox com 234 309 Commands Open breaker Close breaker Lock recloser Unlock recloser Local control Remote control Measurements map www fanox com IA Phase A current IB Phase B current IC Phase C current IN Neutral current 11 Positive sequence current 12 Negative sequence current VA Phase A voltage VB Phase B voltage VC Phase C voltage VN Neutral voltage VBBus Phase B Busbar voltage VAB Voltage between phases A and B VBC Voltage between phases B and C VCA Voltage between phases C and A Angle A Angle between voltage and current in phase A Angle B Angle between voltage and current in phase B Angle C Angle between voltage and current in phase C P 3 phase active power PA Active power phase A PB Active power phase B PG Active power phase C 235 309 8 9 Criterion number 3 phase reactive power QA Reactive power phase QB Reacti
64. time and reset time is adjusted time plus a maximum of 30ms The frequency measurement is done from the voltage of phase It takes a minimum of 30 volts at this stage for 81 functions to be operational If the measured phase voltage is less than 30 volts it activates a state bit indicating function blocked When the frequency measurement is again valid function begins in the start state with all bits and counters reset This protection function is adjusted by setting five different parameters Function Description Minimum Maximum Default 81 1 Overfrequency or Underfrequency 81 E Permission Yes No No 81 72 1 Underfrequency 81 4 activation level 45 00 65 00 0 01 Hz 55 Operating time 0 02 300 00 0 01 S 100 Reset time 0 2 1200 0 0 1 S 0 2 1 Overfrequency or Underfrequency www fanox com 50 309 4 13 Function 52 Circuit monitoring This function allows the status of the circuit breaker to be monitored and preventive maintenance to be performed for which the following parameters need to be configured Function Description Minimum Maximum Step Unit Default 52 Circuit breaker monitoring Excess of number of openings 1 10 000 1 10 Maximum accumulated amperes 1 100 000 1 M A 1 000 Opening time 0 02 300 00 0 01 5 0 10 Closing time 0 02 300 00 0 01 s 0 10 4 number of 1 10 000 1 _ 3 1 00 300 00 0 01
65. 0 0 01 s 100 Reset time 0 2 1200 0 0 1 s 0 2 The operating time is completely independent from the measured phase voltage such that if the phase voltage exceeds the adjusted value for a period of time equal to or higher than the pre established value the protection function actuates trips and does not reset itself until the measured phase voltage value drops below the pre established voltage point during adjusting reset time The function activates at 100 of the adjusted input and deactivates at 95 Reset is temporized and reset time is adjusted with reset time parameter The accuracy of the operating time is the adjusted time 30ms www fanox com 46 309 4 9 Function 59 1 and 59 2 Definite time neutral overvoltage This protection function is adjusted using three parameters Function Description Minimum Maximum Step Unit Default 59N 1 Definite time neutral overvoltage 59N_2 Permission Yes No No Pickup 4 110 1 V 10 Operating time 0 02 300 00 0 01 s 100 Reset time 0 2 1200 0 0 1 s 0 2 The operating time is completely independent of the measured neutral voltage such that should the neutral voltage exceed the set value during the same amount of time or more than the set one during operation time the protection function acts trips and there it is not restored until the measured value of the neutral voltage drops below the voltage set point during adjus
66. 000 100 000 10 000 t s 1 000 4 0 100 Ili 100 0 www fanox com 79 309 ANSI IEEE Extremely Inverse 1000 000 100 000 www fanox com 80 309 4 23 Application examples It is important to know that if both overcurrent protection functions 50 and 51 phase or neutral are enable definite time function function 50 must be more restrictive So if overcurrent fault values are low inverse time overcurrent function function 51 must work and if overcurrent fault reaches a certain value definite time overcurrent function will always work This is because when overcurrent fault reach high values 1 gt gt it is necessary to be sure that trip is going to be instantaneous to get that the element we are protecting does not be damaged It is shown somo examples below APPLICATION EXAMIPLE 1 Starting from the following information Line details e Transformation ratio of CT 100 1 e Primary current 1 100 51 function settings e Curve type IEC Inverse e Dial 0 05 Tap 1xl 50 function settings e Tap 11xl e Operating time 0 05 s 0 3500 0 3000 0 2500 0 2000 0 1500 _ 11 0000 0 1425 0 1000 Function 51 Function 50 0 0500 0 0000 0 0000 10 0000 20 0000 30 0000 40 0000 Figure 1 50 51 IEC Inverse ww
67. 0N_2 Pickup 20 50N_2 Trip 21 67N_1 Pickup 22 67N_1 Trip 23 67 2 Pickup 24 67 2 25 46 Pickup 26 46 Trip 27 50BF Pickup 28 50BF Trip 29 Activated 30 52 Error 31 52 Open 32 52 Opening failure 33 52 Close 34 General trip 35 79 Inactive 36 79 Reclosing time 79 52 38 79 Hold time 39 79 Closure time 40 79 Reset time 41 79 Lockout 42 79 Safety time www lanox com 110 309 FA OX 43 79 Definite opening time 44 59P_1 Pickup phase A 46 1 Pickup phase 47 1 49 2 Pickup phase 50 2 Pickup phase 52 59N_1 Pickup 53 59 1 Trip 55 59N_2 Trip 56 27 1 Pickup phase 58 27 1 Pickup phase 59 27 1 61 27 2 Pickup phase 62 27 2 Pickup phase 64 32 1 Pickup 65 32 1 Trip 67 32 2 68 32 3 Pickup 70 32 4 71 32 4 74 5 74 49 Alarm 76 81 1 Pickup 77 81_1 Trip 79 81_2 80 81_3 Pickup 82 81 4 Pickup 83 81 4 Trip 85 37 1 Pickup phase 86 37 1 Pickup phase B 88 37 1 Trip 89 37 2 Pickup phase A 91 37 2 Pickup phase C 92 37 2 Trip 94 Input 2 95 Input 3 97 Input 5 98 Input 6 100 Input 8 101 Input 52 103 Blocking phase input 104 Blocking neutral input 106 Oscillo starting i
68. 1 Pickup phase B it 2 Pickup phase C it 3 Pickup it 8 Phase A Trip it 9 Phase B Trip it 10 Phase C Trip it 11 Trip 59N_1 it 4 Pickup 59N_2 t 12 Trip 27P_1 it 0 Pickup phase 27P_2 Pickup phase B it 2 Pickup phase C it 3 Pickup it 8 Phase A Trip it 9 Phase B Trip it 10 Phase C Trip it 11 Trip 32 1 32_2 32_3 bit 4 Activation 32 4 it 12 Trip General it 0 Trip it 6 50 Hz network frequency t 14 Magnetic module error www fanox com 239 309 it 15 Measurement error it 16 Device Pickup it 17 Protection error it 18 Settings changed it 20 Date and time synchronization it 21 Remote Control to Local it 22 Default settings error it 23 EEPROM error it 27 EEPROM values changed it 28 Events log error it 31 New Events it 48 Pickup Neutral it 49 Pickup phase A it 50 Pickup phase B it 51 Pickup phase C it 52 Pickup GENERAL it 53 Phase A Trip it 54 Phase B Trip it 55 Phase C Trip it 56 50N Trip it 57 50P Trip Inputs 1 0 Input 52 1 Input 520 it 2 Blocking phase input it 3 Blocking neutral input it 4 External trip input it 5 Oscillography Pickup Input it 6 Input Start 79 1 7 Permission 79 input it 8 Locking 79 level input it 9 Input 0 Table Active www lanox com 240 309
69. 103 IEC 61850 DNP 3 0 Open 52 Y Y Y Close 52 V Lock 79 v Y Unlock 79 Remote Control to 7 Local Remote control Y To execute commands remotely ModBus 60870 5 103 IEC 61850 or DNP 3 0 the device must be operating in REMOTE CONTROL mode Commands may be executed by HMI or local communications ModBus whether or not the device is in remote control mode 5 14 Remote Control Changing the mode to remote control or local control can only be undertaken through the HMI If remote control is used it is recommended that an LED be configured to indicate when remote control is permitted and when it is not www fanox com 122 309 5 15 Date Time synchronization IRIG device be synchronized by HMI or by remote or local communications Depending on model it is possible to synchronize the relay with a time code IRIG B IRIG B is one of the time code IRIG Inter Range Instrumentation Group time codes which is definied in standard IRIG STANDARD 200 04 The time code IRIG B encoding is based on the following specification Format B 100 pps Modulaci n 0 encoded digital signal by pulse wide 1 sinusoidal modulated signal in amplitude 2 modulated signal with Manchester codification Frequency Resolution 2 1kHz 1ms Encoded information 0 BCDroy CF SBS 1 2 BCDrov 3 BCDroy SBS 4 BCDrov BCDyear CF SBS
70. 154 50_2 Trip 155 50_1 Trip P 156 67_1 Start N 157 67_1 Trip N 158 67_2 Start N 159 67_2 Trip N 160 67 1 Start A 161 67 1 Start B 162 67 1 Start 163 67 1 Start P 164 67 1 Trip 165 67 1 Trip 166 67 1 Trip C 167 67 1 Trip P 168 67 2 Start A 169 67 2 Start B 170 67 2 Start C 171 67 2 Start P 172 67 2 Trip A 173 67 2 Trip B 174 67 2 Trip C 175 67 2 Trip P 176 Live Line Live Bus 177 Live Line Dead 178 Dead Line Live Bus 179 Dead Line Dead Bus 180 Synchronism Permmision 181 27_1 Start A 182 27_1 Start B 183 27_1 Start C 184 27_1 Start P 185 27_1 Trip A 186 27_1 Trip B 187 27_1 188 27_1 Trip P 189 27_2 Start A 190 27_2 Start B 191 27_2 Start C 192 27_2 Start P 193 27_2 Trip A 194 27_2 Trip B 195 27_2 Trip 196 27_2 Trip P 197 59_1 Start N 198 59_1 199 59_2 Start N 200 59_2 Trip N 201 59_1 Start A 202 59_1 Start B 203 59_1 Start C 204 59_1 Start P www fanox com 290 309 BINARY INPUT OBJECT 1 gt Assigned to Class 0 BINARY INPUT CHANGE OBJECT 2 gt Assigned to Class 1 Index Description 205 59 1 Trip 206 59 1 207 59 1 Trip 208 59 1 Trip P 209 59 2 Start A 210 59 2 Start B 211 59 2 Start C 212 59 2 Start P 213 59 2 Trip 214 59 2 Trip 215 59 2 Trip 216 59 2 Trip P 217 81 1 Start 218 81 1 Trip 219 81 1 Lockout 220 81 2 Start 221 81 2 Trip 222 81 2 Lo
71. 2 Phase A trip Activation Deactivation Phase A voltage 27P 2 Phase B trip Activation Deactivation Phase B voltage 27P 2 Phase C trip Activation Deactivation Phase C voltage 27P 2 Trip Activation Deactivation Level 1 definite time directional overpower 32 1 32 1 Pickup Activation Deactivation 32 1 Trip Activation Deactivation Level 2 definite time directional overpower 32 2 32_2 Pickup Activation Deactivation 32 2 Trip Activation Deactivation Level 3 definite time directional overpower 32 3 32_3 Pickup Activation Deactivation www fanox com 103 309 32 3 Activation Deactivation Level 4 definite time directional overpower 32 4 32 4 Activation Deactivation 32_4 Trip Activation Deactivation Level1 Underfrequency Overfrequency 81 1 81_1 Pickup Activation Deactivation Frequency 81 Trip Activation Deactivation Frequency 81_1 Block Activation Deactivation Level2 Underfrequency Overfrequency 812 81_1 Pickup Activation Deactivation Frequency 81 Trip Activation Deactivation Frequency 81_1 Block Activation Deactivation Level3 Underfrequency Overfrequency 81 3 81_1 Pickup Activation Deactivation Frequency 81_ Trip Activation Deactiva
72. 2 gt GEN Events Error 1 SE GI 200 lt 33 gt GEN New Oscillograph register 2 SE X 200 lt 48 gt 52 a Input 1 SE X 200 lt 49 gt 52 b Input 1 SE X 200 lt 50 gt Phase lockout input 1 SE Gl X 200 lt gt Ground lockout input 1 SE GI X 200 lt 52 gt External trip input 1 SE X 200 lt 53 gt Oscillographic start input 1 SE Gl X 200 lt 54 gt 79 Start input 1 SE Gl X 200 lt 55 gt 79 Enable input 1 SE X 200 lt 56 gt 79 Level lockout input 1 SE Gl 200 lt 57 gt 0 Setting group input 1 SE X 200 lt 58 gt 1 Setting group input 1 X 200 lt 59 gt 79 pulse lockout input 1 SE X 200 lt 60 gt 79 pulse unlock input 1 SE Gl X 200 lt 61 gt 50BF start input 1 SE X 200 lt 62 gt Voltage command 1 SE www fanox com 262 309 X 200 lt 63 gt Continuity A 1 SE 200 lt 64 gt Continuity B 1 SE 200 lt 76 gt Auxiliary input 5 1 SE 200 lt 77 gt input 6 1 X 200 lt 78 gt Auxiliary input 7 1 SE 200 lt 79 gt Auxiliary input 8 1 SE X 200 lt 92 gt Auxiliary output 1 1 SE GI X 200 lt 93 gt Auxiliary output 2 1 SE GI X 200 lt 94 gt Auxiliary output 3 1 SE X 200 lt 95 gt Auxiliary output 4 1 SE X 200 lt 96 gt Auxiliary o
73. 2 port and as an option a rear RS485 port The data stream any of the configurations is half duplex Each byte of data is transmitted asynchronously and is made up of 1 start bit 8 data bits 1 stop bit and 1 parity bit if this is how it is programmed Therefore the data has 10 or 11 bits depending on whether or not it includes parity When the equipment has a single front port the address can be configured but the rest of the parameters are fixed the speed is 19200 without parity and with 1 stop bit The equipment has two ports one front and one rear the following features can be configured speed 4800 9600 19200 or 38400 and the address 1 to 247 The master must know the address of the slave that it is going to communicate with No unit will act on requests from the master if the message is not addressed to them The exception is when the 0 address or broadcast address is used in which case the relay will act but will not send an answer of any type Communications are made in packages or frames which are groups of data that are sent asynchronously The master transmits a frame to the slave and the slave then replies with another frame except in the case of broadcast messages The end of the frame is marked by a dead time or silence time in the communication medium The length of this time of silence varies depending on the transmission speed as it is equivalent to 3 characters The following t
74. 32 4 Permission Permitted Prohibited Operating time 5 Characteristic angle 2 811 Permission Permitted O Prohibited Type A Underfrequency Overfrequency Activationlevel Hz Operating time Reset time S 812 Permission O Permitted O Prohibited Type O Underfrequency O Overfrequency Activation level Hz Operating time S Reset S 81 3 Permission Permitted O Prohibited Type A Underfrequency Overfrequency Activation level Hz Operating time 5 Reset time _ 5 814 Permission Permitted O Prohibited Type O Underfrequency Overfrequency Activation level __ Hz Operatingtime S Reset time 0 S www fanox com 300 309 Cold Load Permission Permitted Prohibited 50P_1 multiplier 50P_2 multiplier 67P_1 multiplier 67P_2 multiplier 50N_1 multiplier 50N_2 multiplier 67N_1 multiplier 67N_2 multiplier pasSto CLP ae GLP duration 50BF Permission Permitted 9 Prohibited Operation time S 79 Permission O Permitted A Prohibited Wait permission O Permitted A Prohibited Number of reclosings 1st recl
75. 5 BCDroy BCDyear CF 6 BCDrov BCDyear 7 BCDvear SBS time of year encoded in BCD Binay Coded Decimal BCDyear year encoded in BCD CF Control functions SBS SBS time of day seconds of day www fanox com 123 309 5 16 Test program The SIL B device features a test menu for use in verifying the working of the LEDs and outputs The following table shows elements that can be verified and their state depending on whether they are activated or deactivated Not activated LED 1 not activated Activated LED 1 activated Not activated LED 2 not activated Activated LED 2 activated Not activated LED 3 not activated Activated LED 3 activated Not activated LED 4 not activated Activated LED 4 activated Not activated LED 5 not activated Activated LED 5 activated Not activated LED 79 not activated Activated LED 79 activated Not activated LED 52 not activated Activated LED 52 activated Not activated LED ON not activated Activated LED ON activated Output 1 Not activated Output not activated Activated Output activated Output 2 Not activated Output not activated Activated Output activated Output 3 Not activated Output not activated Activated Output activated Output 4 Not activated Output not activated Activated Output activated Output 5 Not activated Output not activated Activated Output activate
76. 5 00 5 ap SETTINGS lt GEN T A 1 gt Function Enable NO Current Tap 0 20xIn Operating Time 1 00 8 ap SETTINGS lt GEN T A 1 gt Function Enable NO 211 309 Settings 37 2 Settings 79 www fanox com AV AY AY AY AY AY AY AY AY Hold Enable NO Recloser Number 1 Reclose 0 02 5 Reclose 0 02 5 Reclose 1 00 s Reclose 1 00 5 Reclose 1 00 5 Hold Time 1 00 5 Reset Time 1 00 s 212 309 AV Settings 52 AY AV AV www fanox com Man Open Time 1 00 s SETTINGS GEN AG gt Max Acumulated Open 10 Max Acumulated Amp 1000 MA2 Max Open Time 0 10 s Max Close Time 0 10 s Repetitive Open Num 3 Repetitiv Open Time 9 00 min 213 309 Settings 52 www fanox com Settings 74 5 SETTINGS lt GEN 1 gt Function Enable NO Operating Time 0 02 s 214 309 Settings 74TCS To access the general settings from the SETTINGS menu press lt The general setting Device name can be read from the HMI but can only be modified using SICom The value of the general settings Phase TI ratio and Neutral TI ratio is the simplified ratio of the primary to the secondary For example With TI 500 5 the setting would be 100 To access the general settings from the SETTINGS me
77. 55 256 6 Measurements SILBxxxx0xxxx 255 256 7 Mesurements models SILBxxxx1xxxx and SILBxxxx2xxxx 32 253 256 8 Inputs 33 254 256 16 Outputs SILBxxxx0xxxx 254 256 23 Outputs models SILBxxxx1xxxx SILBxxxx2xxxx 34 79 256 1 79 Autorecloser 35 52 256 1 52 Breakers 36 74 256 1 74TCS 2 252 256 3 Oscillography 38 249 256 2 Remote Modbus protocol 39 240 256 2 Remote IEC 60870 5 103 protocol 40 249 256 1 Local Modbus protocol www fanox com 237 309 8 9 1 States Criterion States 50P_1 bit 0 Pickup phase 50P_2 bit 1 Pickup phase B bit 2 Pickup phase C bit 3 Pickup bit 8 Phase A Trip bit 9 Phase B Trip bit 10 Phase C Trip bit 11 Trip 67 51 50P_1 bit 8 Pickup phase 67 51 50P_2 bit 9 Pickup phase B bit 10 Pickup phase C bit 11 Pickup bit 12 Phase A Trip bit 13 Phase B Trip bit 14 Phase C Trip bit 15 Trip 50N1 bit 4 Pickup 50N2 bit 12 Trip 67 51 50N_1 bit 4 Pickup 67 51 50N_2 bit 12 Trip CLP bit 12 Activated 50BF bit 4 Pickup bit 12 Trip 46 bit 4 Pickup bit 12 Trip 49 bit 4 Alarm bit 12 Trip www fanox com 238 309 37P 1 1 0 phase 37 _2 it 1 Pickup phase B it 2 Pickup phase C it 3 Pickup it 8 Phase A Trip it 9 Phase B Trip it 10 Phase C Trip it 11 Trip 59P_1 it 0 Pickup phase 59P_2 it
78. 6 32 309 3 4 Model list SIL B 2 LU LU gt n lt LU lt gt LU PHASE MEASUREMENT NET FREQUENCY POWER SUPPLY ADDITIONAL FUNCTIONS COMMUNICATIONS INPUTS OUTPUTS MECHANICS LANGUAGE SIL B 50P 2 67P 2 50N 2 67N 2 46 59P 2 59N 2 27P 2 32 4 52 50BF 79 74TCS Cold Load Pickup 49 86 1 1A 5 5A 1 1A 5 5A 5 50 Hz 6 60 Hz 24 48Vcc B 90 300 00Vcc 110 230Vca 0 1 81U O 4 25 37 2 2 81U O 4 25 37 2 IRIG B 0 RS485 ModBus IEC 60870 5 103 1 FOP ModBus IEC 60870 5 103 2 ModBus 1 60870 5 103 61850 ModBus RS485 4 DNP 3 0 ModBus RS485 5 IEC 60870 5 104 ModBus RS485 0 7 outputs 8 inputs 0 With external MMS module 4U x 1 2 rack 1 Compact 40 x rack English Spanish French and German English Spanish French and Turkish D English Spanish French and Russian www fanox com 33 309 3 5 Phase and neutral selection following table shows summary of the phase neutral combinations Model Phase Neutral Phase range Neutral range SIL B55 CT5A Residual phase connection 1 150 A 1 150 SIL B11 CT1A Residual phase connection 0 2 30 0 2 30 A SIL B51 CT5A CT1A 1 150 0 2 30 A To ensure the relay functions correctly a suitable curre
79. 6 5086 FLOAT 79 Reset Time 3087 5087 FLOAT 79 Definitive opening time 3088 5088 DENUM NOSI 59P_1 Permission 3089 5089 FLOAT 59P_1 Tap 3090 5090 FLOAT 59P_1 Operating time 3091 5091 FLOAT 59P_1 Reset Time 3092 5092 DENUM NOSI 59P_2 Permission 3093 5093 FLOAT 59P_2 Tap 3094 5094 FLOAT 2 Operating Time 3095 5095 FLOAT 59P_2 Reset Time 3096 5096 DENUM NOSI 59N_1 Permission 3097 5097 FLOAT 59N_1 Tap 3098 5098 FLOAT 59N_1 Operating time 3099 5099 FLOAT 59N_1 Reset Time 3100 5100 DENUM NOSI 59N_2 Permission www fanox com 252 309 3101 5101 59N 2 Tap 3102 5102 FLOAT 59N 2 Operating time 3103 5103 FLOAT 59N 2 Reset Time 3104 5104 DENUM NOSI 27P 1 Permission 3105 5105 FLOAT 27P 1 Tap 3106 5106 FLOAT 27P 1 Operating time 3107 5107 FLOAT 27P 1 Reset Time 3108 5108 DENUM NOSI 27P 2 Permission 3109 5109 FLOAT 27P 2 Tap 3110 5110 FLOAT 27P 2 Operating Time 3111 5111 FLOAT 27P 2 Reset Time 3112 5112 DENUM NOSI 32 1 Permission 3113 5113 FLOAT 32 1 Tap 3114 5114 LONG 32 1 Characteristic angle 3115 5115 FLOAT 32 1 Time 3116 5116 DENUM NOSI 32 2 Permission 3117 5117 FLOAT 32 2 3118 5118 LONG 32_2 Characteristic angle 3119 5119 FLOAT 32 2 3120 5120 DENUM NOSI 32 3 Permission 3121 5121 FLOAT 32 3 3122 5122 LONG 32_3 Characteristic angle 3123 5123 32_3
80. 63 61000 6 4 www fanox com Voltage dip short interruption and voltage variation immunity Class 3 Voltage 0 5 period 0 1 period 0 10 12 periods 40 25 30 periods 70 250 300 periods 80 Interruptions 250 300 periods 0 Interruptions Damped RF oscillatory wave immunity Level 4 2kV Line Line 4kV Line Ground Voltage fluctuation immunity Class 3 12 Ripple on DC input power port immunity Level 4 15 V DC Damped oscillatory wave immunity test 100kHz 30 2 Slowwaves Level 3 25kV common mode 1kV differential mode Fastwaves Level 4 4kV common mode 4kV differential mode Imbalance Class 3 Voltage dip short interruption and voltage variation on DC input power port immunity Dips 40 and 70 1s Interruption 1s Dielectric strength Level 4 Insulation strength 500 V DC Line Ground Impulse voltage 1kV Line Line 1kV Line Ground Cold Essay Ab 10 C 72h Dry heat Essay Bb 85 C 72h Temperature change Essay 25 C y 79 C 8h 5 cycles Sinusoidal vibrations Class 2 1g 10Hz 150Hz Shock and bump tests Class 2 10g 11ms Seismic tests Class 2 2g horizontal axis 1g vertical axis Generic standard for measuring relays and protective equipment Emission standard for industrial environments 134 309 61000 6 2 General standard for immunity industrial
81. 79 Safety Time www fanox com 242 309 State 79 Definitive Opening Time 25 1 0 Live line live it 1 Live line dead bar it 2 Dead line live bar it 3 Dead line dead bar t 15 Synchronism permission 52 it 0 State 52 Error t 1 State 52 Open it 2 State 52 Opening Time it 3 State 52 Opening Fault it 4 State 52 Closed it 5 State 52 Closure Time it 6 State 52 Closure Fault t 7 State 52 Excess Openings it 8 State 52 Excess Total Amps it 9 State 52 Excess Openings per Minute it 10 State 52 A it 11 State 52 B it 12 State 52 Error 74 5 it 4 Pickup it 12 Trip Remote ModBus 1 0 Remote communications it 16 Command selection it 17 Open breaker it 18 Close breaker it 19 Lock 79 it 20 Unlock 79 Remote it 0 Remote communications it 16 Command selection it 17 Open breaker it 18 Close breaker www fanox com 243 309 bit 19 Lock 79 bit 20 Unlock 79 Local ModBus bit 0 Local communications bit 1 HMI activity bit 16 Command selection bit 17 Open breaker bit 18 Close breaker bit 19 Lock 79 bit 20 Unlock 79 bit 21 Set Remote Control to Local bit 22 Set Remote Control to Remote 8 10 Event list Criterion Event n Event identifier 50P_1 1 50 Pickup 2 50 3 50 4 50
82. AY SETTINGS GEN T A 1 gt Function Enable NO Curve type Def Tim Time Dial 0 05 Current 0 20 Operating Time 0 02 5 Ap SETTINGS lt GEN T A 1 gt Function Enable NO 199 309 Settings 46 Settings 59P1 www fanox com Settings 59 2 Settings 59 1 AY AY AY AY AY Tap 10 0 V 0 02 s Reset Time 0 2 5 Operating Time SETTINGS lt GEN 1 gt Function Enable NO Operating Time 5 00 s Reset Time 0 2 SETTINGS lt GEN T A 1 gt 200 309 Settings 59P2 www fanox com AV Settings 59N2 Function Enable Settings 59 1 NO Tap 10 0 V Operating Time AY 0 02 s Reset Time AY 0 2 SETTINGS Function Enable Settings 59N2 NO Tap AY 8 0 V c AY Operating Time 10 00 5 201 309 www fanox com AY Settings 27 1 Settings 27P2 AY OK AY AY AY OK AY T SETTINGS GEN 1 gt Function Enable NO Tap 4 0 V x Operating Time c 0 02 s Reset Time 0 2 5 4p SETTINGS GEN T am A gt Function Enable NO Tap m i 202 309 Settings 27 1 Settings 27P2 AY AY Settings 32 1 AY AY AY Settings 32 2 www fanox com
83. B Phase and neutral definite time and inverse time IEC and ANSI curves overcurrent protections with directional discrimination Negative sequence overcurrent protection Undercurrent protection it depends on model Phase and neutral overvoltage protection Phase undervoltage protection Directional overpower protection Thermal image protection Overfrequency and underfrequency protection it depends on the model This manual provides full details of the number of available protection units along with their parameters and operating characteristics As this is a line protection device it is also fitted with a recloser 79 This automated device allows the line to be closed up to five times Each reclosure time can be programmed The equipment can be locked in different ways from the keypad for which there is a separate key from remote communications stations and through an input Depending on model the device is fitted with synchronism protection function that is designed to verify the conditions that the voltage of both ends of the switchgear must have to carry out to allow the closure of the switchgear A series of other complementary line protection functions have been included such as cold load pickup and closure circuit monitoring www fanox com 26 309 All models include a circuit breaker management block which Monitors the condition of the circuit breaker the number of openings and accumula
84. Barra Barraviva mueta 0 0 UDB 1 0 DLDB 1 i 0 DLDB 0 DLDB 0 DLDB 0 DLDB 0 1 1 LUB 0 www fanox com 65 309 For the circuit breaker is closed when recloser command 79 is permited it is necessary to achieve sync conditions Only when these sync conditions are achieve the recloser has the permission to do the closure of circuit breaker This is for the recloser close is supervised by the closing permission given by sync function it is necessary to set the Permission of closure state of sync function to the logical input 79 permission input 4 17 1 Synchronism 25 and recloser 79 i f Receive Tom equipment 79 Permission Send to equipment Save file as a Functions E INPUTS GourTPUTs J Output 1 E Output 2 E Output 3 5 Output 4 Output 5 E Output 6 E Output 7 E Output 8 E Output 9 E Output 10 E Output 11 E Output 12 8 LEDS 5 3 INTERNAL STATES Starting 79 E Starting 50BF N Oscillo Starting Permission 152 Permission of Clost E REMOTE MODBUS 60870 5 103 E LOCAL MODBUS S EXIT www fanox com 66 309 FANOX Synchronism function 25 associated to recloser function 79 If the parameter Hold permission of 79 function is prohibited any external condition will be considered and 79 f
85. DDRESS The master is attempting to execute an operation with an incorrect address ILLEGAL DATA VALUE The slave has detected that a value sent by the master is not valid SLAVE DEVICE FAILURE Indicates that an error has occurred in the slave while it was attempting to execute the request received from the master ACKNOWLEDGE Generic recognition SLAVE DEVICE BUSY The slave is busy and cannot execute the required operation NEGATIVE ACKNOWLEDGE Generic non recognition 8 4 Data types Length Description UCHAR 1 2 Unsigned 1 byte BYTE 1 2 Signed 1 byte integer BIT16 1 Bit type in groups of 16 Example 0x1A41 0001101001000001b BIT32 2 Bit type in groups of 32 in 32 ENUM 1 Unsigned 16 bit integer Each possible value of this integer has a corresponding value in the auxiliary table of the database This table shows the corresponding string that should be shown for each value Only an integer will be received into memory Example 0 1 correspond to CLOSED OPEN DENUM 2 Unsigned 32 bit integer UINT 1 Unsigned two byte integer INT 1 Signed two byte integer LONG 2 Unsigned 4 byte integer DWORD 2 Signed 4 byte integer FLOAT 2 4 byte floating point number ASCIIxx xx 2 String Variable length string of characters The end of the string is marked with 0 Example 0x41x42x43x00 MILIS 3 Minutes passed since 00 00
86. ERS c 27 5 AY 147 Wh RE AY 85 VARh 58 VARh www fanox com 218 309 www fanox com Openings Number 133 Accumulated Amps 14011325 2 Reclosing Numbers 25 Thermal Image 75 219 309 7 6 14 Commands menu From the default screen press to access the top level of menus Use the W keys to proceed through the screens and select 5 then press Use the and keys to view available commands To execute a command press OK and then confirm the command pressing OK again 4p COMMANDS Y EXECUTE COMMAND y n ap COMMANDS OK c Open Breaker db CONFIRM COMMAND y n EXECUTE COMMAND y n OK Open Breaker Open Breaker 4r COMMANDS Y EXECUTE COMMAND y n p COMMANDS AY Close Breaker db CONFIRM COMMAND y n COMMAND Close Breaker Close Breaker COMMANDS www fanox com 220 309 www fanox com AV AY AY EXECUTE COMMAND y n Block Recloser EXECUTE COMMAND y n UnBlock Reclos EXECUTE COMMAND y n no Telecontrol OK OK OK COMMANDS 4r COMMAND Block Recloser 4 UnBlock Reclos 4 COMMAND COMMANDS COMMANDS no Telecontrol 221 309 OK OK OK
87. Function 25 Synchronism protection function The synchro check function is designed to give a time window in which the voltage in both sides of the switch are in sync The conditions that the voltage of both ends of the switchgear must have to assert that there is synchronization are Same module Same phase Same frequency Associated with the function we have a line voltage and bar voltage monitoring unit which will define the state of the line and the bar being able to give the following combinations Live Line Live Bar live line live bar LLDB Live Line Dead Bar live line dead bus DLLB Death Line Live Bar dead line live bar DLDB Death Line Dead Bar dead line dead bus The settings associated with this unit voltage monitoring are Function Description Minimum Maximum Default 25 Synchronism Line and bar voltage supervision unit Live line voltage 30 110 0 1 V 50 Dead line voltage 4 110 0 1 V 30 Live bar voltage 30 110 0 1 V 50 Dead line voltage 4 110 0 1 V 30 Voltage supervision time 0 02 300 00 0 01 s 0 02 A time during which it is confirmed that the end is dead or live to be sure it is not a temporary situation is specified www fanox com 62 309 FANOX According to the live or dead state of the line and the bar four permissions exist that allow not to close the line over the bar Function Description Minimum Max
88. GND PIOC1 Str general www fanox com 272 309 50N_1 50 2 Start 50 2 Live Line Live Bus Live Line Dead Bus Dead Line Live Bus Dead Line Dead Bus Synchronism Permmision 27P_1 Start A 27P_1 Start B 27P_1 Start 27P_1 Start P 27P_1 Trip 27P_1 Trip B 27P_1 Trip C 27 1 Trip 27 _2 Start 27P_2 Start 27P_2 Start C 27P_2 Start P 27P_2 Trip A 27P 2 Trip 27 _2 Trip 27P_2 Trip 59N_1 Start 59N_1 59 2 Start 59N_2 59 1 Start 59 1 Start 59P_1 Start GND PIOC1 Op general GND PIOC2 Str general GND PIOC2 Op general RSYN1 LivLinBus stVal RSYN1 LivLin stVal RSYN1 LivBus stVal RSYN1 DeaLinBus stVal RSYN1 Rel stVal PHS PTUV1 Str phsA PHS PTUV1 Str phsB PHS PTUV1 Str phsC PHS PTUV1 Str general PHS PTUV1 Op phsA PHS PTUV1 Op phsB PHS PTUV1 Op phsC PHS PTUV1 Op general PHS PTUV2 Str phsA PHS PTUV2 Str phsB PHS PTUV2 Str phsC PHS PTUV2 Str general PHS PTUV2 Op phsA PHS PTUV2 Op phsB PHS PTUV2 Op phsC PHS PTUV2 Op general GND PTOV1 Str general GND PTOV1 Op general GND PTOV2 Str general GND PTOV2 Op general PHS PTOV1 Str phsA PHS PTOV1 Str phsB PHS PTOV1 Str phsC www fanox com 273 309 1 Start P PHS PTOV1 Str general 59P_1 Trip A PHS PTOV1 Op phsA 59P_1 Trip PHS PTOV1 Op
89. GS GEN JE SA COM gt Function Enable Settings 81 2 Function Activation level c 50 00 Hz Operating Time 5 00 5 Reset Time c 0 2 SETTINGS masi Function Enable c Settings 81 3 NO 207 309 AY AY AY Settings 81 4 AY OK AY AY AY www fanox com Function Type UNDER Activation level 50 00 Hz Operating Time 5 00 s Reset Time 0 2 SETTINGS GEN db RAI COM gt Function Enable NO Function Type UNDER Activation level 45 00 Hz Operating Time 0 02 5 208 309 Settings 81 4 AY Settings 25 AY AY AY AY AY www fanox com Reset Time 0 2 5 SETTINGS gt Live L amp NOT ALW Live L amp NOT ALW Dead L amp NOT ALW Dead L amp NOT ALW Voltage Difference 15 0 V Phase Difference 10 209 309 Settings 25 www fanox com AY Settings 37 1 AY AY AY AY AY AY AY Frequency Differ 0 02 Hz Synchrocheck Time 0 02 5 Live Line 50 0 V Dead Line Tap 30 0 V Live Busbar Tap 50 0 V Dead Busbar Tap 30 0 V Voltage DelayTime 0 02 5 T SETTINGS GEN db Ta si COM gt Function Enable NO 210 309 Settings 37 1 www fanox com AV AV AY AY Settings 37 2 Settings 79 Current 0 20xIn Operating Time
90. LLLB LLDB DLDB and DLLB bits indicate the status of the line and the bar regardless of the operation permissions statuses The closing permission signal remains active while the conditions of synchronism are accomplished In any case once the signal is activated it remains a minimum of 150 ms in case synchronism conditions disappear The following schema describes a logical diagram of the algorithm 25 block input Line voltage and bar voltage supervision unit 25 closure permission LLLB LLLB permision Vline Vbar lt Vset Qline Qbar lt Qset 14 fline fbarl lt fset www fanox com 64 309 FANOX line and bar voltage monitoring unit sets the dead or alive state of the line and bar Transitions from dead to live and vice versa are timed with a user adjustable time During the transition the line or bar is in undefined state At such moments as seen in the logical diagram of the algorithm the closing permission is not activated Once the voltage exceeds the live state level a timer is started during which we turn to undefined state until the timer ends At this moment indicates the live status of the bar or line When the voltage falls below the level of dead state a timer is started during which we turn to undefined state until the timer ends At this moment indicates the dead status of the bar or line V Linea Linea viva Linea muerta V
91. N Definite time overvoltage protection function neutral 2 27P Definite time undervoltage protection function phase 2 32 40 Definite time directional overpower function 4 79 Recloser Up to 5 attempts 25 Synchronism protection function 1 depending on model 50BF Opening failure 1 74TCS Monitoring of the circuit breaker s coils 1 810 U Overfrequency and underfrequency protection function 4 depending on model 86 Trip Output Lockout Y Circuit breaker State and command of the circuit breaker Y Counter for the number of openings v Counter for accumulated amperes Y Maximum number of openings in a time window Y www fanox com 29 309 Measurements Phase and neutral rms currents with a precision of 2 in a band of 20 when compared to the rated current and 4 in the rest of the Y range Phase rms voltages voltages between phases residual neutral voltage and busbar voltage with a precision of 2 in a band of 20 when Y compared to the rated voltage and 4 in the rest of the range Apparent power S total and per phase Active power P total and per phase Y Reactive power Q total and per phase Power factor cos total and per phase Y Active and reactive energy Y Thermal image Y Line frequency and bar frequency Depending on model Inputs and Outputs Configurable inputs 8 to Vaux Configurable outputs 2 no nc 5 Communication and HMI LOCAL Port ModBus RTU Y REMOTE Port ModBus RTU Y REMOTE
92. O ma ar Big RS485 MODBUS RTU m 6 T1 WARNING qe TEE 3 PHASE CURRENT TRANSFORMERS 07 9 2 RS485 608705403 mem 9 2 RS485 MODBUS 257 WARNING RS232 www fanox com 11 309 Digital connections Outputs and Trip circuit supervision 50 Breaker www fanox com 12 309 er 2 1 6 Terminals a VOLTAGE AUX 13 309 www fanox com A Digital output common 1 A RS485 IEC 60870 5 103 Digital output 1 RS485 60870 5 103 A Digital output 1 NO Gnd RS485 IEC60870 5 103 4 Digital output common 2 A RS485 Modbus RTU Digital output 2 RS485 Modbus Digital output 2 Gnd RS485 Modbus RTU 8 Digital output 3 NO RJ45 connector for the external magnetic module ASIE Digital output 4 NO Phase A voltage Digital output 5 NO Phase A voltage AXE Digital output 6 NO Phase B voltage A Digital output 7 NO Phase B voltage Digital input 1 Phase C voltage Digital input 2 Phase C voltage Digital input 3 Busbar Voltage B4 Digital input 4 Busbar Voltage z Common of digital
93. Obj Var Description Codes Codes Codes Codes Notes dec hex dec hex 1 6 Assigned to 129 1 55 0 1 6 7 8 1 6 7 8 129 2 Binary Input Change with Time 1 6 7 8 129 130 28 i 2 3 Binary Input Change with Relative Time 1 6 7 8 129 10 0 Binary Outputs All variations 1 6 129 12 1 Control Relay Output Block 4 5 6 17 28 129 17 28 30 0 Analog Input All variations 1 6 Assigned to 30 2 16 Bit Analog Input 129 1 Class 0 32 0 Analog Change Event All variations 1 6 7 8 32 4 16 Bit Analog Change Event with Time 129130 28 melo 129 50 1 Time and Date 2 count 1 52 2 Time Delay Fine 23 129 T count 1 60 1 Class 0 Data 1 6 60 2 Class 1 Data 1 6 7 8 20 21 6 60 3 Class 2 Data 1 6 7 8 20 21 6 60 4 Class 3 Data 1 6 7 8 20 21 6 80 1 Internal Indications 2 0 index 7 No Object Cold Start 13 No Object Warm Start 14 www fanox com 286 309 No Object Delay Measurement 23 11 3 Point list BINARY INPUT OBJECT 1 gt Assigned to Class 0 BINARY INPUT CHANGE OBJECT 2 gt Assigned to Class 1
94. PLATELD 1 GGIO3 ST Ind5 TEMPLATELD 1 GGIO3 ST Ind6 TEMPLATELD 1 GGIO3 ST Ind7 TEMPLATELD 1 GGIO3 ST Ind8 TEMPLATELD 1 GGIO3 ST Ind9 TEMPLATELD 1 GGIO3 ST Ind10 TEMPLATELD 1 GGIO3 ST Ind11 TEMPLATELD 1 GGIO3 ST Ind12 TEMPLATELD 1 GGIO3 ST Ind13 TEMPLATELD 1 GGIO3 ST Ind14 TEMPLATELD 1 GGIO3 ST Ind15 TEMPLATELD 1 GGIO3 ST Ind16 TEMPLATELD 1 GGIO3 ST Ind17 TEMPLATELD 1 GGIO3 ST Ind18 TEMPLATELD 1 GGIO3 ST Ind19 TEMPLATELD 1 GGIO3 ST Ind20 TEMPLATELD 1 GGIO3 ST Ind21 TEMPLATELD 1 GGIO3 ST Ind22 TEMPLATELD 1 GGIO3 ST Ind23 TEMPLATELD 1 RREC 155 5 TEMPLATELD 1 RBRF 1 ST Str TEMPLATELD 1 RBRF 1 5T OpIn TEMPLATELD 1 RDRE 1 ST RcdMade TEMPLATELD 1 SCBC 1 ST ColFail TEMPLATELD 1 XCBR 1 ST Pos TEMPLATELD 1 PTTR1 ST AlmThm 279 309 FANOX TEMPLATELD 1 PTRC1 ST Tr general TEMPLATELD 1 PTRC 1 ST Tr q REPORTS The Report service is used for the sending of values from elements of a Dataset to a communication client that enables the report service Central unit of Substation remote unit o software application The use of Reports optimizes the communication when the information of the associated Dataset is only sent when there is a change of value when is requested or time integrity is enabled There are 2 kind of Reports BRCB and URCB BRCB have a time buffer to store reports in the case a client has disconnected or the information had lost It is usually used for reporting events alarms and trips URCB have not th
95. Port IEC 60870 5 103 Depending on model REMOTE Port IEC 61850 Depending on model REMOTE Port DNP 3 0 Depending on model SICom Program for Windows XP 7 v Session 4 log in levels with a configurable password Y Control and signaling HMI LCD 20x2 Y 6 keys 1 reset button 2 command keys for 52 1 separate key for 2 locking 79 LED indicators 8 Power Supply 24VDC 48 VDC 90VDC 300VDC 110VAC 230VAC Auxiliary voltage www fanox com 30 309 Monitoring and Recording Events stored in the non volatile FRAM memory 1000 2 Logs of Oscillographic logs in the non volatile FRAM memory 2 76 s 10 128 cycles 20 fault reports Real Time Clock RTC 1 millisecond Y IRIG B synchronism Depending on model Test menu V Auto diagnostic Table of settings Using keys Using inputs 3 tables of settings Using communications Cold Load Pickup Activated by current Multiplying the pickups Mechanics Dimensions 4U x 1 2 rack www fanox com 31 309 3 3 Functional diagram Hmi LCD 20x2 T 52 79 optional www fanox com Events 1000 RTC ims Oscillography 2 Fault report 20 Setting table 3 Leds config 6 Test Out config 7 Inputs config 8 5485 ModBus RTU 40 IEC 61850 Ethernet IEC 60870 5 104 DNP3 0 IEC 60870 5 103 ModBus 8 USB RIU RB o 67P 51 gt 50 67N 67G gt 510 516 gt 50 50
96. S 255 GLOBAL ADDRESS Selection of standard information numbers in monitoring address SIL B FUN INF Description TYP COT System functions in monitoring address X 160 0 General interrogation termination 8 End of GI X 160 0 Synchronization 6 TS X 160 2 Reset FCB 5 Reset FCB X 160 lt 3 gt Reset CU 5 Reset CU X 160 lt 4 gt Start restart 5 Start restart 160 lt 5 gt Power on State indications in monitoring address X 160 16 Autorecloser active 1 SE GI X 160 lt 17 gt Remote protection active 1 X 160 18 Protection active 1 160 lt 19 gt LED reset 160 lt 20 gt Monitoring address locked 160 lt 21 gt Test mode www fanox com 259 309 X 160 22 Local parameter setting 1 GI X 160 27 Auxiliary input 1 1 SE GI X 160 28 Auxiliary input 2 1 SE GI X 160 29 Auxiliary input 3 1 SE GI X 160 lt 30 gt Auxiliary input 4 1 Monitoring address monitoring indication 160 lt 32 gt Measuring monitoring 160 lt 33 gt Measuring monitoring V 160 lt 35 gt Phase sequence monitoring X 160 lt 36 gt Trip circuit monitoring 1 160 lt 38 gt VT fuse fault 160 lt 39 gt Remote protection disturbance 160 lt 46 gt Group warning 160 lt 47 gt Group alarm Monitor
97. ST Str www fanox com 278 309 Measures with the name of Measures and the following data objects ITEMPLATELD1 MMXU 1 MX TotW TEMPLATELD 1 MMXU 1 MX Hz TEMPLATELD 1 MMXU 15 5 TEMPLATELD 1 MMXU 1 MX A TEMPLATELD 1 MMXU 1SMX TotVAr Events with the name of Events and the following data objects Member ITEMPLATELD 1 LLNOSCF 58 TEMPLATELD 1 LPHD 1 ST PwrUp TEMPLATELD 1 GGIO2 ST Ind1 TEMPLATELD 1 GGIO2 ST Ind2 TEMPLATELD 1 GGIO2 ST Ind3 TEMPLATELD 1 GGIO2 ST Ind4 TEMPLATELD 1 GGIO2 ST Ind5 TEMPLATELD 1 GGIO2 ST Ind6 TEMPLATELD 1 GGIO2 ST Ind7 TEMPLATELD 1 GGIO2 ST Ind8 TEMPLATELD 1 GGIO2 ST Ind9 TEMPLATELD 1 GGIO2 ST SInd 10 TEMPLATELD 1 GGIO2 ST Ind11 TEMPLATELD 1 GGIO2 ST 510412 TEMPLATELD 1 GGIO2 ST Ind13 TEMPLATELD 1 GGIO2 ST Ind14 TEMPLATELD 1 GGIO2 ST Ind15 TEMPLATELD 1 GGIO2 ST Ind 16 TEMPLATELD 1 GGIO2 ST Ind17 TEMPLATELD 1 GGIO2 ST Ind 18 TEMPLATELD 1 GGIO2 ST Ind19 TEMPLATELD 1 GGIO2 ST Ind20 TEMPLATELD 1 GGIO2 ST Ind21 TEMPLATELD 1 GGIO2 ST Ind22 TEMPLATELD 1 GGIO2 ST Ind23 TEMPLATELD 1 GGIO2 ST Ind24 TEMPLATELD 1 GGIO2 ST 510425 I TEMPLATELD 1 GGIO2 ST 510426 www fanox com Member TEMPLATELD1 GGIO2 ST Ind27 TEMPLATELD1 GGIO2 ST Ind28 TEMPLATELD 1 GGIO2 ST Ind29 TEMPLATELD 1 GGIO2 ST Ind30 TEMPLATELD 1 GGIO2 ST Ind31 TEMPLATELD 1 GGIO2 ST Ind32 TEMPLATELD 1 GGIO3 ST Ind1 TEMPLATELD 1 GGIO3 ST Ind2 TEMPLATELD 1 GGIO3 ST Ind3 TEMPLATELD 1 GGIO3 ST Ind4 TEM
98. Settings 50P2 T SETTINGS GEN AY 27 1 gt Function Enable Settings 50 2 www fanox com 189 309 www fanox com Settings 67 1 AY AY AY AY AY Current Tap 0 20 xIn Operating Time 5 00 SETTINGS 4 lt gt Function Enable NO Curve type Def Tim Time Dial 0 05 Current 0 20 xIn Operating Time 5 00 5 Directional YES 190 309 Settings 67 1 www fanox com AY AY AY Polarization V 35 0 V Operating Angle 180 Halfcone Angle 3 191 309 www fanox com AY Settings 67P2 SETTINGS GEN RA T A 1 gt cee Enable Settings 67 2 s c Time Dial Settings 67P2 0 05 22 7 pu Dial gt a OK lt Y 192 309 SETTING CHANGED Time Dial Time Dial oK 1 25 Current Tap AY 1 00 xIn 17 ao M Time n c Li nu eed Angle 17 Halfcone Angle 3 www fanox com 193 309 www fanox com AY AY AY Settings 50N1 Settings 50N2 Settings 6711 SETTINGS 1 Function Enable NO Current Tap 0 50 Operating Time 1 00 5 SETTINGS Function Enable NO Current Tap 0 30 xIn Operating Time 2 00 s SETTINGS
99. TED gt gt NOTE Ensure that the output configured as Trip is activated When the device is installed it will open the circuit as though there were trip www fanox com 147 309 7 6 8 Functions menu The SIL B relay s menu is divided into 6 main locks Measurements States Settings Events Meters Commands MEASUREMENTS TATE AY 5 5 SETTINGS T A 1 5 There 5 events COUNTERS AND AY 5 www fanox com 148 309 To access the second level from the main screen press the OK key the second level to move from one menu section to another use the A and Y keys To return to a higher level use the C key 7 6 9 Measurements menu From the default screen press the OK key to access the first level of menus Use the A and keys to select MEASURES and press OK Use the A and Y keys to select the measurement of interest and view its value E i Pam 1 37 T MEASUREMENTS 2T o e gt 1 1 37 0 00 2 37 lt gt 3 37 c www fanox com 149 309 www fanox com AV l oo o lt ow 0 4 37 5 37 6 37 7 37 8 37 9 37 10 37 11 37 12 37 150 309 www fanox com AY
100. Timing accuracy 30 ms Function permission yes no Operating range 4 to 110V step 1 V Operating time 0 02 to 300 s step 0 01 s Reset time 0 2 to 1200 0 5 step 0 1 5 Activation level 100 Deactivation level 105 Temporized deactivation Timing accuracy 30 ms Function permission yes no Operating range 0 to 10000 VA step 1 VA secondary values Operating angle 0 to 359 step 1 Operating time 0 02 to 300 s step 0 01 s Activation level 100 Deactivation level 95 Instantaneous deactivation Function permission yes no Type Underfrequency or overfrecuency Operating range 45 00 a 65 00 Hz step 0 01 Hz Operating timr 0 02 a 300 s step 0 01 s Reset time 0 2 a 1200 0 s step 0 1 s Block function if phase b voltage is lower than 30 volts Activation level 100 Underfrequency reset level activation level 50mHz Overfrequency reset level activation level 50 mHz Temporized deactivation Timing accuracy 30 ms 129 309 Circuit breaker Breaker state start open closed error opening time opening error closure time closure error monitoring 52a input and or 52b input Opening and closure commands Maximum number of openings alarm 1 a 10000 Total amps alarm 0 to 100000 M A2 Excess repeated openings 1 a 10000 Repeated openings excess time
101. a image will evolutione so as to get the thermal balance corresponding to 1 2 times the nominal current Th Wit 119 This would occur if we had the permission of the thermal function disabled If the permission is disabled 49 protection function performs when the thermal image reachs the value of 100 Once tripped current is cutted and thermal image is getting cool based on the cooling constant Zone 4 Before getting totally cool nominal current is applied again and thermal balnace is reached once passed the time determined by the heating thermal constant Thermal image protection alarm bit is active if the thermal image measurement is over the adjusted alarm level Thermal image protection trip bit is active when the measurement of the thermal image is over 100 and it is reset when the measurement of the thermal image is under the adjusted alarm level 4 6 2 Thermal image with memory Thermal image is stored in non volatile RAM memory periodically every second By this way though the relay loses the power supply it will keep the thermal status of the machine 4 6 3 Thermal image measurement display Reset Thermal image measuremet can be displayed on Measurement menu and Counters menu Display is possible in Measurement menu Display and thermal image value reset is possible in Counters menu www fanox com 44 309 4 6 4 Thermal protection
102. able shows the generic package format that is valid for transmission and reception However each function has its own peculiarities as will be described further on www fanox com 230 309 8 1 ModBus package format CLIENT 1 byte Each device on a communications bus must have a unique address as otherwise ADDRESS two devices could answer the same request at the same time All of the ports of the relay will use this address which can be programmed with a value between 1 and 247 When the master device transmits a packet to the slave address 0 this is a broadcast packet All of the slave devices on the bus will execute the requested action but none will reply to the master Broadcast will only be accepted for write commands as there is no meaning in transmitting a read request on broadcast given that no device will reply to it FUNCTION 1 byte This is one of the function codes supported by the device In this case the only CODE supported function codes are 3 for read and 16 for write When the slave has to reply to one of these packets with an exception this is indicated by setting the Most Significant Bit of the corresponding function to 1 Thus an exception for function 3 will be indicated with 0x83 as function code and an exception to code 16 or 0x10 in hexadecimal is indicated with 0x90 N bytes This part of the packet consists of a variable number of bytes depending on the function code It can include addresses data stri
103. algorithms are run device Pickup continuously during operation of the relay These diagnostics guarantee the correct working of the device as a preventive process The following general considerations apply Communications between different CPUs are confirmed with corresponding integrity checks Continuing anomalies will lead to the restarting of the device Data constituting settings are confirmed with corresponding checks Furthermore all tables of settings are stored in two copies The relay is capable of working with a corrupted table but not if both tables are corrupted A WatchDog mechanism exists both between and within the different main CPUs Loss of activity in any CPU will lead to the restarting of the device which will be logged as an event The state flag bits associated with this process are as follows Measurement error Problem in measurement block Protection error Problem in protection block EEPROM error Problem in EEPROM memory one of the tables is corrupted Events error Event log error Magnetic module error Connection fault detected between the device and the external magnetic module Non compact SILB Conversely Default settings indicates that the relay is working with the factory settings with all protection functions deactivated www fanox com 121 309 5 13 Commands Local Comms Remote ModBus Modbus IEC 60870 5
104. ap U U U u U u uuu 233 Counter 234 iii 235 Measurements map iiie tnde arme re bone dene ies 235 Protection Map JULI Sasawi 236 States ile rada 238 Eventilist partenariato 244 www fanox com 4 309 8 11 8 12 9 9 1 9 2 10 10 1 10 2 10 3 11 11 1 11 2 11 3 11 4 12 12 1 12 2 12 3 12 4 12 5 12 6 12 7 12 8 12 9 12 9 1 12 10 www fanox com FA y Settings MAP me 249 Examples of Modbus packets enema 257 IEC 60870 5 103 258 Physical layer his a 258 Application lay r L L ini 258 IEG 61850 PROTOGCOL La 269 Data 269 SOQ VI COS d 278 enr mM qasa 281 DNP 3 0 PROTOGO 283 Device profile document U uu uuu u uu 283 Implementation a i 286 Point St asennan EELEE ETER 287 DNP3 protocol settings
105. articular states X 200 1 CB close open 1 SE GI 200 lt 2 gt 52 Status Closed 1 SE GI 200 lt 3 gt 52 Status Open Time 2 SE 200 lt 4 gt 52 Status Open Failure 2 SE X 200 lt 5 gt 52 Status Close Failure 2 SE X 200 lt 6 gt 52 Status excessive openings 2 200 lt 7 gt 52 Status excessive sum of switched amperes 2 200 lt 8 gt 52 Status excessive openings per minute 2 200 lt 9 gt 52 Status excessive openings per minute 2 200 lt 10 gt 52 Status 2 SE GI 200 lt 11 gt 52 B Status 1 SE GI 200 lt 12 gt 52 Status Error 1 SE www fanox com 261 309 200 lt 16 gt 79 Status Reclose Time 2 SE X 200 lt 17 gt 79 Status Wait Time 2 SE X 200 lt 18 gt 79 Status Reclaim Time 2 SE X 200 lt 19 gt 79 Status Security Time 2 SE X 200 lt 20 gt 79 Status final open Time 2 SE X 200 lt 21 gt Start 2 SE X 200 lt 23 gt 79 Status Wait Time 2 SE X 200 lt 24 gt GEN 50Hz 1 SE GI X 200 lt 25 gt Magnetic module Error 1 SE GI X 200 lt 26 gt Error 1 SE GI 200 lt 28 gt GEN synchronism 2 SE X 200 lt 29 gt GEN Eeprom with default values 1 SE GI 200 lt 30 gt GEN eeprom Error 1 SE GI X 200 lt 31 gt values changed 1 SE GI X 200 lt 3
106. ate an alarm If the trip occurs the function of overload is reset when the thermal image falls below the set alarm level As the current measurement algorithm used is r m s in the thermal model is taken into account the heat produced by the harmonics This protection function is adjusted by setting five different parameters www fanox com 42 309 Function Description Minimum Maximum Default 49 Thermal image protection function Permission Yes No No Tap 0 10 2 40 0 01 I nom 1 2 heating 3 600 1 min 3 6 cooling 1 6 1 C heating 1 Alarm 20 99 1 96 80 4 6 1 Thermal image measurement evolution graphic On next graphic thermal image measuremet evolution can be observed depending on applied current Th trip We suppose that thermal image protection has and adjusted tap of 1 1 times the nominal current and an alarm level of 75 www fanox com 43 309 Zone 1 The machine is deenergized for long time Therma image is 0 Zone 2 We supply the machine with the nominal current Thermal image evolutions so as to get the value of the thermal balance corresponding to one time the nominal current Th 82 The time that it takes in getting the thermal balance depends on the adjusted heating constant Zone 3 Once reached the thermal image corresponding to the application of one time the nominal current we apply 1 2 times the nominal current Therm
107. bject Data Attribute General Start Pick up PTRC1 Str general Start pick up L1 PTRC1 Str phsA Start pick up L2 PTRC1 Str phsB Start pick up L3 PTRC1 Str phsC Start pick up N PTRC1 Str neut General Trip PTRC1 Tr general Trip L1 PTRC1 Op phsA Trip L2 PTRC1 Op phsB Trip L3 PTRC1 Op phsC 50P_1 Start A PHS PIOC1 Str phsA 50 _1 Start B PHS PIOC1 Str phsB 50P 1 Start C PHS PIOC1 Str phsC 1 Start P PHS PIOC1 Str general 50P 1 TripA PHS PIOC1 Op phsA 50P 1 Trip B PHS PIOC1 Op phsB 50 1 Trip PHS PIOC1 Op phsC www fanox com 270 309 1 Trip P PHS PIOC1 Op general 50P_2 Start PHS PIOC2 Str phsA 50P_2 Start PHS PIOC2 Str phsB 50P_2 Start C PHS PIOC2 Str phsC 2 Start 5 2 Str general 2 Trip PHS PIOC2 Op phsA 50 _2 PHS PIOC2 Op phsB 50P_2 PHS PIOC2 Op phsC 50 _2 Trip P PHS PIOC2 Op general 67N_1 Start N GND PTOC1 Str general 67 1 GND PTOCI Op general 67N_2 Start N GND PTOC2 Str general 67N_2 Trip N GND PTOC2 Op general 67P_1 Start A PHS PTOC1 Str phsA 67P_1 Start PHS PTOC1 Str phsB 67P_1 Start C PHS PTOC1 Str phsC 67P_1 Start P PHS PTOC1 Str general 67P_1 PHS PTOC1 Op phsA 67 _1 PHS PTOC1 Op phsB 67 _1
108. cer aine a antera 115 Configurable Outputs iii 117 86 Function Trip output lockout J J J J T J J J 120 Configurable 5 44445544 544865 4 120 CHIEDI A 121 fec 122 hiucRenilm 122 Date Time synchronization IRIG B u u iii 123 www fanox com 3 309 5 16 5 17 6 1 6 2 7 1 7 2 7 3 7 4 7 5 7 6 7 6 7 6 2 7 6 3 7 6 4 7 6 5 7 6 6 7 6 7 7 6 8 7 6 9 7 6 10 1 611 7 6 12 7 6 13 7 6 14 7 6 15 7 6 16 8 1 8 2 8 3 8 4 8 5 8 6 8 7 8 8 8 9 8 9 1 8 10 TeSt progra eme 124 Power 125 TECHNICAL SPECIFICATIONS AND 5 5 nnmn 126 Technical 126 133 COMMUNICATION AND HM lasisia niarainn aaiae daaa ianiai aaaea aaa 135 Local communication port RS232 135 Remote
109. ckout 223 81 3 Start 224 81 3 Trip 225 81 3 Lockout 226 81 4 Start 227 81 4 Trip 228 81 4 Lockout CONTROL RELAY OUTPUT BLOCK OBJECT 12 Index Description 0 Lock Unlock 79 1 52 open close ANALOG INPUT OBJECT 30 gt Assigned to Class 0 ANALOG INPUT CHANGE OBJECT 32 gt Assigned to Class 2 Index Description Full Scale Range Referenced to In 1A or In 5A 0 Phase A current 0 106 0 to 1 2 Amps 0 to 4095 1 Phase B current 0 to 6 0 to 1 2 Amps 0 to 4095 2 Phase C current 0 to 6 010 1 2 Amps 0 to 4095 3 Phase A voltage 0 to 76 2 Volts 0 to 4095 4 Phase B voltage 0 to 76 2 Volts 0 to 4095 5 Phase C voltage 0 to 76 2 Volts 0 to 4095 6 Active Power 0 to 228 6 0 to 1143 Watts 0 to 4095 7 Reactive Power 0 to 228 6 0 to 1143 Watts 0 to 4095 8 Frequency 0 to 60 0 to 72 Hz 0 to 4095 www fanox com 291 309 11 4 DNP3 protocol settings Setting Name Type Step Current Value Value Value Value Application Confirm Integer 4294967295 5000 1 msec Timeout Minimum Maximum Default Unsol Retry Delay mee Unsol Max Retries meger 0 Unsol Offline Retry Delay integer 0 RTU Address Remote Terminal Unit Address Validate Source Address Slave respond only if the source address in received requests matches configured source Application Confirm Timeout Specifies how long the slave DNP device
110. code 168 2 UCHAR4 See passcodes and access levels 03 Read date and time 170 5 FH 16 Write date and time 170 5 FH 16 Write counter index 175 1 UINT See counter map 03 Read counters 176 13 CONT See counter map 16 Write counters 176 13 16 selection 200 1 UINT See commands map 16 Command confirmation 201 1 UINT See commands map 16 Write event index 400 1 UINT See commands map www fanox com 233 309 03 Read event 401 10 EVENT See events list 03 Read and delete the oldest 433 9 EVENT See events list event 16 Delete all events 465 1 Dummy 16 Write protection criteria index 500 1 UINT See protection criteria map 03 Reading of protection states 501 61 PEST See state map 03 Read which protection criteria 561 61 PCRIT See protection the device implements criteria map 03 Read the characteristics of a 681 6 CCRIT See protection protection criterion criteria map 16 Write the measurements index 1000 1 UINT See measures map 03 Read measure on secondary 1001 2 FLOAT See measures map 03 Read measure on primary 1401 2 FLOAT See measures map 03 Read the characteristics of a 1801 8 CMED See measures map measurement 16 Write settings table number 3000 1 UINT 03 Read a setting 3001 2 See settings map 16 Write a setting 3001 2 See settings map 16 Write Confirmation of a setting 5001 2 See settings map 03 Read the first
111. com www fanox com 309 309
112. com 281 309 FANOX database Once client device is configured the communication between server could be initiated by the client by enabling the report and receving the existing information from the report Each client has different ways of configuring so it will be necessary referring to IEC61850 s configuration chapter from the client s manual Goose message is activated by default and is published with the information from the Goose dataset General Trips and Starts into the net One IED that requires the information from a Goose has to be configured using the ICD file from SILB In this file appears the default parameters of the Goose message www fanox com 282 309 11 DNP 3 0 PROTOCOL 11 1 Device profile document DNP V3 00 DEVICE PROFILE DOCUMENT This document must be accompanied by Implementation Table and Point List W FANOX Electronic S L Device Name SIL B Highest DNP Level Supported Device Function For Requests 2 Master Slave For Responses 2 Notable objects functions and or qualifiers supported in addition to the Highest DNP Levels Supported the complete list is described in the attached table For static non change event object requests request qualifier codes 07 and 08 limited quantity and 17 and 28 index are supported Static object requests sent with qualifiers 07 or 08 will be responded with qualifiers 00 or 01 16 bit 32 bit and
113. ctional actuation zone adjusted with an operating angle of 90 and a half cone angle of 60 www fanox com 40 309 angulo 609 Vpolarizaci n angulo operaci n 90 angulo semicono 60 4 5 Function 46 Negative sequence inverse time overcurrent This protection function can be set by using three parameters Function Description Minimum Maximum Step Unit Default 46 Negative sequence inverse time overcurrent Permission Yes No 5 Curve 1 IEC Extremely Inverse Dial 0 05 2 20 0 01 1 00 0 10 1 00 0 01 0 2 Operating time 0 02 300 0 0 01 s 0 02 1 IEC Inverse IEC Very inverse IEC Extremely Inverse ANSI inverse ANSI very inverse ANSI extremely inverse definite time If Definite Time is selected on curve settings the unit behaves as an instantaneous overcurrent unit For this case unit s operating time is the one adjusted on the parameter Operating time If for the curve setting it is selected a curve inverse very inverse or extremely inverse operating time is function of curve settings dial and tap www fanox com 41 309 FANOX If the unit operates as a definite time the starting up of the function occurs with 100 of adjusted tap and it resets with the 95 If the unit operates with curve the starting up of the function occurs with the 110 of the adjusted tap and it resets with the 100 Res
114. current 7 2 Phase B Pickup Activation Deactivation Phase B current 37P 2 Phase C Pickup Activation Deactivation Phase C current 37P 2 Pickup Activation Deactivation 7 2 Phase A trip Activation Deactivation Phase A current 7 2 Phase B trip Activation Deactivation Phase B current 7 2 Phase C trip Activation Deactivation Phase C current 37P 2Trip Activation Deactivation Level 1 phase definite time overvoltage 59P 1 59P 1 Phase A Pickup Activation Deactivation Phase A voltage 59P 1 Phase B Pickup Activation Deactivation Phase B voltage 59P 1 Phase C Pickup Activation Deactivation Phase C voltage 59P 1 Pickup Activation Deactivation 59P 1 Phase A trip Activation Deactivation Phase A voltage 59P 1 Phase B trip Activation Deactivation Phase B voltage 59P 1 Phase C trip Activation Deactivation Phase C voltage 59P 1 Trip Activation Deactivation Level 2 phase definite time overvoltage 59P 2 59P 2 Phase A Pickup Activation Deactivation Phase A voltage 59P 2 Phase B Pickup Activation Deactivation Phase B voltage 59P 2 Phase C Pickup Activation Deactivation Phase C voltage 59P 2 Pickup Activation Deactivation 59P 2Phase A trip Activation Deactivation Phase A voltage 59P 2 Phase B trip Activati
115. d Output 6 Not activated Output not activated Activated Output activated www fanox com 124 309 7 Not activated Output not activated Activated Output activated The key sequence to access the test menu is as follows From the main menu enter the key sequence lt gt and then press and hold until the Test menu is displayed indicating that while the test menu is active protection is deactivated Pressing OK bring up the passcode introduction menu if the correct passcode is introduced the text menu is accessed by pressing OK again Navigate the menu using the and V keys Press to toggle the state of each menu item to activate it if it is deactivated and to deactivate it if it is activated Press C to leave the test menu Inputs can be verified using the state menu For more detailed information see the section on keypad and display for explanations of menu navigation 5 17 Power Supply The unit s power consumption is less than 4 Watts Power supply is guaranteed between 20 of auxiliary voltage The relay may function outside of this range but operation is not guaranteed In the cases of 110V AC 230V AC 20 of the established values is guaranteed 110 or 230 so at 150V AC the device may function but is not guaranteed Front power supply is designed for fine tuning or situations where the auxiliary voltage is no
116. defect is found the transport company and FANOX should be informed immediately If the relays are not for immediate use they should be returned to their original packaging 1 3 Handling electronic equipment Relays contain an electronic component that is sensitive to electrostatic discharges Just by moving a person can build up an electrostatic potential of several thousand volts Discharging this energy into electronic components can cause serious damage to electronic circuits It is possible that this damage may not be detected straight away but the electronic circuit reliability and life will be reduced This electronic component in the equipment is well protected by the metal housing which should not be removed as the equipment cannot be adjusted internally If it is necessary to disassemble the electronic component this must be carried out with care and contact with electronic components printed circuits and connections must be avoided to prevent an electrostatic discharge that could damage of the components If the electronic components stored outside the metal housing they must be placed in an antistatic conductive bag If it is necessary to open a module care must be taken to preserve the equipment reliability and the duration of the life cycle as designed by the manufacturer by taking the following actions Touch the housing to ensure that you have the same potential e Avoid touching the electronic components and
117. e The value of these resistance loads should be the same as the impedance of the cable RS485 are insulated from the auxiliary voltage but there is no insulation between the two ends of rs485 terminals In highly aggressive environments fiber optics can be used with the corresponding converters Connection diagram of an RS485 bus SIA E SIA E SIA E Besides there is another rear communication RJ45 port using IEC61850 or DNP3 0 www fanox com 137 309 7 3 LCD front of the SIL B relay is fitted with alphanumeric LCD screen measuring 20x2 This screen provides the user with access to read information about the settings parameters measurements status and events All of this information is arranged in a system of menus A keypad is fitted to the relay front panel which can be used to access the information shown on the LCD screen and to navigate through the menu system This membrane keyboard has 6 keys that can be used to navigate through the different menus and to change the setting parameters The and 4 p keys can be used to navigate through the different menus the different options in each menu and the different values for the settings parameters The OK key is used to access the menus and the different options as well as to approve changes to values The C key is used to delete and to go
118. e figure below Figure 4 shows the tripping curve of the relay 100 000 Function 51 Function 50 Figure 4 Relay tripping curve www fanox com 84 309 APPLICATION EXAMPLE 3 In this example it is explained what occurs when it is selected in curve type parameter DEFINITE TIME In this case 51 function works as 50 function Starting from the following information Line details e Transformation ratio of CT 100 1 e Primary current Ip 100 51 function settings e Curve type Definite time Tap 1 e Operating time 5 s 50 function settings e Tap 15 Operating time 1 s Function51 as function 50 Function 50 Figure 5 Function 51 as 50 and function 50 www fanox com 85 309 FANOX If overcurrent fault is 15xl 21500 Ap Definite time curve defines a tripping value of 5 s Figure 5 for 51 function It is considered that this time is too high so when current fault reaches 15xl definite time overcurrent function will be work function 50 The figure below Figure 6 shows the tripping curve of the relay Function 51 as function 50 Function 50 Figure 6 Relay tripping curve www fanox com 86 309 5 MONITORING CONTROL 5 1 Measurements measurement precision is 2 precision a band covering 20 of Rated Current and 4 in the rest of the range of measurements 16 samples cycle are taken Frequency measurement
119. ed Phase B Trip not activated Phase C Trip not activated Phase Trip not activated TSTATES Phase Pickup not activated Phase B Pickup not activated Phase C Pickup not activated Phase Pickup not activated States 50P2 155 309 Phase Trip not activated Phase B Trip not activated Phase C Trip not activated Phase Trip not activated States 67 1 T STATES AY Y Phase A Pickup States 67 1 not activated Phase B Pickup not activated Phase C Pickup not activated www fanox com 156 309 www fanox com AY States 67P2 Phase Pickup not activated Phase A Trip not activated Phase B Trip not activated Phase C Trip not activated Phase Trip not activated T STATES activated Phase B Pickup not activated Phase C Pickup not activated States 67 2 157 309 www fanox com AV States 50 1 Phase Pickup not activated Phase A Trip not activated Phase B Trip not activated Phase C Trip not activated Phase Trip not activated T STATES Ground not activated Ground Trip not activated States 50N1 158 309 www fanox com STATES v AY States 50N2 Ground Pickup not activated States 50N2 Trip c activated States 6711 TT STATES Pickup States 67
120. el 100 126 309 Voltage deactivation level 95 Instantaneous deactivation Timing accuracy 5 30 ms whichever is higher 67 51 50N 1 Function permission yes no 67 51 50N_2 Operating range 0 10 to 7 step 0 01 Operating range V 4 to 110 V step 1 V IEC 60255 151 and ANSI curves Operating time Inverse curve very inverse curve extremely inverse curve Defined time 0 02 to 300 s step 0 01 s Dial 0 05 to 2 20 step 0 01 Directionality yes no Operating angle 0 to 359 step 1 Half cone angle 0 to 170 step 1 Curve current activation level 110 Curve current deactivation level 100 Defined time current activation level 100 Defined time current deactivation level 95 Voltage activation level 100 Voltage deactivation level 95 Instantaneous deactivation Timing accuracy 5 or 30 ms whichever is higher Function permission yes no Operating range 0 10 to 1 xIn step 0 01 IEC 60255 151 and ANSI curves Operating time Inverse curve very inverse curve extremely inverse curve Defined time 0 02 to 300 s step 0 01 s Dial 0 05 to 2 20 step 0 01 Curve current activation level 110 Curve current deactivation level 100 Defined time current activation level 100 Defined time current deactivation level 95 www fanox com 127 309
121. ements adjustments to protection criteria and the events or events associated with the equipment to be displayed In addition to the keys used to navigate through the menus there are some special keys e Reset Used to reset signals and events e Locking 79 Used to lock and unlock the recloser of the circuit breaker Used to control the circuit breaker The SIL B has 8 front mounted LEDs of which 2 have fixed functions and 6 can be configured The LEDs with fixed functions are e Status of the circuit breaker e Status of the recloser The remaining 6 LEDs are designed to indicate events and can be configured to show alarms and states The equipment has a memory for up to 1000 events allowing any recorded events to be analyzed There may be a very extensive number of fault events resulting from the use of inverse criteria and the recloser As the oscillography is time limited 50 cycles it may not have the capability to record the entire fault Similarly the events log contains generic information and it can lose information pertaining to a specific event after a time This is why a log of fault reports has been included Each fault report contains up to 80 events associated with the time of failure The log stores the reports associated with the last 20 faults that are detected www fanox com 27 309 FANOX mentioned the previous paragraph 2 oscillographic logs are available each with a size of 138 cycle
122. ent is generated This alarm resets itself the corresponding time is exceeded with less trips than those indicated www fanox com 55 309 4 14 Function 50BF Circuit Breaker opening fault This function settings are as follows Function Description Minimum Maximum Step Unit Default Circuit breaker opening fault 50BF Permission Yes No No Opening fault time 0 02 1 00 0 01 s 0 2 following automaton describes open fault function Imax lt 8 Inominal Imax lt 8 Inominal INIT_50BF 0 Imax lt 8 Inominal When the 50BF Start status is activated a switch is made to the 50BF start and time is counted If following the adjusted open fault time the switch is not detected to have open the function trips The function is reset when the circuit breaker is detected to have opened and the 50BF Start status has been reset To monitor the circuit breaker opening the current measurement via the three phases is used When the current via the three phases is less than 8 of the rated current the circuit breaker is considered to be open There is a 50BF start input to start the open fault from an external protection The 50BF Start status is an adjustable logic output The default configuration is shown below Opening fault input activation 50BF start input Circuit breaker opening from an HMI local modbus Circuit breaker opening from a remo
123. environments EN 55011 RF energy emissions Limitations for group 1 class A EN 55022 IEC 60255 22 1 Interruptions Damped RF oscillatory wave immunity Level 3 ISO 9001 2000 Quality Management System Fanox Quality Management System its certify according to standard ISO 9001 2008 7 COMMUNICATION AND HMI The SIL B relay features the following communications ports 1 LOCAL front RS232 Modbus RTU or USB 2 REMOTE rear RS485 Modbus RTU 3 REMOTE rear RS485 IEC 60870 5 103 Depending on model 4 REMOTE rear RJ45 IEC 61850 Depending on model 5 REMOTE rear RJ45 DNP 3 0 Depending on model 7 1 Local communication port RS232 An 232 port is featured on the front of the device non version the connector used is DB 9 female DCE The protocol used is Modbus RTU 19200 8 bit no parity 1 bit stop The map and documentation on the protocol can be found in an annex to this manual The ground from the PC should be connected to the same ground as the relay in order to prevent communication problems The RS232 communication system is insulated from the auxiliary voltage but not from the shared voltage of the relay processors so the cable connecting the PC to the relay should not be excessively long in order to avoid potential electromagnetic interference with the device In SIL the frontal port is a USB port w
124. esponding section The activation level for the polarization voltage is 100 and the reset level is 95 Resets are instantaneous www fanox com 37 309 FANOX The following table shows the operating and polarization magnitudes used each phase Said magnitudes are displayed graphically below the table Phase Operating magnitude Polarization magnitude Phase A IA Current VCB Voltage Phase B IB Current VAC Voltage Phase C IC Current VBA Voltage 2 7 N id u 2 N The following figure shows a graphic representation of the directional actuation zone adjusted with operating angle of 90 and a half cone angle of 60 angulo semicono 60 angulo operaci n 90 angulo semicono 6 www fanox com 38 309 FANOX 4 3 Functions 50 1 and 50N 2 Instantaneous neutral overcurrent This protection function can be set by using three parameters Function Description Minimum Maximum Step Unit Default 50N 1 Neutral instantaneous overcurrent 50N 2 Permission Yes No No Tap 0 10 30 00 0 01 nominal 1 00 Operating time 0 02 300 00 0 01 5 0 02 operating time is completely independent the operating current that flows through the equipment so if the neutral current exceeds its predetermined value for an equal or greater amount of time than this preset value the protection function ac
125. essage that is continuously cast to the Ethernet and every device can analyze it Compact SILB disposes by default a Goose message associated to the Goose Dataset E This message is sent to the Ethernet with a latency time of 30 seconds till one of the values of the element of the Dataset changes then the message is sent immediately in a repeating way in a short time increasing till reaching the latency time 10 3 Operation Compact SILB is pre configured with a sample configuration to be integrated in an IEC 61850 system It disposes all the Data model with all the functionallity available via MMS using a software application like IEDScout or via Reports with their Event measure or Trip Datasets in case a client needs to receive information from the device To retrieve the data model from the device to a PC with an IEC 61850 tool it is only required the IP of the device by default 192 168 0 121 The tool has to be able of asking the data model automatically The name of the IED is by default TEMPLATELD1 and below it there is the data model with its logical nodes data objects and data attributes according IEC 61850 The common way to integrate a new IED in a SCADA is using reports and the ICD files from SILB provided for this purpose From the ICD file of SILB the client device has to select a Report with the associated Dataset This way client will have a list of signals that will use to configure its own www fanox
126. et is instantaneous in both cases Action time accuracy is 5 or 30ms highest of both over theorical time of action Used curves are IEC 60255 151 and ANSI IEEE which are described on corresponding section of this manual 4 6 Function 49 Thermal image protection Thermal image is a measure of heating and cooling of an electric machine Unlike overcurrent protection do not start counting the time when it detects a fault but is continuously determining the thermal state of the machine that monitors The trip time depends on the thermal constants adjusted the current flowing and the prior thermal state of the machine The thermal image is calculated based on the following equation 100 x 11 x 1 e 0 x e where e maximum r m s current of three phases e adjusted tap current e termal constant e initial termal state The trip time is given by the equation 87 100 1 The algorithm uses the maximum of the three phase currents If the maximum is greater than 15 of the adjusted tap heating thermal constant is applied If the maximum is less than 15 of the adjusted tap cooling thermal constant is taken into account The overload function trips when the thermal image reaches the value of 100 This value is reached in time when the current flowing is equal to the function adjusted in thermal function It provides an adjustable level of thermal imaging to gener
127. external magnetic module 15 EQUIPMENT MOnt VIEW cirie iii 15 EQUIPMENT GIMENSIONS 16 Cut Out tend 17 Connection 5 4 17 20 DESCRIPTION ae 26 Introd c Hon l Au RR a E iens 26 pridie 26 Functionalidiagrami aisi 32 118 T 33 Phase CT and neutral CT selection J J J J J J J J T 34 SIL B 1 CHARGE 35 SIL B 5 GHARGE CURVE ii ta 35 PROTECTION FUNCTIONSZ u u 5 55150 u l u pee vie ie ia 36 Functions 50P 1 50 2 Instantaneous phase overcurrent 36 Function 67 51 50P1 amp 67 51 50P2 Inverse time phase directional overcurrent 36 Functions 50 1 and 50N 2 Instantaneous neutral overcurrent 39 Function 67 51 50 1 amp 67 51 50N2 Inverse time neutral directional overcurrent 39 Function 46 Negative sequence inverse time overcurrent 41 Function 49 Thermal image protection 42 Thermal image
128. han 20 ms is received to avoid false signals a 200 ms pulse is generated to be used in the trip output Oscillography Pickup Input Oscillography Start Input Start 79 Start of 79 through external protection Permission 79 input Permission to close 79 Locking 79 level input Lock of 79 through a level input Input 0 Table Active Active table assignment Input 1 Table Active Active table assignment Locking 79 input pulse Lock of 79 through a pulse input of an RTU Unlock 79 pulse input Unlock of 79 through a pulse input of a RTU Input start Start of circuit breaker fault through external protection www fanox com The inputs are configured by associating the logical inputs with the required physical input or to none if the logical input is not used Therefore a single physical input can be assigned to more than one logical input 115 309 In the following example e input 1 is assigned to contact of the circuit breaker e input 2 is assigned to contact b of the circuit breaker e input 3 is assigned to the function 50P locking e input 4 is assigned to the function 50N locking e In addition it is understood that there is an additional protection which starts up 79 and assigns input 5 to said start As well as bouncing the trip this input allows the oscillography to start up e A key is provided input 6 which allows the 79 to be locked e S
129. he recloser monitors the status of the input This may be of use if the company has a handle with a key In the first four cases the equipment stores the lock situation in the non volatile memory as the last control must be know for a possible re start The auto recloser s start up is shown in the following figure There are two stable conditions here Standby and Lockout the other conditions are transient www fanox com 59 309 52 52 79 Init Input Reclose Init Configurable Init N N 1 Reclose Time N gt Max Number Shots TimeOut 52 Close Wait Reclose Condition No Hold TimeOut Reclose Condition Input TimeOut Time 52 Close Reset TimeOut TimeOut Safety Reclose Init 52 Close amp 79 Unblock Command 79 Block Input 79 Block Command www fanox com TimeOut 60 309 standby The recloser can leave this mode via three conditions e Recloser command e Manual or remote control opening of the circuit breaker In this situation it shall wait the final opening of the same and then it shall switch to lock mode e Circuit breaker trip This shall start the reclosing cycles This start may arise either from the trip itself or from an external input if external protection is fitted When locked The recloser shall switch from this condition as a result of two different conditions e Manual or remote
130. ime 150 ms Function permission yes no Operating time 0 02 to 300 s step 0 01 s Command voltage presence 40 Trip continuity in circuit a and b Function permission yes no 50P_1 multiplier range 1 to 5 50P_2 multiplier range 1 to 5 67P_1 multiplier range 1 to 5 67P_2 multiplier range 1 to 5 50N_1 50G_1 multiplier range 1 to 5 50N_2 50G_2 multiplier range 1 to 5 67N_1 multiplier range 1 to 5 67N_2 multiplier range 1 to 5 Time to pass to 1 a 18000 5 step 1 5 duration time 1 a 18000 5 step 1 5 CLP activation threshold 8 In CLP deactivation threshold 10 In Allows to latch lock out the contact trip due to programmable logic PLC OR_LATCH 1 general settings table 3 protection criteria tables Selectable by input or general setting Condenser charge time 10 minutes Functioning without auxiliary voltage 72 hours 16 samples cycle Oscillo starting configuration 2 records 10 cycles pre fault and 128 post fault COMTRADE IEEE C37 111 1991 8 analogue channels and 120 digital channels 20 fault reports with 80 events in each The voltage of the inputs is the same as the auxiliary power supply 131 309 7 iiic 250 VAC 8A outputs 30V DC 5A Output 1 and output 2 Commuted NC Others NO Frequency 50 60Hz Phase current
131. imilarly this protection starts up the circuit breaker fault with input 7 e and finally the active table is controlled with input 8 e The 79 permission function is not assigned to anything in particular as synchronizer is not necessary for closure However in this case it is best to prohibit the wait time of the recloser Logical inputs Inp1 2 Inp3 Inp4 Inp5 Inp Inp7 Inp8 Not configured Input 52 X Input 52 b X Locking 50P input Locking 50 input X External trip input X Oscillography Pickup Input X Input Start 79 X Permission 79 input Locking 79 level input X Input 0 Table Active Input 1 Table Active X Locking 79 input pulse Unlock 79 pulse input Input start 5OBF X www fanox com 116 309 default configuration of the inputs is follows Logical inputs Inp1 1 2 Inp3 4 Inp5 Inp Inp7 Inp8 Not configured Input 52 a Input 52 b X Locking 50P input Locking 50N input External trip input Oscillography Pickup Input Input Start 79 Permission 79 input Locking 79 level input Input 0 Table Active Input 1 Table Active Locking 79 input pulse Unlock 79 pulse input Input start The Input configuration menu section describes the process for configuring the inputs 5 9 Configurab
132. imum Step Unit Default 25 Synchronism Operation permissions Permission LLLB Yes No No Permission LLDB Yes No No Permission DLLB Yes No No Permission DLDB Yes No No In case the line or bar or both are dead LLDB DLLB DLDB situations permission to close is only determined by the setting of permission It is not necessary the synchronism to close the switchgear When the line and the bar are alive is the time to check the conditions of voltage magnitude phase difference and frequency difference between line voltage and bar voltage to allow the closure It is verified that these conditions of voltage magnitude phase difference and frequency difference is maintained over a set time to verify that it is not a temporary situation Function Description Minimum Maximum Default 25 Synchronism Synchronism algorithm Line Bar voltage 4 110 0 1 V 15 difference Line Bar phase 0 359 1 9 10 difference Line Bar frequency 0 02 0 50 0 01 Hz 0 02 difference Synchronism time 0 02 300 0 01 S 0 02 If these conditions of synchronism are mantains during synchronism time we will have switch close permission www fanox com 63 309 sync function generates the following bits 25 Sincronismo LLLB Live line live bar LLDB Live line dead bar DLLB Dead line live bar DLDB Dead line dead bar Close permission
133. ing address ground fault indications 160 lt 48 gt Ground fault L1 160 lt 49 gt Ground fault L2 160 lt 50 gt Ground fault L3 160 lt 51 gt Ground fault front e g 160 lt 52 gt Ground fault rear e g bus Monitoring address fault indications X 160 64 11 Pickup 2 5 160 65 12 2 SE X 160 66 13 Pickup 2 5 160 67 N Pickup 2 SE X 160 68 General trip 2 SE X 160 lt 69 gt L1 trip 2 SE X 160 70 L2 trip 2 5 160 71 13 2 5 160 lt 73 gt Localizer of fault X in ohms 160 lt 74 gt Front fault line www fanox com 260 309 160 lt 75 gt Front fault bus 160 lt 76 gt Remote protection signal transmitted 160 lt 77 gt Remote protection signal received X 160 84 General Pickup 2 SE X 160 85 Breaker fault 2 SE X 160 90 Trip I 2 SE 160 91 Trip gt gt 2 SE X 160 92 gt 2 5 160 lt 93 gt IN gt gt 2 5 Monitoring address indications X 160 lt 128 gt CB on by AR 1 SE 160 129 long time X 160 130 locked 1 SE GI Monitoring address measurements 160 lt 144 gt Measurement 3 1 160 lt 145 gt Measurements V 3 2 160 lt 147 gt Measurements In 3 4 X 160 148 Measurements 1012 3 V L1 2 3 P Q f 9 CYC Monitoring address indications of p
134. inputs 1 2 3 and 4 74 5 voltage presence Digital input 5 74TCS coil 1 Digital input 6 74TCS coil 2 Digital input 7 74TCS common 4 Digital input 8 Auxiliary voltage Common ol digital inputs 5 6 7 and 8 Auxiliary voltage www fanox com 14 309 2 2 2 2 1 Equipment front view www fanox com 15 309 2 2 2 Equipment dimensions rtr www fanox com 16 309 2 2 3 Cut out pattern CUT OUT PATTERN 2 2 4 Connection diagrams Analog connections and communications 3 PHASES CT AND 1 NEUTRAL CT www fanox com 17 309 3 PHASES 2 PHASES CT AND 1 NEUTRAL CT oo www fanox com 18 309 Digital connections Outputs and Trip circuit supervision 50 Breaker Falle www fanox com 19 309 2 2 5 Terminals Compact SILB with 61850 151212 5181512 2735744 18 avia 2 3 9 8 sv 20 309 www fanox com Digital output common 1 A RS485 Modbus RTU Digital output 1 NC B RS485 Modbus RTU Digital output 1 NO Gnd RS485 Modbus RTU Digital output common 2 RJ45 connector for IEC 61850 protocol Digital output 2 NC Phase A voltage Digital output 2 NO Phase A voltage Digital output 3 NO Phase B voltage
135. ion The equipment must be used within the stipulated electrical and environmental limits NOTE current transformer circuits Do not open a live CT secondary circuit The high voltage produced as a result could damage the isolation and threaten lives 1 5 Storage If the relays are not going to be installed immediately they must be stored in a dust and humidity free environment after the visual inspection has been performed 1 6 Recycling Before recycling the equipment the capacitors should be discharged through the external terminals electrical power sources should be removed before performing this operation to avoid the risk of electrical discharge This product must be disposed of in a safe way It should not be incinerated or brought into contact with water sources like rivers lakes etc www fanox com 7 309 2 DIMENSIONS AND CONNECTION DIAGRAMS 2 1 Non SILB with external magnetic module 2 11 Equipment front view www fanox com 8 309 2 1 2 Equipment dimensions Dimensions are mm 241 3 161 8 www fanox com 9 309 2 1 3 Cut out pattern 101 6 CUT OUT PATTERN 317 2 1 4 Magnetic module dimensions www fanox com 10 309 2 1 5 Connection diagrams Analoqical connections and communications 3 PHASE CURRENT TRANSFORMERS AND 1 NEUTRAL 0 c gt 2 amr RS485 10608705403 LM i Lu N
136. ion Activation Deactivation Pickup of some phase B function Activation Deactivation Ore phase Activation Deactivation Pickup of a function Activation Deactivation Phase A trip Activation Deactivation Phase B trip Activation Deactivation Phase C trip Activation Deactivation Trip of 50N_1 or 50N_2 Activation Deactivation 1 of 50P_1 or 50 2 Activation Deactivation Logical inputs Input 52 Activation Deactivation Input 52 b Activation Deactivation Locking 50P input Activation Deactivation www lanox com 105 309 Locking 50 input Activation Deactivation External trip input Activation Deactivation Input oscillography start Activation Deactivation Start 79 input Activation Deactivation Permission 79 input Activation Deactivation Locking 79 level input Activation Deactivation Active table input0 Activation Deactivation Active table input1 Activation Deactivation Lock pulse input 79 Activation Deactivation Unlock pulse input 79 Activation Deactivation Start 50BF Activation Deactivation 5 Physical inputs Input 1 Activation Deactivation Input 2 Activation Deactivation Input 3 Activation Deactivation Input 4 Activation Deactivation Input 5 Activation Deactivation Input 6 Activation Deactivati
137. ip Level1 Neutral inverse time directional overcurrent 67N_1 S Pickup 67N_1 Trip Level2 Neutral inverse time directional overcurrent www fanox com 90 309 67 2 67 2 Negative sequence inverse time overcurrent 46 Pickup 46 Trip Thermal image protection 49 Alarm 49 Trip Level1 Definite time undercurrent 37P_1 Phase A pickup 37P_1 Phase B pickup 37P_1 Phase C pickup 37P_1 pickup 37P_1 Phase A trip 37P_1 Phase B trip 37P_1 Phase C trip 37P_1 Trip Level2 Definite time undercurrent 37P_2 Phase A pickup 37P_2 Phase B pickup 37P_2 Phase C pickup 37P_2 pickup 37P_2 Phase A trip 37P_2 Phase B trip 37P_2 Phase C trip 37P_2 Trip Level1 Phase definite time overvoltage 59P_1 Phase A pickup 59P_1 Phase B pickup 59P_1 Phase C pickup 59P_1 Pickup www fanox com 91 309 1 Phase A trip 1 Phase B trip 59P 1 Phase C trip 59P 1 Trip Level2 Phase definite time overvoltage 59P 2 Phase A pickup 59P 2 Phase B pickup 59P 2 Phase C pickup 59P 2 Pickup 59P 2 Phase A trip 59P 2 Phase B trip 59P 2 Phase C trip 59P 2 Trip Level1 Neutral definite time overvoltage 59N 1 Pickup 59N 1 Trip Level2 Neutral definite time overvoltage
138. is obtained by using the passing through zero of the voltage algorithm To obtain line frequency and busbar voltage to get busbar frequency it is specifically used phase B voltage The minimum value of this voltage to get frequency measurement are 30 volts If the voltage of phase B is lower than 30 volts frequency mesuremint will be 0 00 Hz The frequency measurement accuracy is 0 01 Hz The following measurements are provided e Phase r m s currents IB IC e Neutral r m s current e Positive sequence current 11 e Negative sequence current 12 Phase r m s voltages VA VB VC Residual neutral voltage VN calculated internally from the sum of the phase voltages e Busbar phase B r m s voltage VBBus e Voltage between phases 012 023 031 e Angle current phase L1 respect e Angle current phase L2 respect VL1 ang IB e Angle current phase L3 respect to VL1 ang IC e Total Active Power P e Phase Active power P A P B P C e Total Reactive Power Q e Phase Reactive power Q A Q C e Total apparent power e Phase Apparent power S A 5 S C e Power factor cos Phi e Each phase Power factor cos Phi A cos Phi B cos Phi C Thermal image e Line frequency e Busbar frequency e Phase difference between phase B line voltage and busbar voltage www fanox com 87 309 Sy EA Below the measurement ranges phase neutral currents fo
139. is time buffer and it is not possible recovering lost or past reports They are usually used for reporting of measures Compact SILB device is pre configured with 10 URCB associated to the Measures Dataset RP Unbuffered Reports TEMPLATELD1ALNO RP rcb201 0 TEMPLATELD1ALNO RP rcb202 9 TEMPLATELD 1 LLNO RP rcb203 TEMPLATELD 1 LLNO RP rcb204 9 TEMPLATELD 1 LLNO RP rcb205 9 TEMPLATELD1ALNO RP rcb206 0 TEMPLATELD 1 LLNO RP rcb207 TEMPLATELD 1 LLNO RP rcb208 9 TEMPLATELD1ALNO RP rcb209 TEMPLATELD1ALNO RP rcb210 10 BRCB associated to Events Dataset and another 10 to Trips Dataset www fanox com 280 309 Buffered Reports TEMPLATELD1 LLNO BR rcb101 0 TEMPLATELD1ALNO BR rcb 102 9 TEMPLATELD1ALNO ER rcb103 9 TEMPLATELD1ALNO ER rcb 104 9 TEMPLATELD1ALNO BR rcb105 9 TEMPLATELD1ALNO BR rcb106 9 TEMPLATELD1 LLNO BR rcb 107 TEMPLATELD1 LNO ER rcb108 TEMPLATELD1ALNO BR rcb109 9 TEMPLATELD1 LNO BR rcb110 i 1 TEMPLATELD1ALN0 BR rcb302 CO TEMPLATELD1 LNO ER rcb303 0 TEMPLATELD1 LLNO BR rcb304 0 TEMPLATELD1ALNO BR rcb305 9 TEMPLATELD1 LLNO BR rcb306 TEMPLATELD1 LNO ER rcb307 TEMPLATELD1ALNO BR rcb308 9 TEMPLATELD1 LLNO BR rcb309 0 TEMPLATELD1ALNO BR rcb310 This way up to 10 different clients can dispose of the whole information of events and measures GOOSE Goose service allows the Multicast sending to multiple devices of the existing information in a Dataset Goose message is an Ethernet m
140. it breaker closure b If both line and bar are alive it will be necessary to get the manual closure of the circuit breaker not only LLLB permission to be enable either to check synchronism If LLLB permission is enable but synchronism conditions do not verify after pressing CLOSE BREAKER command circuit breaker closure does not occur and vice versa 4 18 Cold Load Pickup This unit is used to prevent undesired operations of the overcurrent functions in the cases where when the line is deenergised all the loads enter at the same time This function settings are as follows Description Minimum Maximum Step Default Cold Load Pickup Permission Yes No No 1 Multiplier 1 5 0 01 1 50P_2 Multiplier 1 5 0 01 1 67P_1 Multiplier 1 5 0 01 1 67 _2 Multiplier 1 5 0 01 1 1 Multiplier 1 5 0 01 1 2 Multiplier 1 5 0 01 1 67 1 Multiplier 1 5 0 01 1 67N_2 Multiplier 1 5 0 01 1 CLP switch time 1 18000 0 01 s 15 CLP duration 1 18000 0 01 s 15 The two time parameters have the following meaning www fanox com 69 309 FANOX e switch time If the circuit has been open for less time than that set in this parameter the Cold Load Pickup is not activated When this time is exceeded the overcurrent functions are multiplied by the indicated constant e CLP duration Time from the passage of current in which time the Multiplier i
141. it is necessary to insert the correct password 5 3 Statuses and Events Statuses are real time information generated by the equipment Some statuses are defined as a level and others like trips are too brief to be displayed in real time www fanox com Status Level1 Phase definite time overcurrent 50P_1 Phase A pickup 50P_1 Phase B pickup 50P_1 Phase C pickup 50P_1 Pickup 50P_1 Phase A trip 50P_1 Phase B trip 50P_1 Phase C trip 50P_1 Trip Level2 Phase definite time overcurrent 50P_2 Phase A pickup 50P_2 Phase B pickup 50P_2 Phase C pickup 50P_2 Pickup 50P_2 Phase A trip 89 309 67 51 50P_1 67 51 50 P 2 67 51 50 1 67 51 50N_2 50P_2 Phase B trip 50P_2 Phase C trip 50 _2 Trip Level1 Phase Inverse time directional overcurrent 67P_1 Phase A pickup 67P_1 Phase B pickup 67P_1 Phase C pickup 67P_1 pickup 67P_1 Phase A trip 67P_1 Phase B trip 67P_1 Phase C trip 67P_1 Trip Level 2 Phase Inverse time directional overcurrent 67P_2 Phase A pickup 67P_2 Phase B pickup 67P_2 Phase C pickup 67 _2 pickup 67 _2 Phase A trip 67P_2 Phase B trip 67P_2 Phase C trip 67P_2 Trip Level1 Neutral definite time overcurrent 50N_1 Pickup 50N_1 Trip Level2 Neutral definite time overcurrent 50N_2 Pickup 50N_2 Tr
142. ker 52a contact is available it should be wired to the corresponding physical input This physical input is then assigned to the 52a Input logical input The 52b logical input is calculated internally as the negative of 52a The circuit breaker performance is shown in the following finite state machine www fanox com 52 309 If only the circuit breaker 526 contact is available it should be wired to the corresponding physical input This physical input is then assigned to the 52b Input logical input The 52a logical input is calculated internally as the negative of 52b The circuit breaker performance is shown in the following finite state machine f Open Time www fanox com 53 309 FANOX If both of the circuit breaker contacts 52a and 52b are available they should be wired to the two physical inputs These physical inputs are then assigned to the corresponding logical inputs the circuit breaker 52a contact to the 52a Input logical input and the circuit breaker 52b contact to the 52b Input logical input The circuit breaker s automaton is considered as having eight statuses start open closed error opening time opening fault closing time and closing fault The circuit breaker performance is shown in the following finite state machine 52a amp 52h Fallo Fallo Cierre apertura Tiempo apertura Tiempo cierre The circuit breaker opening and c
143. le Outputs The SIL B has physical outputs and logical outputs The physical outputs are the output relays and the logical outputs are digital states that are used internally in the relay to activate its functions The outputs can be configured from the HMI or through the SICom program The following logical outputs are used internally Local outputs Start 79 Start 50BF Oscillography Start 79 Closure permission 52 Closure permission www fanox com 117 309 Any available state be assigned to output Up to 16 different states assigned a single output basing on the following logic LOGICAL GATE OR 4H NOR t OR LACTH c NOR LACTH y www fanox com 118 309 The default output configuration is as follows Outputs Description Status Output 1 Device alarm Ready Output 2 Not configured Not configured Output 3 50BF trip 50BF trip Output 4 Trip Open Open Modbus local HMI Open Modbus remote Open remote remote General trip Output 5 Reclose Close Close Modbus local HMI Close Modbus remote Close Remote remote Recloser closure state Output 6 Not configured Not configured Output 7 Not configured Not configured Start 79 Start 79 Trip 67P_1 Trip 67N_1 Trip 46 Start 79 input Start 50BF Start Start input 50BF Open Modbus local HMI Open Modbus remote Open remote remote General trip Start oscillography
144. lography has to be observed A brief description of the general states can be found below Trip The equipment has tripped This bit is the OR of all the trips of any of the functions plus the external trip input If a certain function should not cause trip it must be individually prohibited In the case of the external trip input it should be just left unconfigured 50 Hz network frequency activates when the frequency setting is 50Hz and deactivated when the frequency setting is 60 2 The Ready bit encompasses the correct functioning of the relay and has the following logic Operation Measure error Protection error efault settings This bit is normally assigned to a contact that has a NC contact Magnetic module error detects if there is a problem with the connection to the external magnetic module in non compact SILB Compact SIL B does not have external magnetic module Measurement error The self diagnostic algorithms have detected a problem in the measurement block Protection error The self diagnostic algorithms have detected a problem in the measurement block Setting change Activates when a change is made to the settings Date time setting Activates when the date time is synchronized www fanox com 98 309 FANOX e Local the sum of the activity and Local communication bits the Local communication state group e Default settings the equipment has its default settings no
145. losing commands are implemented These commands can be executed from the HMI commands menu or using the HMI s specific keypad or from local or remote communications In order that the command related to the key can run the menu must be in standby mode 4 13 1 Circuit Breaker opening and closing commands To carry out commands from the remote communications ModBus or IEC60870 5 103 for non compact SILB and ModBus 60870 5 103 IEC61850 or DNP 3 0 for compact SILB the equipment must be in TELECONTROL mode see the telecontrol section For the commands to have an effect they should be assigned to the corresponding outputs The Open circuit breaker and Close circuit breaker bits are assigned to their corresponding outputs in the CONTROL status group in the status menu www fanox com 54 309 4 13 2 Counter to register the number of openings The SIL B equipment is fitted with a counter that registers the number of times the circuit breaker opens This counter is associated with the Excess of number of openings setting When the number of openings exceeds this preset value the Maximum number of openings status is activated and its corresponding event is generated This counter reading can be set to any value within its range from the HMI or by using communications 4 13 3 Accumulated amps counter rt An accumulated amps counter is also fitted This counter accumulates the amps that are cleared by the circuit breaker
146. ls 120 Oscillo 41458 Date Time 2008 10 15 11 29 411 85 Fault queue 15 lt k lt k k k k k k k k k k k k k amp k k KKK Oscillo events p sb dr di di db di dir di di di dir di div div dir di div dir dir di dir dir div div dir diy div di di dir div div di div dir dir di div di dir di div di dir div div div di di dir div div dir di di di di di dir d Indicator Value Measurem Measurem Date Time enti ent2 Oscillo 1 0 0 2008 10 15 11 29 11 90 start Oscillo 0 0 0 2008 10 15 11 29 11 400 start An oscillography is started when the Start oscillography state is activated this is configurable logical output The default configuration is as follows e General trip Oscillography start input www fanox com 112 309 There different programs that allow the to viewed format such as TOP The Output Processor which www pqsoft com top be downloaded from the internet at The Output Processor sila_osc_11 gt 23 51N Pickup View Stack Graph Table Window Help 5
147. mission Yes No No Number of shots 1 5 1 3 Reclose 1 time 0 02 300 00 0 01 8 0 30 Reclose 2 time 0 02 300 00 0 01 5 3 00 79 Reclose 3 time 0 02 300 00 0 01 s 180 00 Reclose 4 time 0 02 300 00 0 01 s 180 00 Reclose 5 time 0 02 300 00 0 01 s 180 00 Hold time 0 02 300 00 0 01 s 10 00 Reset time 0 02 300 00 0 01 s 10 00 Final Opening Time 0 02 300 00 0 01 s 10 00 www fanox com 58 309 FANOX It must be possible to lock the recloser particularly is maintenance tasks are carried out on the substation To this end there are various SIL B locking and unlocking possibilities From the HMI There is a specific key marked 79 plus a specific signal led allowing recloser operation locking or unlocking it In order that the command related to the key can run the menu must be in standby mode From the HMI This command can be executed from the control menu From two pulse inputs If the substation is equipped with a conventional remote control two pulse outputs are usually assigned where one locks the recloser and the other locks it Via protocol This is performed via any means of communication This is carried out as if it were a control and the normal conditions of any control must be met For example if we are operating from the HMI it is understood that the relay is in local mode whereby if a Lock Unlock command is received via remote control this shall be ignored From a level input In this case t
148. ng current flowing through the equipment so if the phase current exceeds its predetermined value for an equal or greater amount of time than this preset value the protection function activates trips and does not reset itself until the average value of the phase drops below the point of current pick up The function activates at 100 of the preset input and deactivates at 95 The reset is instantaneous The accuracy of the operating time is equal to the preset time plus a maximum of 30 ms 4 2 Function 67 51 50P1 amp 67 51 50P2 Inverse time phase directional overcurrent Two phase directional units are available 67P1 y 67P2 This function uses the cross phase voltage as a polarization magnitude and the phase current as an operating magnitude The intervention sector is defined in the following way the operating angle is rotated anticlockwise from the polarization voltage which gives us the maximum torque direction A cone is drawn with the half cone angle adjusted over this maximum torque direction If the directionality option is not activated the 67P function behaves like a 51 50P function The actuation time starts when the following conditions are met simultaneously e Polarization voltage higher than adjusted e Phase current higher than adjusted e The phase shift of phase current and polarization voltage is such that the phase current is inside the intervention sector www fanox com 36 309 function settings
149. ngle www fanox com O Permitted 9 Prohibited CREME S O Permitted 9 Prohibited Mone RII 5 Permitted 9 Prohibited ita xIn Inverse OIEC Very Inverse Inverse Very Inverse ADefinite time Extr Inverse Extr Inverse 22201222 5 Permitted 9 Prohibited 21011115 V 9 Permitted 9 Prohibited Lui aio xIn Inverse OIEC Very Inverse OANSI Inverse Very Inverse ADefinite time Extr Inverse Extr Inverse 9 Prohibited 296 309 Half cone angle 50N_1 Permission Current pickup Definite time 50N_2 Permission Current pickup Definite time 67 51 50N_1 Permission Current pickup Curve type Dial Definite time Directional Polarization voltage Operating angle Half cone angle 67 51 50N 2 Permission Current pickup Curve type Definite time Directional Polarization voltage Operating angle Half cone angle www fanox com Permitted Permitted ADefinite time Permitted ADefinite time Inverse OIEC Very Inverse Inverse Very Inverse Inverse OIEC Very Inverse Inverse Very Inverse 9 Prohibited 9 Prohibited 9 Prohibited Extr Inverse Extr Inverse Prohibited 9 Prohibited Extr Inverse Extr Inverse 9 Prohibi
150. ngs settings commands or exception codes sent by the client 2 bytes Two byte control code ModBUS RTU includes a 16 byte CRC in each packet for error detection If the slave detects erroneous packet through the inclusion of an incorrect CRC it will take no action nor will it reply to the master The CRC ordering is LSB MSB DEAD TIME Time A packet is taken to have ended when nothing is received for a period of 3 5 necessary to bytes That is transmit 3 5 bytes 15 ms at 2400 bps 2 ms at 19200 bps Gtc 8 2 Function codes MODBUS DEFINITION Read Holding Logs Read any value This function allows the master to read 1 or more 3 consecutive addresses in a relay The logs are always 16 bits with the most significant byte first The maximum number of logs that can be read in one packet is 60 1 P Multiple Li Writ 0 reset Multipie Lode This function allows the writing of more 1005 representing one or more settings 109 values 2 bytes in length transmitted with the most significant byte first The maximum number of logs that can be written in one packet is 60 www fanox com 231 309 8 3 Exceptions and error responses The error codes defined in the Modbus protocol are as follows ILLEGAL FUNCTION The slave does not support the function with function code specified in the message received ILLEGAL DATA A
151. nput 107 79 starting input 109 79 blocking level input 110 Active table input 0 112 79 Lock pulse input 113 79 unlock pulse input 115 50BF starting 116 79 starting 118 Output2 119 Output 3 121 Output 5 122 Output 6 124 Output 8 125 Output 9 127 Output 11 128 Output 12 45 59P_1 Pickup phase B 48 59P_2 Pickup phase A 51 59P_2 Trip 54 59N_2 Pickup 57 27_1 Pickup phase B 60 27_2 Pickup phase A 63 27 2 Trip 66 32 2 69 32 3 72 74TCS Pickup 75 49 Trip 78 81_2 Pickup 81 81_3 Trip 84 25 Closure permission 87 37_1 Pickup phase C 90 37_2 Pickup phase B 93 Input 1 96 Input 4 99 Input 7 102 Input 52b 105 External trip input 108 79 permission input 111 Active table input 1 114 50BF starting input 117 Output 1 120 Output 4 123 Output 7 126 Output 10 www fanox com 111 309 FANOX The following additional information is included the COMTRADE header hdr oscillography date time oscillography number relay identifier and a list with all the events generated in the equipment during the generation of the oscillography Below the format of a COMTRADE header file generated by the SICom program is provided KKKKKKK HDR COMTRADE KKKKKKKKKKKKKKKKK KKK ck ck ck ck ck ck ck ck ck lt ck ck k k ck x x KK Di Pre fault cycles 10 Total cycles 138 Analogue channels 8 Digital channe
152. nt 67 51 50P 1 67P_1 Phase A Pickup Activation Deactivation Phase A current 67P_1 Phase B Pickup Activation Deactivation Phase B current 67P_1 Phase C Pickup Activation Deactivation Phase C current 67P_1 Pickup Activation Deactivation 67P_1 Phase A trip Activation Deactivation Phase A current 67P_1 Phase B trip Activation Deactivation Phase B current 67P_1 Phase C trip Activation Deactivation Phase C current 67P_1 Trip Activation Deactivation Level 2 phase Inverse time directional overcurrent 67P_2 Phase A Pickup Activation Deactivation Phase A current 67 51 50P_2 www fanox com 100 309 67 2 Phase Pickup Activation Deactivation Phase B current 67 2 Phase C Pickup Activation Deactivation Phase C current 67P 2 Pickup Activation Deactivation 67P 2 Phase A trip Activation Deactivation Phase A current 67 2 Phase B trip Activation Deactivation Phase B current 67 2 Phase C trip Activation Deactivation Phase C current 67 2 Trip Activation Deactivation Level 1 neutral definite time overcurrent 50 1 50N 1 Pickup Activation Deactivation Neutral current 50N 1 Trip Activation Deactivation Neutral current Level 2 neutral definite time overcurrent 50N 2 50N_2 Pickup Activation Deactivation Neutral current 50N_2 Activation Deactivation Neutral c
153. nt transformer must be used The load of the relay s own measurement circuits and the load on the cables that connect the CTs and the relay must be taken into account PRECISION BURDEN RELAYS SIL B 1 SIL B 1 SIL B 1 SIL B 5 SIL B 5 SIL B 5 www fanox com 34 309 SIL B 1 CHARGE CURVE 3 5 1 00 002 15 00 9 00 00 35 309 00 00 00 lt 00 Se 0 00 Te 00 6 00 SILA 5 Circuito de Medida SILA 1 Circuito de Medida 00 te 00 Te 06 00 00 00 SIL B 5 CHARGE CURVE 0 035 www fanox com 2 3 5 2 0 09 0 08 0 07 0 06 0 05 0 04 0 03 0 02 0 01 0 03 0 025 0 02 0 015 0 01 0 005 4 FUNCTIONS 4 1 Functions 50 1 2 Instantaneous phase overcurrent This protection function set using three parameters Function Description Minimum Maximum Step Unit Default 50P 1 Instantaneous phase overcurrent 50P 2 Permission Yes No No Tap 0 10 30 00 0 01 Inominal 5 00 Operating time 0 02 300 00 0 01 s 0 02 The operating time is independent from the operati
154. nu From the default screen enter the key sequence lt then press and hold OK to access the Test menu Press OK to access the item to be tested TEST MENU y n lt Y gt OK without protection HOLD Set Password gt 0 Set Password gt 5555 E TEST MENU c OK Led 1 not activated Led 1 lt lt ACTIVATED gt gt re Led 2 not activated Led 2 lt lt ACTIVATED gt gt www fanox com 143 309 www fanox com 144 309 Led 3 AY not activated Led 3 lt lt ACTIVATED gt gt v Led 4 not activated Led 4 lt lt ACTIVATED gt gt iv Led 5 not activated Led 5 lt lt ACTIVATED gt gt 17 Led 79 not activated Led 79 lt lt ACTIVATED gt gt www fanox com 145 309 AY AY AY AY Led 52 not activated Led 52 lt lt ACTIVATED gt gt Led ON not activated Led ON lt lt ACTIVATED gt gt Output 1 not activated Output 1 lt lt ACTIVATED gt gt Output 2 not activated Output 2 lt lt ACTIVATED gt gt www fanox com AY AY AY 146 309 Output 3 not activated Output 3 lt lt ACTIVATED gt gt Output 4 not activated Output 4 lt lt ACTIVATED gt gt Output 5 not activated Output 5 lt lt ACTIVATED gt gt Output 6 not activated Output 6 lt lt ACTIVATED gt gt Output 7 not activated Output 7 lt lt ACTIVA
155. nus press lt To access the communication parameters from the SETTINGS menus press 4 4 Identification ap SETTINGS lt GEN free text db T A 1 COM 2 CT Phase Ratio CT Neutral Ratio TT Ratio 100 Frequency 50 Hz Language ay ENGLISH gt lt P 1 www fanox com 215 309 Active Settings 1 c 5 ModBus address SETTINGS GEN 2 db T A 1 gt ModBus BaudRate 19200 7 6 12 From the default screen press the key to access the first level of menus Use the A and keys to select the EVENTS menu the device will return information on the number of event reports stored in the buffer Press OK and use the and keys to select each event EVENTS There are 5 12 04 12 01 57 03260 EVENTS 1 Feprom changed There are 5 12 04 12 01 57 03180 4 5 0 1 52 Open Error 1 52 Open Error Set Password EVENTS gt 0 5 www fanox com 216 309 Set Password STAR gt 5555 Confirm 9 Erased Events y n E EVENTS E 7 There are 1 5 The and 4 symbols indicate whether the event was due to activation or the reset of the associated state To clear the events buffer select the events menu and hold down the key until the number of events reads 1 This one event is Events erased Each event report includes the following informati
156. o Curve 1 IEC Extremely inverse Dial 0 05 2 20 0 01 1 00 Pickup 0 10 7 00 0 01 rated 1 00 Operating time 0 02 300 00 0 01 5 0 02 Directionality Yes No No Polarization voltage 4 00 110 1 G 5 Operating angle 0 359 1 90 Half cone angle 0 170 1 9 90 1 IEC Inverse IEC Very inverse IEC Extremely Inverse ANSI inverse ANSI very inverse ANSI extremely inverse definite time If the definite time option is selected for the curve setting the unit behaves as an instantaneous directional overcurrent unit In this case the unit s operating time is adjusted using the Operating time parameter If an inverse very inverse or extremely inverse curve is selected in the curve setting the operating time is a function of curve dial and pickup adjustments If the unit operates with definite time the function starts up at 100 of the adjusted pickup and resets at 95 If the unit operates with a curve the function starts up at 110 of the adjusted pickup and resets at 100 Resets are instantaneous in both cases The actuation time is accurate to 5 o 30 whichever is higher of the theoretical actuation time The curves that are used are IEC 60255 151 and ANSI IEEE which are described in the corresponding section The activation level for the residual voltage is 100 and the reset level is 95 Resets are instantaneous The following figure shows a graphic representation of the dire
157. on Date time Event description Size of events buffer Position of the event in the events list Event caused by state generation or reset Associated measurement if applicable Associated we Event number measurement Date 01 01 00 00 54 18600 1 275 measurement EventsErased EventsErased Activated or Not activated Event Descrintion www fanox com 217 309 7 6 13 Counters menu From the default screen press to access the top level of menus Use the keys to proceed through the screens and select COUNTERS then press Use the A and Y keys to view the different counters The value of the counter is shown under the name of the counter The first time that the value of a counter is changed or reset the passcode must be entered Once the passcode is entered counters may be changed until the unit is returned to the default screen either manually or automatically The device will return to the default screen automatically if no key is pressed for a period of 5 minutes The factory default passcode is 5555 can be changed using SICom Use the A lt and P keys to enter the passcode Use the and keys to change value or character and the 4 and keys to move between digits If a character or number of the passcode entered must be changed due to an entry error it can be deleted with the C key Press OK to validate the passcode COUNT
158. on Input 7 Activation Deactivation Input 8 Activation Deactivation Command voltage Activation Deactivation Continuity coil A Activation Deactivation Continuity coil B Activation Deactivation Physical outputs Output 1 Activation Deactivation Output 2 Activation Deactivation Output 3 Activation Deactivation Output 4 Activation Deactivation Output 5 Activation Deactivation Output 6 Activation Deactivation Output 7 Activation Deactivation www fanox com 106 309 Output 8 Activation Deactivation Output 9 Activation Deactivation Output 10 Activation Deactivation Output 11 Activation Deactivation Output 12 Activation Deactivation Logical outputs Start 79 Activation Deactivation Start 50BF Activation Deactivation Start oscillography Activation Deactivation 79 Closure permission sn models with function 25 Activation Deactivation 52 Closure permission Activation Deactivation models with 25 function Recloser 79 79 Inactive Activation Deactivation 79 Reclosure time Activation Reclosure no 79 Open Activation Reclosure no 79 Hold time Activation Reclosure no 79 Closure time Activation Reclosure no 79 Reset time Activation Reclosure no 79 Lockout Activation Deactivation Reclosure no 79 Safety time Activation Reclosure no 79 Definitive opening time Activation Synchronism
159. on 1 1 2000 LONG Milliseconds UINT www fanox com 232 309 FANOX 5 Year UINT month UCHAR day UCHAR hours UCHAR minutes UCHAR seconds UCHAR hundredths UCHAR thousandths UINT CONT 13 Index UINT Value DWORD Description ASCII20 EVENT 9 Criterion index UINT Event identifier UINT Value UINT Associated measurement UINT Date and time FH EVENT 10 Age UINT Event EVENT CCRIT 6 Criterion number UINT Criterion index UINT Descriptive text ASCII8 PEST 61 Number of states UINT Protection state 1 BIT16 Protection state 60 BIT 16 PCRIT 61 Number of criteria UINT Criterion index 1 UINT Criterion index 60 UINT CMED 8 Measurement number UINT Descriptive text ASCII7 Unit ASCII3 Primary unit ASCII5 Number of decimals UCHAR GAJU 61 Number of groups UINT Criterion index 1 UINT Criterion first setting index 1 UINT Criterion index 30 UINT Criterion first setting index 30 UINT When a data type format occupies more than one byte in communications the most significant byte is always sent first and the least significant byte last 8 5 SIL B memory map Function Description Start address 03 Read model and version 100 44 ASCII88 03 Read device state 160 2 BIT32 See passcodes and access levels 03 Read access level 162 4 UCHAR8 See passcodes and access levels 16 Write access pass
160. on Deactivation Phase B voltage 59P 2 Phase C trip Activation Deactivation Phase C voltage 59P 2 Trip Activation Deactivation Level 1 neutral definite time overvoltage www fanox com 102 309 59N 1 59N_1 Pickup Activation Deactivation Neutral voltage 59N_1 Trip Activation Deactivation Neutral voltage Level 2 neutral definite time overvoltage 59N_2 59N_2 Pickup Activation Deactivation Neutral voltage 59N_2 Trip Activation Deactivation Neutral voltage Level 1 phase definite time undervoltage 27 1 27 1 Phase Activation Deactivation Phase A voltage 27P_1 Phase B Pickup Activation Deactivation Phase B voltage 27P_1 Phase C Pickup Activation Deactivation Phase C voltage 27P_1 Pickup Activation Deactivation 27P_1 Phase trip Activation Deactivation Phase A voltage 27P_1 Phase B trip Activation Deactivation Phase B voltage 27P_1 Phase C trip Activation Deactivation Phase C voltage 27P_1 Trip Activation Deactivation Level 2 phase definite time undervoltage 27 2 27 2 Phase A Pickup Activation Deactivation Phase A voltage 27P 2 Phase B Pickup Activation Deactivation Phase B voltage 27P 2 Phase C Pickup Activation Deactivation Phase C voltage 27P 2 Pickup Activation Deactivation 27P
161. osure time 2nd reclosure time reclosure time 4th reclosure time 5th reclosure time Wait time s 8 Definitive opening time 5 25 Permission LLLB O Permitted O Prohibited Permission LLDB O Permitted O Prohibited Permission DLLB O Permitted A Prohibited Permission DLDB O Permitted A Prohibited Live line voltage level V Dead line voltage level V Live bar voltage level V www fanox com 301 309 Dead bar voltage V Voltage supervisi n temporisation 5 Line bar voltage difference V Line bar phase difference Line bar frequency difference barra mHz Synchronism time s 52 Maximum number of openings Maximum number of accumulated _ Maximum opening time Maximum closure time Number openings time number of openings Time period min 74 5 Permission Permitted Prohibited Operation time s 12 6 Inputs Input 1 Input 5 Input 2 Input 6 Input 3 O Input 7 Input 4 O Input 8 www fanox com
162. ower units are available The intervention sector is defined in the following way the characteristic angle is rotated anticlockwise along the active power axis which gives us the maximum torque direction A straight line is drawn perpendicular to this maximum torque direction at the adjusted pickup point to establish two half planes to define the operating and non operating zones The directional power protection function operates in accordance with the following characteristic Q ant Characteristic angle 60 Operating zone Non operating zone 5 5 Tap function An operating zone is established based on the tap setting of the function and the setting of the characteristic angle The function trips if the measured power is maintained in the operating zone for the time established using the corresponding time setting As the characteristic angle can be adjusted from 0 to 359 we can adjust the function to obtain direct active overpower reverse active overpower direct reactive overpower and reverse reactive overpower www fanox com 48 309 Characteristic angle Description Address 0 Active overpower Direct 180 Active overpower Inverse 90 Reactive overpower Direct 270 Reactive overpower Inverse raracteristic angle 90 Q Q Q Q OPERATING ZONE NQN OPERATING ZONE OPERATING ZONE NON OPERATING ZON OPERATING ZONE function
163. p screen showing the cause of the trip and the time and date of its occurrence 4 27 1 w Even is auxiliary power is lost when the SIL B regains power it will retain information on the last trip The last trip screen will only disappear when the RESET button is pressed and held down 13 01 11 13 51 44825 7 6 3 Menu access Use the A 4 and P keys to access different menus and options To select and enter option or menu use the OK key To go back one level of the menu system use the C key No password or passcode is necessary to view parameters measurements settings etc A 4 digit passcode is necessary to change any parameter After returning to the main screen after changing a setting the passcode must be entered again to make any additional changes To switch between units in a parameter use the lt and keys To modify setting use the and Y keys to increase or decrease the value If an incorrect value is input during this process use the C key to delete it The following section gives the most graphical description possible of menu navigation www fanox com 140 309 FANOX 7 6 4 Date Time menu From the default screen press the gt key to access the date time menu Press the key to modify the date and or time Use the gt and 4 to select the digit to be changed and then modify the digit using and
164. pn stVal CSWI1 OpCls stVal CSWI1 Pos CSWI1 Pos 277 309 10 2 Services SILB disposes of the following services according 1 61850 DATASETS A Dataset is a grouping of information from the data model of the IED These groupings can be used by other services for the sending of information GOOSE RCB The definition of Datasets has to be made a IEC61850 s file with extension ICD IED Capability Description that is provided with the device By default there are 4 Datasets grouped according the functionality Trips Measures Events and Goose Trips with the name of Trips and the following data objects Member TEMPLATELD1 PTRC1 ST Op TEMPLATELD1 PTRC1 ST Str ITEMPLATELD 1 PHSPIOC 1 ST Op TEMPLATELD 1 PHSPIOC 1 ST Str TEMPLATELD 1 PHSPIOC2 ST Op TEMPLATELD 1 PHSPIOC2 ST Str ITEMPLATELD 1 GNDPIOC1 STSOp ITEMPLATELD 1 GNDPIOC 1 ST Str TEMPLATELD 1 GNDPTOC2 ST Op ITEMPLATELD 1 GNDPTOC2 ST Str TEMPLATELD 1 NGSPTOC 155 5 TEMPLATELD 1 NGSPTOC 1 ST Str ITEMPLATELD 1 NGSPTOC2 ST Op ITEMPLATELD 1 NGSPTOC2 ST Str ITEMPLATELD 1 PHSPTUV 1 5 TEMPLATELD 1 PHSPTUV 1 ST Str ITEMPLATELD 1 PHSPTUV2 ST Op TEMPLATELD 1 PHSPTUV2 ST Str TEMPLATELD 1 PHSPTOV 1 ST Op ITEMPLATELD 1 PHSPTOV 1 ST Str ITEMPLATELD 1 PHSPTOV2 ST Op TEMPLATELD 1 PHSPTOV2 ST Str TEMPLATELD 1 GNDPTOV 1 ST Op ITEMPLATELD 1 GNDPTOV 1 ST Str TEMPLATELD 1 GNDPTOV2 ST 0p TEMPLATELD 1 GNDPTOV2
165. r the SIL B models provided said values are defined as secondary current Model Phase range Neutral range Rated phase Rated neutral SIL B5 1 150 A SIL B1 0 2 30 A 1 1 SIL B 5 1 150 A 1 SIL B 1 2 0 2 30 li 1A In non compact SILB device the rear parts of models 5 A and 1 A of the SIL B equipment are fitted with the following switches to select the secondary current Obviously in the 5 A phase models the phase A B and C switches must be set to position 5 In the 1 A phase models the phase A B and C switches must be set to position 1 60Hz 50Hz E 2 gt 1 UJ m Compact SILB devices will depend on the model They will a rated current equal to 1 Ampere or 5 Amperes and they will have a frequency equal to 50 or 60 Hz but these values are not adjustable by user there are not switches in the rear part The voltage measurement range is 4V to 130V www fanox com 88 309 5 2 Counters following counters provided DX Ro Ur de Xd 25 Positive active energy Negative active energy Positive reactive energy Negative reactive energy Number of shots Thermal Image Number of openings of the circuit breaker Amperes accumulated 121 during the openings of the circuit breaker It is possible to change tha values of the counters to a certain value but firstly
166. raphic start input 79 Start input 79 Enable input 79 Level lockout input 0 Setting group 1 Setting group www fanox com GGIO2 Ind11 stVal GGIO2 Ind12 stVal GGIO2 Ind13 stVal GGIO2 Ind14 stVal GGIO2 Ind15 stVal GGIO2 Ind16 stVal GGIO2 Ind17 stVal GGIO2 Ind18 stVal GGIO2 Ind19 stVal GGIO2 Ind20 stVal GGIO2 Ind21 stVal GGIO2 Ind22 stVal GGIO2 Ind23 stVal GGIO2 Ind24 stVal GGIO2 Ind25 stVal GGIO2 Ind26 stVal GGIO2 Ind27 stVal GGIO2 Ind28 stVal GGIO2 Ind29 stVal GGIO2 Ind30 stVal GGIO2 Ind31 stVal GGIO2 Ind32 stVal GGIO3 Ind1 stVal GGIO3 Ind2 stVal GGIO3 Ind3 stVal GGIO3 Ind4 stVal GGIO3 Ind5 stVal GGIO3 Ind6 stVal GGIO3 Ind7 stVal GGIO3 Ind8 stVal 276 309 79 pulse lockout input 79 pulse unlock input 50BF start input Voltage command Continuity A Continuity B 79 start 50BF start 79 Enabled 52 Close enabled Start Trip Circuit Supervision Oscillographic start 52 Status 52 Status Open Time 52 Status Close Time 52 Open 52 Close www fanox com GGIO3 Ind9 stVal GGIO3 Ind10 stVal GGIO3 Ind11 stVal GGIO3 Ind12 stVal GGIO3 Ind13 stVal GGIO3 Ind14 stVal GGIO3 Ind15 stVal GGIO3 Ind16 stVal GGIO3 Ind17 stVal GGIO3 Ind18 stVal SCBC1 ColFail stVal 5 1 stVal RDRE1 RcdStr stVal XCBRI Pos stVal CSWI1 OpO
167. re are three group settings tables and one general table The settings table which is active at a specific moment can be modified in two ways e Changing the active Table settings In the general group there is a setting which establishes which table is active e By means of two inputs this end four possibilities are defined This situation is governed by the active table settings Table 1 Table 2 Table 3 In the zero position the active item is defined by the active table settings defined in the general group Regarding other options regardless of that established by the settings the inputs prevail over the settings If the use of both inputs is not required then one can be used but depending on which is used operation can be done with table 1 or table 2 www fanox com 72 309 4 21 IEC 60255 151 Curves The IEC curves follow the following mathematical equation pt v O Where I V D opas And we have the following curves Inverse Curve e Very Inverse Curve e Extremely Inverse Curve Which relate to the parameters figuring in the following table Ext Inverse 80 2 1 0 0 Very Inverse 13 5 1 1 0 0 Inverse 0 14 0 02 1 0 0 The curve can mode from its axis using the D time selection device which the user can adjust ladjusted is the initial operating current set by the user www fanox com 73 309 IEC Inverse 1000 000
168. red 38 General Measurement error 40 Magnetic module error 48 General Events Erased 49 Pickup neutral 50 Pickup phase A 51 phase 52 53 GENERAL 54 Phase www fanox com 246 309 55 Phase 56 Phase 57 50 58 Inputs 1 Input 52 a 2 Input 52 b 3 Locking 50P input 4 Locking 50N input 5 External trip input 6 Oscillography start input 7 Start 79 input 8 Permission 79 input 9 Locking 79 level input 10 Input 0 Table selection 11 Input 1 Table selection 12 Lock pulse input 79 13 Unlock pulse input 79 14 Start input 17 Input 1 18 Input 2 19 Input 3 20 Input 4 21 Input 5 22 Input 6 23 Input 7 24 Input 8 Outputs 1 Output 1 2 Output 2 3 Output 3 4 Output 4 5 Output 5 www fanox com 247 309 9 Output 6 10 Output 7 6 Start 79 7 Start 50 8 Start oscillography 16 Permission 79 17 Closure permission 52 79 1 State 79 Inactive 2 State 79 Reclosure Time 3 State 79 Open 4 State 79 Hold Time 5 State 79 Closure Time 6 State 79 Reset Time 7 State 79 in Lockout 8 State 79 Safety Time 9 State 79 Definitive Opening Time 52 1 State 52 Error 2 State 52 Open 3 State 52 Opening Time 4 State 52 Opening Fa
169. rval configurable default 3000ms Sends Executes Control Operations 1 Configurable Configurable Configurable Sometimes Sometimes Sometimes Never Never Never WRITE Binary Outputs SELECT 3 OPERATE 4 DIRECT OPERATE 5 Always Always Always DIRECT OPERATE NO ACK 6 Count gt 1 Pulse On Pulse Off Latch On Latch Off Queue Clear Queue OO KK m0000 K 5 Never Never Never Never Never Never Never PJAlways Always klAlways Always Always Sometimes Sometimes Sometimes Sometimes Sometimes Sometimes Sometimes Sometimes Configurable Configurable Configurable Configurable Configurable Configurable Configurable 1 Configurable Attach explanation All points support the same Function Codes Direct Operate and Direct Operate No ACK All points support the same Control Codes Pulse ON Latch ON Latch OFF Pulse OFF and Trip Pulse ON www fanox com 284 309 FANOX 4 FILL OUT THE FOLLOWING ITEMS FOR SLAVE DEVICES ONLY Reports Binary Input Change Events when no Reports time tagged Binary Input Change Events specific variation requested when no specific variation requested Never Never Only time tagged Binary Input Change With Time Only non time tagged Binary Input Change With Relative Time Configurable to send both one or the Configurable at
170. s 2 7 seconds at 50Hz 2 3 seconds at 60Hz 10 pre fault cycles and 128 post fault cycles The oscillography start can be configured by the user Each oscillographic record contains the phase and neutral currents the phase and neutral voltages and up to 128 digital channels which include start ups and trips of the protection functions inputs outputs etc The format used is COMTRADE IEEE C37 111 1991 Current measurements are made using r m s values with a precision of 2 in the 20 band around rated current The current transformers used at standard 5A and 1A CTs It has three communications ports one front RS232 and two rear ports Optionally RS485 plastic optical fiber or Ethernet can be chosen for the physical medium of the ports RS232 port allows a PC to be connected and the equipment to be monitored using the SICom program in WINDOWS XP or WINDOWS 7 supplied by The rear communications ports are designed for different functions One is designed for control mainly including the alarm and command functions and the other is designed for specific queries by protection staff who may query or change settings or download events and oscillographs without interfering with the operation of the command side Non compact SILB has two RS485 communication ports one for MODBUS RTU protocol and the other one for IEC 60870 5 103 protocol In compact SILB there are two options On of those option is the possibility of ha
171. s IA IB IC neutral IN positive sequence 1 and negative sequence 12 Real RMS Sampling 16 samples cycle 2 precision a band covering 20 of nominal current and 4 in the rest of the range 1151161 1 3 1 251111 111 1499 Phase voltage VA VB VC phase phase voltage VAB VBC VCA neutral voltage VN bus voltage VBB The neutral voltage is calculated internally from the phase voltages Real RMS Sampling 16 samples cycle 2 precision in a band covering 20 of nominal current and 4 in the rest of the range Angle accuracy 2 Power measurement Total and per phase active power Total and per phase reactive power Total and per phase apparent power Total and per phase power factor 2 accuracy in rated values with power factor between 1 and 0 7 phase shift from 0 to 45 8 Positive and negative active energy Positive and negative reactive energy Frequency Starting from phase B line voltage passing through zero detection to line frequency measurement Starting from phase B busbar voltage passing through zero detection to busbar frequency Minimum voltage 30V Accuracy 0 01 Hz Communications Local port RS232 or USB Modbus RTU Remote port RS485 Modbus RTU Remote port RS485 IEC 60870 5 103 Remote port RJ45 IEC 61850 DNP3 0 and IEC60870 5 104 www fanox com 132 309 Auxiliary Ia 90 V DC
172. s applied to the overcurrent functions tap After this time the relay returns to the adjusted taps There is a conditioner in the multiplier The maximum protection functions are located in their tap This maximum can never be exceeded regardless of the adjusted tap in the protection function and the Cold Load function multiplier The function operated according to the following automaton The automaton consists of six statuses three of them with normal adjustment and the other three with the extended adjustments During transit the settings are maintained according to where they come from The current level is used to determine the change more than the circuit breaker situation the current less than 10 of the rated level it is understood that the line is open with an extremely low usage level operating at night or on weekends one case or the other must start The relay normally operates with the settings in their active table When the circuit breaker opens a timer starts The remote control could activate circuit breaker closure and also if a permanent fault occurs the circuit breaker may open again To prevent the increase counter from resetting there is a condition which reduces the activation time from where it was If the counter exceeds its limit a switch is made to Cold Load On the contrary if the counter reaches zero a switch is made to the standby condition This mechanism is identical in Cold Load reset
173. supply 50Hz network frequency Magnetic module error Measurement error Ready Protection error Settings changed Manual closure Date and time synchronization Local telecontrol Default settings error e2prom error IRIG B presence e2prom values changed Event log error Logical and physical inputs Input 52 a Input 52 b Locking 50P input Locking 50N input External trip input www fanox com 94 309 Fault start Start 79 input Permission 79 input Locking 79 level input Active table input 1 Active table input 2 Lock pulse input 79 Unlock pulse input 79 init Input 1 Input 2 Input 3 Input 4 Input 5 Input 6 Input 7 Input 8 Command voltage Continuity coil A Continuity coil B Logical and physical outputs Output 1 Output 2 Output 3 Output 4 Output 5 Output 6 Output 7 Output 8 Output 9 Output 10 www fanox com 95 309 Output 11 Output 12 Start 79 Start 50 Start fault Close 79 permission models with function 25 Close 52 permission models with function 25 LED ON LED1 LED 2 LED 3 LED 4 LED 5 Recloser 79 Inactive 79 Reclosing time 79 Open 79 Hold time
174. t guaranteed In these cases it is not guaranteed that the relay be totally operative particularly the outputs www fanox com 125 309 FANOX 6 TECHNICAL SPECIFICATIONS AND STANDARDS 6 1 Technical specifications 50N_1 50G_1 50N_2 50G_2 67 51 50P_1 67 51 50P_2 www fanox com Function permission yes no Operating range 0 10 to 30 xIn step 0 01 Operating time 0 02 to 300 00 s step 0 01 s Activation level 100 Deactivation level 95 Instantaneous deactivation Timing accuracy 30 ms Function permission yes no Operating range 0 10 to 30 xIn step 0 01 Operating time 0 02 to 300 00 s step 0 01 s Activation level 100 Deactivation level 95 Instantaneous deactivation Timing accuracy 30 ms Function permission yes no Operating range 0 10 to 7 step 0 01 Operating range V 4 to 110V step 1 V IEC 60255 151 and ANSI curves Operating time Inverse curve very inverse curve extremely inverse curve Defined time 0 02 to 300 s step 0 01 s Dial 0 05 to 2 20 step 0 01 Directionality yes no Operating angle 0 to 359 step 1 Half cone angle 0 to 170 step 1 Curve current activation level 110 Curve current deactivation level 100 Defined time current activation level 100 Defined time current deactivation level 95 Voltage activation lev
175. t 55 gt 50 Start P 2 SE X 201 lt 56 gt 50 Trip A 2 SE X 201 lt 57 gt 50 2 X 201 lt 58 gt 50 2 X 201 lt 59 gt 50 Trip P 2 SE X 201 lt 60 gt 50 Start A 2 SE X 201 lt 61 gt 50 Start B 2 SE X 201 62 50 Start C 2 SE X 201 lt 63 gt 50 Start P 2 SE X 201 lt 64 gt 50 Trip 2 SE 201 lt 65 gt 50 Trip B 2 SE 201 lt 66 gt 50 Trip C 2 SE 201 lt 67 gt 50 Trip P 2 SE 201 lt 72 gt 51 Start N 2 SE X 201 lt 73 gt 51 Trip N 2 SE www fanox com 265 309 201 lt 76 gt 51 Start A 2 SE 201 lt 77 gt 51 Start B 2 SE 201 lt 78 gt 51 Start 2 201 lt 79 gt 51 Start P 2 SE X 201 lt 80 gt 51 Trip 2 SE X 201 lt 81 gt 51 Trip B 2 SE X 201 lt 82 gt 51 Trip C 2 SE X 201 lt 83 gt 51 Trip P 2 SE X 201 lt 96 gt 67 Start N 2 SE X 201 lt 97 gt 67 Trip N 2 SE X 201 lt 98 gt 67 Start N 2 SE X 201 lt 99 gt 67 Trip N 2 5 201 lt 100 gt 67 Start 2 X 201 lt 101 gt 67 Start 2 201 lt 102 gt 67 Start 2 X 201 lt 103 gt 67 Start P 2 SE X 201 lt 104 gt 67 Trip 2 SE X 201 lt 105 gt 67 Trip B 2 SE X 201 lt 106 gt 67 Trip C 2 SE X 201 lt 107 gt 67 Trip P 2 SE X 201 lt 108 gt 67 Start A 2 SE 201 lt 109 gt 67 Start B 2 SE 201
176. t P 2 SE X 202 lt 32 gt 59 A 2 202 lt 33 gt 59 2 202 lt 34 gt 59 2 202 lt 35 gt 59 2 202 lt 36 gt 59 Start 2 SE www fanox com 267 309 202 lt 37 gt 59 Start 2 SE 202 lt 38 gt 59 Start C 2 SE X 202 39 59 Start P 2 SE X 202 lt 40 gt 59 A 2 202 lt 41 gt 59 2 202 lt 42 gt 59 2 202 lt 43 gt 59 2 202 lt 48 gt 81 Start 2 SE X 202 lt 49 gt 81 Trip 2 SE X 202 lt 50 gt 81 Lockout 2 SE X 202 lt 51 gt 81 Start 2 SE X 202 lt 52 gt 81 2 202 lt 53 gt 81 Lockout 2 SE GI X 202 lt 54 gt 81 Start 2 SE X 202 lt 55 gt 81 Trip 2 SE X 202 lt 56 gt 81 Lockout 2 SE X 202 lt 57 gt 81 Start 2 SE X 202 lt 58 gt 81 Trip 2 SE X 202 lt 59 gt 81 Lockout 2 SE Selection of standard information numbers in control address SIL B FUN INF Description TYP x COT System functions in control address X 160 0 Initiation of general interrogation 7 Init of GI X 160 0 Synchronization 6 TS General commands in control address X 160 16 Auto recloser on off 20 160 lt 17 gt Remote protection off 160 lt 18 gt Protection on off 160 lt 19 gt LED reset
177. t executing the trip e Eeprom error The self diagnostic algorithms have detected a problem in the eeprom memory which contains the settings Eeprom change activates when the settings or configuration are changed The difference between this and the setting change is that this indication includes configuration changes which are also stored in said memory e Error events self diagnostic algorithms have detected a corrupt even in the circular buffer This bit is reset by deleting the events from the HMI or through communications e HMI activity this state is active if any keys have been pressed in the last fifteen minutes Pressing a key assumes that the relay is set to local mode e Remote Control to Local whether or not the remote control is activated Some states have an associated event which is a log of the change that occurs in the state Some states have one associated activation event and other states have two associated events activation and reset These events are saved in a buffer with a capacity for up to 1000 events and a time stamp precision of one millisecond Events can be viewed on the HMI and through communications Reading the log does not delete it it remains stored in the equipment To clear the events from the HMI navigate to the events menu and press and hold the RESET key until the number of events reads 1 and corresponds to Deleted events Use the corresponding delete events command to dele
178. tach explanation other attach explanation Sends Unsolicited Responses Sends Static Data in Unsolicited Responses O Never Never Configurable O When Device Restarts Only certain objects Class 1 O When Status Flags Change Sometimes attach explanation No other options are permitted ENABLE DISABLE UNSOLICITED Function codes supported Default Counter Object Variation Counters Roll Over at No Counters Reported No Counters Reported O Configurable attach explanation Configurable attach explanation O Default Object 16 Bits Default Variation 32 Bits O Point by point list attached Other Value Point by point list attached Sends Multi Fragment Responses Yes Function Codes 6 5 4 3 2 1 0 Index Size Qualifier Code Read Write Select Index Size Qualifier Code Operate Direct Operate No Index Packed 8 Bit Start and Stop Indices Direct Operate No ACK 1 byte Index 16 Bit Start and Stop Indices Cold Start 2 byte Index 32 Bit Start and Stop Indices Harm Start scs RR RE E 1 1 M yte jec ize Bi solute address ent 4 1 2 byte Object Size 32 Bit Absolute address Ident 189972 45552098 4 byte Object Size No Range Field all Delay Measurement 8 Bit Quantity Response 16 Bit Quantity Unsolicited Message 32 Bit Quantity 11 0xB Variable array www fanox com 285 309 11 2 Implementation table REQUEST RESPONSE BCD will parse BCD will respond
179. te modbus Circuit breaker opening from remote communications General trip www fanox com 56 309 4 15 Function 74 circuit supervision This function permits monitoring of the circuit breaker trip circuits This is performed two ways e Verifying there is a trip voltage e Verifying the continuity of the trip circuit in both circuit breaker position both open and closed For the first monitoring procedure a digital input is fitted with stricter activation than the other inputs For the second monitoring procedure a weak current is injected which must flow from the relay to the circuit breaker trip coil Finally to avoid spurious components this must be appropriately time delayed This function settings are as follows Function Description Minimum Maximum Default Trip circuit supervision 74TCS Permission Yes No 5 Time delay 0 02 300 00 0 01 s 2 00 schematic for this criteria is as follows Circuit A supervision Circuit B supervision DD Function permission eo _ Control voltage gt T_UP www fanox com 57 309 4 16 Function 79 Autorecloser reclosing function recloses the circuit breaker after a fault It has a five reclosing capacity following which the unit shall be Locked or in Lockout mode The reclose device can be permitted or prohibited depending on whether or not this function is required Prohibited
180. te the events from communications Events have the following structure Identifier Unique event identifier e g 51_1 4 PICKUP OF 67P_1 Year Month Day Minutes Seconds Milliseconds www fanox com 99 309 FA OX The following list contains all the states of the equipment and their associated events Status Cause Associated measurement Level 1 phase definite time overcurrent 50P 1 50P_1 Phase A Pickup Activation Deactivation Phase A current 50P_1 Phase B Pickup Activation Deactivation Phase B current 50P_1 Phase C Pickup Activation Deactivation Phase C current 50P_1 Pickup Activation Deactivation 50P_1 Phase A trip Activation Deactivation Phase A current 50P_1 Phase B trip Activation Deactivation Phase B current 50P_1 Phase C trip Activation Deactivation Phase C current 50P_1 Trip Activation Deactivation Level 2 phase definite time overcurrent 50P 2 50P_2 Phase A Pickup Activation Deactivation Phase A current 50P_2 Phase B Pickup Activation Deactivation Phase B current 50P_2 Phase C Pickup Activation Deactivation Phase C current 50P_2 Pickup Activation Deactivation 50P_2 Phase A trip Activation Deactivation Phase A current 50P_2 Phase B trip Activation Deactivation Phase B current 50P_2 Phase C trip Activation Deactivation Phase C current 50P_2 Trip Activation Deactivation Level 1 phase Inverse time directional overcurre
181. ted 297 309 46 Permission Current pickup Curve type Dial Definite time 49 Permission Current tap heating Ccooling Alarm 37 1 Permission Tap Operating time 37 2 Permission Tap Operating time 59P 1 Permission Voltage pickup Definite time Reset time 59P 2 Permission Voltage pickup Definite time Reset time www fanox com Permitted ADefinite time Permitted Permitted Inverse OIEC Very Inverse Inverse Very Inverse 9 Prohibited Extr Inverse Extr Inverse 9 Prohibited 9 Prohibited 9 Prohibited 9 Prohibited 9 Prohibited 298 309 59N 1 Permission Voltage pickup Definite time Reset time 59N 2 Permission Voltage pickup Definite time Reset time 27P 1 Permission Voltage pickup Definite time Reset time 27 2 Permission Voltage pickup Definite time Reset time 32 1 Permission denm Operating time Characteristic angle 32 2 Permission Tap em Operating time Characteristic angle 32 3 Permission www fanox com Permitted O Permitted Permitted Permitted O Permitted Prohibited Prohibited Prohibited Prohibited Prohibited Prohibited Prohibited 299 309 Operating time 8 Characteristic angle 2
182. ted amperes It generates an indication when there is an excessive number of openings and accumulated amperes Determines if an opening fault has occurred Allows circuit breaker opening and closing commands to be given from the HMI using different keys and through local and remote communications The following measurements are provided by the SIL B equipment Phase currents neutral positive sequence and negative sequence Phase voltages voltages between phases residual neutral voltage and busbar voltage Angle between voltage and current of each phase Cos 3 phase and per phase Active reactive and apparent powers 3 phase and per phase Thermal image Line frequency and busbar frequency Phase difference between phase line voltage and busbar voltage The SIL B equipment has eight inputs and seven outputs Both the inputs and outputs can be configured by the user The SIL B equipment is housed in a metal case with all measurement and digital inputs and outputs with galvanic isolation with the exception of local communications and battery power as these are sporadic connections This gives the equipment the highest degree of electromagnetic compatibility both in terms of radiated and conduced EMI and emissivity and immunity Said levels are those established for primary substations It has an LCD with two rows and twenty columns and a 6 key membrane keypad These allow the state of the equipment measur
183. tes 74 5 not activated 74TCS Alarm not activated States MODBUS 4 STATES Remote States MODBUS not activated Command Select not activated Open Breaker not activated Close Breaker not activated Block Recloser not activated www fanox com 184 309 www fanox com AV States REMOTE UnBlock Reclos not activated STATES v Remote not activated Command Select not activated Open Breaker not activated Close Breaker not activated Block Recloser not activated UnBlock Reclos not activated States REMOTE 185 309 States LOCAL STATES AY gt Activated I Local COM States LOCAL not activated gt Activated MMI Activity lt lt ACTIVATED gt gt Local Ctrl not activated Command Select not activated Open Breaker not activated Close Breaker not activated Block Recloser not activated UnBlock Reclos not activated www fanox com 186 309 Telecontrol AY not activated Telecontrol Yes AY not activated 7 6 11 Settings menu From the default screen press the OK key to access the first level of Use the keys to select the SETTINGS screen and press This gives the menu for groups of settings Use the keys to select a group of settings and press OK to access
184. the settings belonging to the group Use the and Y keys to select different settings The value of each setting is shown below the name of the setting The first time that a setting is modified the passcode must be entered Once entered settings can be modified until the unit returns to the default screen either manually or automatically The device will return to the default screen automatically if no key is pressed for a period of 5 minutes The factory default passcode is 5555 can be changed using SICom Use the A lt and P keys to enter the passcode Use the and Y keys to change value or character and the 4 and keys to move between digits If a character or number of the passcode entered must be changed due to an entry error it can be deleted with the C key Press OK to validate the passcode www fanox com 187 309 SETTINGS lt GEN T A 1 CoM gt Select table SETTINGS lt GEN 1 T Activated T A 1 COM gt Select table 2 Select table 3 Settings 50 1 SETTINGS GEN OK 1 gt Function Enable Settings 50 1 NO Set Password Function Enable gt 0 NO Set Password gt 5555 Function Enable NO gt NO www fanox com 188 309 Function Enable NO gt YES Function Enable NO gt YES y n SETTING CHANGED Function Enable Function Enable YES Current Tap AY 1 00 xIn Operating Time AT 0 02 s x
185. ting reset time The function pick up occurs at 100 of the adjusted input and the dropout at 95 The reset type is temporized and reset time is adjusted with reset time parameter The accuracy of the operating time is the adjusted time 30ms NB The neutral voltage is obtained internally in the equipment using the sum of the 3 phase voltages 4 10 Function 27 1 and 27 2 Definite time phase undervoltage This protection function is adjusted using three parameters Function Description Minimum Maximum Step Unit Default 27P 1 Definite time phase undervoltage 27P 2 Permission Yes No No Pickup 4 110 1 V 50 Operating time 0 02 300 0 01 s 100 Reset time 0 2 1200 0 0 1 s 0 2 The operating time is completely independent of the measured phase voltage such that should the phase voltage goes down the set value during the same amount of time or more than the set one the protection function acts trips and there it is not restored until the measured value of the phase voltage exceeds the voltage set point during adjusting reset time The function pick up occurs at 100 of the adjusted input and the dropout at 105 The reset type is instantaneous temporized and reset time is adjusted with reset time parameter The accuracy of the operating time is the adjusted time 30ms www fanox com 47 309 4 11 Function 32 40 Definite time directional overpower Four definite time directional overp
186. tion 1 201 ei Start 2 SE X 201 2 2 5 201 lt 8 gt Alarm 2 SE X 201 lt 9 gt Trip 2 SE X 201 lt 16 gt 32 Start 2 SE X 201 lt 17 gt 32 Trip 2 SE X 201 lt 18 gt 32 Start 2 SE X 201 lt 19 gt 32 Trip 2 SE X 201 lt 20 gt 32 Start 2 SE X 201 lt 21 gt 32 2 5 201 lt 22 gt 32 Start 2 201 lt 23 gt 32 2 201 lt 24 gt 37 Start 2 201 lt 25 gt 37 Start 2 X 201 lt 26 gt 37 Start 2 201 lt 27 gt 37 Start P 2 SE X 201 lt 28 gt 37 2 201 lt 29 gt 37 2 5 201 lt 30 gt 37 2 201 lt 31 gt 37 P 2 201 lt 32 gt 37 Start 2 5 www fanox com 264 309 201 lt 33 gt 37 Start 2 SE 201 lt 34 gt 37 Start C 2 SE X 201 lt 35 gt 37 Start P 2 SE X 201 lt 36 gt 37 Trip A 2 SE 201 lt 87 gt 37 2 X 201 38 37 2 X 201 lt 39 gt 37 Trip P 2 SE 201 lt 40 gt Start 2 SE X 201 lt 41 gt Activation 2 SE X 201 lt 48 gt 50 Start N 2 SE X 201 lt 49 gt 50 Trip N 2 SE X 201 lt 50 gt 50 Start N 2 SE X 201 51 50 Trip N 2 SE X 201 lt 52 gt 50 Start A 2 SE X 201 lt 53 gt 50 Start 2 201 lt 54 gt 50 Start 2 5 201 l
187. tion Frequency 81_1 Block Activation Deactivation Level4 Underfrequency Overfrequency 81 4 81 1 Activation Deactivation Frequency 81_ Trip Activation Deactivation Frequency 81_1 Block Activation Deactivation Cold Load Pickup CLP Activation Activation Deactivation Circuit breaker opening fault 50BF 50BF Pickup Activation Deactivation 50BF Trip Activation Deactivation General Trip Activation Deactivation Battery supply Activation Deactivation Network frequency at 50Hz Activation Deactivation 1 SI in e error Non Activation Deactivation www fanox com 104 309 Measurement error Activation Deactivation Ready Activation Deactivation Protection error Activation Deactivation Settings changed Activation Deactivation Date time synchronization Activation Settings by default Activation Deactivation Manual closure Activation Deactivation Remote Control to Local Activation Deactivation E2prom by default Activation Deactivation E E2prom error Activation Deactivation IRIG B presence Activation Deactivation Change of e2prom values Activation Deactivation Events error Activation New oscillographic log Activation Measurement error Activation Deactivation Events deleted Activation Pickup of some neutral function Activation Deactivation Pickup of some phase A funct
188. tiplier 3177 5177 FLOAT CLP 67P_1 multiplier 3178 5178 FLOAT CLP 67P_2 multiplier 3179 5179 FLOAT CLP 50N_1 multiplier 3180 5180 FLOAT CLP 50N_2 multiplier 3181 5181 FLOAT CLP 67N_1 multiplier 3182 5182 FLOAT CLP 67N_2 multiplier 3183 5183 FLOAT CLP Cold Load pass time 3184 5184 FLOAT CLP duration time www fanox com 256 309 8 12 Examples of Modbus packets Input access passcode 5555 to device number 1 functi Reg Num Reg Num Num checksum checksum bytes MSB LSB MSB LSB 01 10 00 A8 00 02 04 35 35 35 35 30 F4 And the response from the SIL B functio Start addr Start addr Reg Num checksum checksum i MSB LSB MSB LSB MSB LSB Reading of the 4 primary measurements of device 1 functio Start addr Start addr Reg Num checksum checksum MSB LSB MSB MSB LSB And the SIL B responds with measurements IA IC 10 in the FLOAT format addr function Num bytes Measurement Measurement Measurement Measurement checksum checksum IA IB MSB LSB 01 03 10 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 E4 59 Reading of protection states of device 1 functio Start addr Start addr Reg Num Reg Num checksum checksum MSB LSB MSB LSB MSB LSB And the SIL B responds functi Num State 50P State 67P_1 State 50N State 67N_1 General Inputs Output bytes State State sState State 01 03 7A 00 09 00 00 00 00 00 00 00
189. tivates trips and does not reset itself until the average value of the phase drops below the point of current tap The function activates at 100 of the preset input and deactivates at 95 The reset is instantaneous The accuracy of the operation time is equal to the preset time plus a maximum of 30 ms 4 4 Function 67 51 50N1 amp 67 51 50N2 Inverse time neutral directional overcurrent Two neutral directional units are available 67N1 y 67N2 This function uses the residual voltage as a polarization magnitude and the residual current as an operating magnitude The intervention sector is defined in the following way the operating angle is rotated anticlockwise from the residual voltage which gives us the maximum torque direction cone is drawn with the half cone angle adjusted over this maximum torque direction If the directionality option is not activated the 67N function behaves like a 51 50N function The actuation time starts when the following conditions are met simultaneously e Residual voltage higher than adjusted e Residual current higher than adjusted e phase shift of residual current and residual voltage is such that the residual current is inside the intervention sector www fanox com 39 309 function settings as follows Function Description Minimum Maximum Step Default 67N 1 nverse time neutral directional overcurrent 67N_2 Permission Yes No N
190. to be viewed Given that the SIL B is a pass through module that allows several turns to be made the number of turns must be taken into account when the transformation ratios are adjusted 3 Frequency Displays the equipment s frequency If the device is non compact SILB the frequency is selected using an internal selector in the equipment which can be accessed by removing the rear selector access cover the device is SILB it is not possible to change the frequency because this parameter is imposed by the model 4 Language The SIL equipment has the capacity to display messages in four languages one of which is English in all of them Please see the list of models to find out about available languages 5 Active Table see Settings 6 Communication settings address and baudrate ModBus RTU RS485 see Communications www fanox com 71 309 The rest of the settings are grouped by functions to facilitate their operation These groups are subject to tables The equipment identifier setting can only be adjusted through communications The frequency setting is read only The frequency is selected using an internal selector in the equipment which can be accessed by removing the rear selector access cover The rest of the settings can be modified equally from the HMI or through communications Any change to settings involves resetting the functions regardless if they are active or not 4 20 Settings Group The
191. ult 5 State 52 Closed 6 State 52 Closure Time 7 State 52 Closure Fault 8 State 52 Excess Openings 9 State 52 Total 10 State 52 Excess Openings per Minute 11 State 52 12 State 52 13 State 52 Error 74TCS 1 Pickup 2 Activation www lanox com 248 309 Remote ModBus 1 selection 2 Open breaker 3 Close breaker 4 Lock 79 5 Unlock 79 Remote 1 selection 2 Open breaker 3 Close breaker 4 Lock 79 5 Unlock 79 Local ModBus 1 selection 2 Open breaker 3 Close breaker 4 Lock 79 5 Unlock 79 6 Set Remote Control to Local 7 Set Remote Control to Remote 8 11 Settings map Start address for Modbus Start address for Category Function read and write Modbus confirm 3001 5001 ASCII20 General Device identifier 3006 5006 LONG General Phase CT ratio 3007 5007 LONG General Neutral CT ratio 3008 5008 LONG General VT ratio 3009 5009 DENUM General Frequency 5060Hz 3010 5010 DENUM General Language LANGUAGE 3011 5011 LONG General Settings group 3012 5012 LONG Communications Address 60870 5 103 www fanox com 249 309 3013 5013 DENUM Communications Speed 60870 5 103 3014 5014 LONG Communications ModBus address 3015 5015 DENUM Communications ModB
192. unction will work normally without considering synchronism If Hold permission of 79 function is enable and it is associated with Permission of closure of 25 function could be occur 1 If permissions LLLB DLLB DLDB of 25 function are all prohibited after tripping because of a fault circuit breaker never will be reclosed because Permission of closure bit of 25 function will never be activated After time adjusted in hold time 79 function will go to LOCKOUT status 2 If permissions LLLB DLLB y DLDB of 25 function all enable it will be distinguished the following cases a If line bar or both of them are dead the circuit breaker will be always reclosed because Permission of closure only depends on corresponding permission adjustment and it is not necessary synchronism to get the circuit breaker reclose b If both line and bar are alive it will be necessary to get the reclose of the circuit breaker not only LLLB permission to be enable either to check synchronism If LLLB permission is enable but synchronism conditions do not verify the reclose will not occur and vice versa www fanox com 67 309 4 17 2 Syncronism 25 and manual closure 52 For the manual closure of 52 function is supervised by the closing permission given by sync function it is necessary to associate the Permission of closure status of sync function to the logical input 52 Permission of closure
193. urrent Level 1 neutral inverse time directional overcurrent 67 51 50N 1 67N 1 Pickup Activation Deactivation Neutral current 67N 1 Trip Activation Deactivation Neutral current Level 2 neutral inverse time directional overcurrent 67 51 50N 2 67N 2 Pickup Activation Deactivation Neutral current 67N 2 Trip Activation Deactivation Neutral current Negative sequence inverse time overcurrent 46 46 Pickup Activation Deactivation Negative sequence current 46 Trip Activation Deactivation Negative sequence current Thermal image 49 49 Alarm Activation Deactivation Thermal image measurement 49 Trip Activation Deactivation Thermal image measurement Level1 Definite time undercurrent 37P 1 37P 1 Phase A Pickup Activation Deactivation Phase A current 37P 1 Phase B Pickup Activation Deactivation Phase B current 37P 1 Phase C Pickup Activation Deactivation Phase C current 37P 1 Pickup Activation Deactivation 37P 1 Phase A trip Activation Deactivation Phase A current www fanox com 101 309 37P 1 Phase B trip Activation Deactivation Phase B current 7 1 Phase C trip Activation Deactivation Phase C current 37P 1 Trip Activation Deactivation Level2 Definite time undercurrent 37P 2 7 2 Phase A Pickup Activation Deactivation Phase A
194. us data rate BAUDRATE 3016 5016 DENUM NOSI 1 Permission 3017 5017 FLOAT 50P_1 Pickup 3018 5018 FLOAT 50P_1 Operating time 3019 5019 DENUM NOSI 2 Permission 3020 5020 FLOAT 50P_2 Pickup 3021 5021 FLOAT 2 Operating time 3022 5022 DENUM NOSI 50N_1 Permission 3023 5023 FLOAT 50N_1 Pickup 3024 5024 FLOAT 50N_1 Operating time 3025 5025 DENUM NOSI 50N_2 Permission 3026 5026 FLOAT 50N_2 Pickup 3027 5027 FLOAT 50N_2 Operating time 3028 5028 DENUM NOSI 67P_1 Permission 3029 5029 DENUM 67P_1 Curve CURVAEXT 3030 5030 FLOAT 67P_1 Dial 3031 5031 FLOAT 67 1 Pickup 3032 5032 FLOAT 67P_1 Operating time 3033 5033 DENUM NOSI 67P_1 Directionality 3034 5034 FLOAT 67P_1 Polarization voltage 3035 5035 LONG 67P_1 Operating angle 3036 5036 LONG 67P_1 Half cone angle 3037 5037 DENUM NOSI 67P_2 Permission 3038 5038 DENUM 67P_2 Curve CURVAEXT 3039 5039 FLOAT 67P_2 Dial 3040 5040 FLOAT 67P_2 Pickup 3041 5041 FLOAT 67P_2 Operating time www fanox com 250 309 3042 5042 DENUM NOSI 67P 2 Directionality 3043 5043 FLOAT 67 _2 Polarization voltage 3044 5044 LONG 67P_2 Operating angle 3045 5045 LONG 67P_2 Half cone angle 3046 5046 DENUM NOSI 67N_1 Permission 3047 5047 DENUM 67N_1 Curve CURVAEXT 3048 5048 FLOAT 67N_1 Dial 3049 5049 FLOAT 67N_1 Pickup 3050 5050 FLOAT 67N_1 Operating time 3051 5051 DENUM NOSI
195. utput 5 1 SE X 200 lt 97 gt Auxiliary output 6 1 SE GI X 200 lt 98 gt Auxiliary output 7 1 SE GI X 200 lt 99 gt Auxiliary output 8 1 SE X 200 lt 100 gt Auxiliary output 9 1 SE X 200 lt 101 gt Auxiliary output 10 1 SE GI X 200 lt 102 gt Auxiliary output 11 1 SE GI X 200 lt 103 gt Auxiliary output 12 1 SE X 200 lt 116 gt 79 start 1 SE X 200 lt 117 gt 50BF start 1 SE GI X 200 lt 118 gt Oscillographic start 1 SE GI X 200 lt 119 gt 79 Enabled 1 SE X 200 lt 120 gt 52 Close enabled 1 SE X 200 lt 132 gt Maneuver Selection 2 SE X 200 lt 133 gt CB Open 2 SE X 200 lt 134 gt CB Close 2 SE X 200 lt 135 gt 79 Lockout 2 SE X 200 lt 136 gt 79 Unlock 2 SE X 200 lt 137 gt Remote control into Local 2 SE X 200 lt 138 gt Telecontrolinto Remote 2 X 200 lt 140 gt Switching selection 2 SE www fanox com 263 309 200 lt 141 gt 2 5 200 lt 142 gt Close 2 5 X 200 lt 143 gt Lockout 79 2 5 200 lt 144 gt Unlock 79 2 5 200 lt 148 gt Switching selection 2 5 200 lt 149 gt 2 5 X 200 lt 150 gt 2 X 200 lt 151 gt Lockout 79 2 200 lt 152 gt Unlock 79 2 X 200 lt 160 gt Activa
196. vated Function blocked lt lt ACTIVATED gt gt 168 309 www fanox com AV AV States 81 3 States 81 4 T STATES States 81 3 Pickup not activated Trip not activated Function blocked lt lt ACTIVATED gt gt T STATES Pickup States 81 4 not activated not activated Function blocked lt lt ACTIVATED gt gt 169 309 www fanox com AY States 25 gt Activated T STATES Live L amp Live States 25 not activated gt Activated Live L amp Dead B not activated Dead L amp Live B not activated Dead L amp Dead B lt lt ACTIVATED gt gt Synchrocheck not activated 170 309 www fanox com AV States 37 1 T STATES Phase Pickup not activated Phase B Pickup not activated Phase C Pickup not activated Phase Pickup not activated Phase A Trip not activated Phase B Trip not activated Phase C Trip not activated States 37 1 171 309 www fanox com AV States 37 2 Phase Trip not activated STATES v Phase A Pickup not activated Phase B Pickup not activated Phase C Pickup not activated Phase Pickup not activated Phase A Trip not activated Phase B Trip not activated Phase C Trip not activated States 37 2 172 309 www fanox com AV States GENERAL Phase Trip not activated
197. ve power phase B QC Reactive power phase C s 3 phase apparent power SA 3 phase apparent power phase 58 3 phase apparent power phase SC 3 phase apparent power phase C COS Power factor 5 Power factor phase cos Power factor phase B cos Power factor phase Thermal image Thermal image mesurement Line frequency Line phase b frequency Busbar frequency Busbar phase b frequency Phase difference Phase difference between phase B line voltage and phase b bar voltage Protection criteria map Criteria index Criterion name 1 50 256 5 50P_1 2 50 256 5 32 50 _2 3 67 256 2 67 51 50P_1 4 67 256 2 32 67 51 50P_2 5 150 256 5 50N 1 6 150 256 5 32 50N_2 7 167 256 2 67 51 50N_1 8 167 256 2 32 67 51 50N_2 9 203 256 2 Cold Load Pickup CLP 10 24 256 1 50BF 11 46 256 2 46 Negative sequence www fanox com 236 309 12 59 256 1 59P_1 13 59 256 1 32 59P_2 14 159 256 1 59N_1 15 159 256 1 32 59N_2 16 27 256 1 27P_1 17 27 256 1 32 27P_2 18 32 256 1 32_1 19 32 256 1 32 32_2 20 32 256 1 64 32_3 21 32 256 1 96 32_4 22 49 256 1 49_1 23 81 256 1 81_1 24 81 256 1 32 81_2 25 81 256 1 64 813 26 81 256 1 96 814 27 25 256 1 25 sinchronism 28 37 256 1 37_1 29 37 256 1 32 37_2 30 200 256 3 General state 31 2
198. ving two RS485 communication ports one for MODBUS RTU protocol and the other one for IEC 60870 5 103 protocol The other possibility is having two rear ports one RS485 for MODBUS protocol and the other one RJ45 Ethernet for IEC 61850 or DNP 3 0 Logging in allows four levels of access with passcodes that can be configured by the user Thanks to the protection functions that are available its user friendly interface its reduced maintenance requirements and simple integration the SIL B is an accurate and practical solution for protecting a feeder system SIL B offers protection against earth faults that is sufficiently sensitive for use with electrical systems with a low earth failure current It can be adjusted to 0 1 times the rated current and really low rated levels can be selected The main features of the equipment are listed below These will be described in greater detail in this manual www fanox com 28 309 Protection 50P Definite time overcurrent protection function phase 2 50N Definite time overcurrent protection function neutral 2 67 51 Inverse time overcurrent protection function phase 2 67 51 50N Inverse time directional overcurrent protection function neutral 2 46 Inverse time overcurrent protection function negative sequence 1 49 Thermal image protection function 1 37 Undercurrent protection function 2 depending on model 59P Definite time overvoltage protection function phase 2 59
199. w fanox com 81 309 If overcurrent fault is 11xl 21100 IEC inverse curve defines a tripping value of 0 14255 Figure1 for 51 function It is considered that this time is too high so when current fault reaches 11 definite time overcurrent function will be work The figure below Figure 2 shows the tripping curve of the relay 0 3500 0 3000 0 2500 0 2000 Function 51 0 1500 Function 50 0 1000 0 0500 11 0 05 0 0000 0 00 4 00 8 00 12 0016 0020 0024 0028 0032 00 Figure 2 Relay tripping curve www fanox com 82 309 APPLICATION EXAMPLE 2 Starting from the following information Line details Transformation ratio of CT 500 1 Primary current 500 51 function settings Curve type ANSI Extremely Inverse Dial 2 20 1xIn 50 function settings 14xIn Operating time 0 1 s 20 000 ction 51 a Function 50 10 000 Figure 3 50 y 51 ANSI Inverse www fanox com 83 309 FANOX If overcurrent fault is 24xI 12000 Ap ANSI Extremely inverse curve defines a tripping value of 0 376 s Figure 3 for 51 function It is considered that this time is too high so when current fault reaches 24xl definite time overcurrent function will be work 50 function tap is adjusted at 14 so definite time overcurrent function will trip when current fault is higher than 14 50 function does not wait to reach 24 Th
200. will wait for an application layer confirmation from the master Enable Unsolicited Reporting Enables or disables Unsolicited responses Source Address Destination address of the Master device to which the unsolicited responses are to be sent Unsolicited Retry Delay Specifies the time to delay after an unsolicited confirm timeout before retrying the unsolicited response Unsolicited Max Retries How many times should this slave resend Unsols before declaring the station offline Unsolicited Offline Retry Delay How often to retry unsolicited responses after maxRetries attempts www fanox com 292 309 12 APPENDIX 12 1 Identification Date D Model SenialilN 21 12 21 1 2 11 10111105 a Software versions 0 00 27 72 2 2 www fanox com 293 309 FA OX www fanox com MODEL SELECTION TABLE Example SILB515B0000AA 1 A phase measurement 5 A phase measurement 1 A neutral measurement 5 A neutral measurement 50 Hz 60 Hz 24 48 Vdc 90 300 110 230 Vac 81U O 4 25 37 2 81U O 4 25 37 2 IRIG B in compact amp non compact version RS485 ModBus IEC 60870 5 103 FOP ModBus IEC 60870 5 103 FOC ST ModBus IEC 60870 5 103
201. ww fanox com 135 309 7 2 Remote communications ports RS485 SILB with two ports RS485 one for ModBus and the other one for 60870 5 103 The device features 2 exterior RS485 connections through three terminals y GND located on the back of the unit The protocols used are IEC 60870 5 103 and Modbus RTU These ports can be used for the continuous monitoring of the device from a remote PC or SCADA system Up to 32 units can be connected to one bus each with its own modbus address Speed and direction are configurable In order to minimize communications errors due to noise a shielded twisted conductor cable is the recommended physical medium In order to make the connection connect all terminals on one side and all terminals on the other side If a 3 strand cable is used for communication the ground terminals GND should be connected to the earth cable If a 2 strand cable is used for communication the ground terminals GND should be connected to the cable shielding The shielding should be connected to GND at only one point so as to avoid circular currents Resistance loads must be used at both ends if a very long cable is used The best solution for avoiding signal reflection is the addition of resistance loads at both ends of the cable The value of these resistance loads should be the same as the impedance of the cable rs485 are insulated from the auxiliary voltage but there is no insulation between the two
202. x Description 46 52 Status excessive openings per minute 47 52 Status 48 52 Status 49 52 Status Error 50 79 Status Reclose Time 51 79 Status Open 52 79 Status Wait Time 53 79 Status Reclaim Time 54 79 Status Security Time 55 79 Status final open Time 56 Start Trip Circuit Supervision 57 GEN 50Hz 58 Magnetic module Error 59 Measurand Error 60 synchronism 61 Eeprom with default values 62 eeprom Error 63 Eeprom values changed 64 Events Error 65 New Oscillograph register 66 52 a Input 67 52 b Input 68 Phase lockout input 69 Ground lockout input 70 External trip input 71 Oscillographic start input 72 79 Start input 73 79 Enable input 74 79 Level lockout input 75 0 Setting group input 76 1 Setting group input 77 79 pulse lockout input 78 79 pulse unlock input 79 50BF start input 80 Voltage command 81 Continuity 82 Continuity B 83 T9 start 84 50BF start 85 Oscillographic start 86 79 Enabled 87 52 Close enabled 88 Maneuver Selection local 89 CB Open local 90 CB Close local 91 79 Lockout local 92 79 Unlock local 93 Remote control into Local 94 Telecontrol into Remote 95 Maneuver Selection Modbus remote 96 Open CB Modbus remote 97 Close CB Modbus remote 98 Lockout 79 Modbus remote www fanox com 288 309

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