Transcription
ANUAL
MotortronicsTable of contents1About the Motortronics TE-RTD12 Relay Device .21.1General .21.2Dimensions and Mounting.31.3General Wiring Diagram .41.3.1Wire Size and Tightning Torque .51.3.2CT Connection: Core Balance Connection .51.3.3Ct Connection: Summing Method .61.4Keypad .71.4.1Layout and Description.71.4.2Navigation.81.5Quick Start-Up .92Parameters . 112.1Parameters Overview .11-172.2Parameters Detailed Explanation . 182.2.1RTD Settings .18-272.2.2Digital Inputs . 282.2.3Analog Inputs . 292.2.4Analog Output . 322.2.5Device Setting . 332.2.6Differential CTs . 332.2.7Relay Settings . 342.2.8Communication . 352.2.9Real Time Clock. 362.2.10 Display .37-382.2.11 Relay Configuration.38-392.2.12 System Settings . 392.2.13 Device Information . 403Fault History and Event Records . 413.1Fault History . 413.2Fault Code Table . 423.3Event Records . 434MODBUS RTU Communication. 444.1Serial Connection / Wiring. 444.2Serial Communication Settings . 464.3MODBUS RTU Message Structure .46-494.4Main Registers.50-544.5Monitor Registers. 55APPENDIX A: TECHNICAL SPECIFICATIONS . 56APPENDIX B: RTD TYPE TEMPERATURE VS RESISTANCE CHARTS . 57APPENDIX C: RTD WIRING DIAGRAM (2, 3 and 4 WIRE RTD) . 59WARRANTY INFORMATION . 60www.motortronics.comPage 1
Motortronics1 About the Motortronics TE-RTD12 Relay Device1.1GeneralThe TE-RTD12 Relay device adds advanced RTD (Resistor Temperature Detector) and differential currentmonitoring capability to your new or existing motor system. The TE-RTD12 Relay device offers 12 built-in RTDinputs, 3 programmable output relays (5A), 2 isolated analog inputs (4-20mA), 1 isolated analog output (420mA), 3 isolated digital inputs and differential current feedback monitoring.Additionally, an RS485 (2 wire) communication port is available for use with a master device (PLC / SCADA /Operator Interface) for the purpose of programming and/or monitoring.Programmable relay outputs are provided that can be configured for a system function or for use as a globalAlarm or Trip based on temperature readout, which can be entered in ºC or ºF.A built-in event recorder stores fault history of past events with data points including Alarm / Trip Code, Current /Temperature value, Analog input value and Date / Time Stamp.The TE-RTD12 Relay device can be mounted on a back panel using the mounting bracket.NOTES -www.motortronics.comPage 2
Motortronics1.2Dimensions and MountingDimensions:8.86” x 6.19” x 3.06” (H x W x D)225mm x 157.2mm x 77.7mm (H x W x D) (mm)MountingUse the designated mounting holes to mount the TE-RTD12 in the designated area of your system.www.motortronics.comPage 3
Motortronics1.3General Wiring DiagramThe following figure shows the general wiring diagram for the TE-RTD12 Relay Device.The terminal blocks are removable (pluggable) for ease of wiring.Refer to section 4 for connections.CONTROLPOWER INPUT110 - 240 Vac1Ø 50 / 60 HzRS485COM PORT1RELAY 1RELAY 223 456ISOLATED4 – 20 mAINPUTSISOLATEDDIGITALINPUTS7 8RELAY 3ISOLATED4 – 20 mAOUTPUTORE1CLN234CN.O. N.C.567CN.O. N.C.89 N.O. N.C.1011-COMGND121122IN1 COM 3345IN2-6OUT 7OUT-89TB2TB1OKRefer to table 1. forrecommended terminaltorque values.ALARMRelay 1Note:TRIPRelay 2·RS485 and Digital Inputshave a common ground·All 4-20mA I/O share acommon ground that isisolated from the RS485and Digital I/O ground.Relay 3ResetFnEnterTE-RTD12 Relay2 A34 TB4TB3TB71-5 B61-7C234GND GND S7 RET 758789GND GND S8 RET 89RTD 8RTD 7DIFFERENTIALCT INPUTS6101112GND GND S9 RET 9110234GND GND S10 RET 105111RTD 1234GND GND S1 RET 1526789GND GND S2 RET 23RTD 28GND GND S11 RET 11912101112GND GND S12 RET 12RTD 12TB6TB517RTD 11RTD 10RTD 96101112GND GND S3 RET 3RTD 314234GND GND S4 RET 4RTD 4556789GND GND S5 RET 56RTD 5101112GND GND S6 RET 6RTD 6RTD TypicalConnectionsTE-RTD12 Relay Device General Wiring DiagramCAUTION: DO NOT CONNECT INPUT POWER TO TB2, TB3, TB4, TB5, TB6 or TB7ONLY CONNECT INPUT POWER TO TB1 TERMINAL N AND L (110 - 240Vac)www.motortronics.comPage 4
Motortronics1.3.1 Wire Size and Tightening TorqueTightening TorqueAWGTightening TorqueRecommended in-LbTB1, TB2, TB730 - 124.424.42TB3, TB430 - 142.212.21TB5, TB630 - 141.772.21ConnectorWire SizeMaximum in-LbTable 11.3.2 CT Connection: Core Balance ConnectionTB7123456DIFFERENTIALCT INPUTS AABC B CA PhaseMotorB PhaseC Phasewww.motortronics.comPage 5
Motortronics1.3.3 CT Connection: Summing MethodTB7123456DIFFERENTIALCT INPUTS A B CABA PhaseA PhaseMotorB PhaseB PhaseCC PhaseC Phasewww.motortronics.comPage 6
Motortronics1.4Keypad1.4.1 Layout and DescriptionThe Keypad for the TE-RDT12 Relay incorporates an 8 digit LED display, a membrane keypad forprogramming, data entry and data retrieval. There are also 6 LED status indicators.OKALARMRelay 1TRIPRelay 2Relay 3ResetFnEnterTE-RTD12 RelayTE- RTD12 KeypadKeypad DescriptionResetResets the device after the conditions that cause anALARM or TRIP have been clearedFnEnter program mode (view event log)Up and Down ArrowsMonitor Navigation / increase or decrease valueRight and Left ArrowsEach key press shifts the active (flashing) digit to the rightor left by one position, allowing you to change highervalues of functions without waiting to Auto-step throughlarge numbers.EnterRead and save parameter changes8888 8888Two 4-digit 7-segment LED displaysOK (Green)ON: Indicates that there are no Alarms or Trips.(Yellow and Red LED’s are OFF)ALARM (Yellow)ON: An ALARM is activeTRIP (Red)ON: A TRIP has occurredKeysDisplayLEDRelay 1 (Yellow)Relay 2 (Yellow)ON: Relay is activatedRelay 3 (Yellow)Table 2www.motortronics.comPage 7
Motortronics1.4.2 NavigationPower UpProgram ModeEvent Log ModeFnMain MonitorSelectManual SelectBlinking#1 Hottest Stator RTD # (id)#2 Hottest Stator RTD temperature#3 Hottest Non-Stator RTD # (id)#4 Hottest Non-Stator RTD temp.#5 RTD #1 (default name: Stator #1)#6 RTD #2 (default name: Stator #2)MoveCursor . See parameter F094EnterChangeValueBlinkingAccept / Switch# and ValueEnterSelectAuto-Scroll#15#16 See parameter F094ResetFault/Alarmwww.motortronics.comPage 8
Motortronics1.5Quick Start-upFollow these steps to setup your TE-RTD12 device.Step 1: Connect Power SupplyWith the power-supply turned OFF connect a single phase power supply 110 – 240 Vac Nominal to terminal TB1(1 Ground, 2 N, 3 L) to power the TE-RTD12. See wiring diagram for connections.CONTROLPOWER INPUT110 to 240 Vac1Ø 50 / 60 HzTB1RELAY 1Earth GndE1CLN2RELAY 2N.O. N.C.CRELAY 3CN.O. N.C.N.O. N.C.3TB1Important: Use fuse protection of 2A 240VAC 5kA RK5 or equivalent fuse for the input power supply.CAUTION: DO NOT CONNECT INPUT POWER TO TB2, TB3, TB4, TB5, TB6 or TB7ONLY CONNECT INPUT POWER TO TB1 TERMINAL N AND L (85 265Vac)Step 2: Connect RTD Inputs (only if used)-Turn power-supply OFFWith the power-supply turned OFF connect the RTD inputs to terminal block TB3, TB4, TB5 and TB6according to the wiring diagram.TB4TB317234GND GND S7 RET 7586789109GND GND S8 RET 8RTD 8RTD 711121GND GND S9 RET 910234GND GND S10 RET 105611GND GND S11 RET 11RTD 11234GND GND S1 RET 1526910121112GND GND S12 RET 12RTD 12TB6TB518RTD 11RTD 10RTD 9778GND GND S2 RET 2RTD 2910311121GND GND S3 RET 34RTD 3234GND GND S4 RET 4RTD 456578GND GND S5 RET 5RTD 591061112GND GND S6 RET 6RTD 6RTD TypicalConnectionsNOTE: The stator RTD’s have to connect consecutively from RTD #1 and up. The number of stator RTD’s has tobe entered in parameter F049.www.motortronics.comPage 9
MotortronicsStep 3: Program Unit- Turn on power-supply.- Set parameter F049 to # of used stator RTD’s.- To use temperature setting/readout in Fahrenheit, enter level 2 password (F102) 2000, then setparameter F095 to ‘1’ (default Fahrenheit).- Set Real-time clock Date and Time, parameter F088 to F093.- Enable RTD inputs 1 - 12 if used parameter F001, F005, F009, F013, F017, F021, F025, F029, F033,F037, F41 and F45.- Set Alarm and Trip levels for RTD inputs F003, F004.F007, F008.F011, F012.www.motortronics.comPage 10
Motortronics2.0 Parameters2.1 Parameter OverviewGrpRTD#Fn#FunctionAdj. RangeF001 STATOR PHASE A1 TYPEF002 RTD # 1 DESCRIPTIONRTD11. RTD Settings.RTD2RTD3RTD40-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –10: Stator #1 (StA1)1: RTD #1 (rt 1)STATOR PHASE A1F003 ALARM0-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURESTATOR PHASE A1 TRIPF0040-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURE0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;F005 STATOR PHASE A2 TYPE3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –1F006 RTD # 2 DESCRIPTION0: Stator #2 (StA2)1: RTD #2 (rt 2)STATOR PHASE A2F007 ALARM0-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURESTATOR PHASE A2 TRIPF0080-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURE0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;F009 STATOR PHASE A3 TYPE3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –1F010 RTD # 3 DESCRIPTION0: Stator #3 (StA3)1: RTD #3 (rt 3)STATOR PHASE A3F011 ALARM0-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURESTATOR PHASE A3 TRIPF0120-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURE0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;F013 STATOR PHASE A4 TYPE3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –1F014 RTD # 4 DESCRIPTION0: Stator #4 (StA4)1: RTD #4 (rt 4)STATOR PHASE A4F015 ALARM0-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURESTATOR PHASE A4 TRIPF0160-464,[0-240 (C); 32-464 (F)], 1011OFF11OFF1Note: See parameter Fn95 first to change between ºC and ºF.www.motortronics.comPage 11
MotortronicsGrpRTD#Fn#FunctionAdj. RangeF017 STATOR PHASE A5 TYPEF018 RTD # 5 DESCRIPTIONRTD51. RTD Settings.RTD6RTD7RTD80-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –10: Stator #5 (StA5)1: RTD #5 (rt 5)STATOR PHASE A5F019 ALARM0-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURESTATOR PHASE A5 TRIPF0200-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURE0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;F021 STATOR PHASE A6 TYPE3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –1F022 RTD # 6 DESCRIPTION0: Stator #6 (StA6)1: RTD #6 (rt 6)STATOR PHASE A6F023 ALARM0-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURESTATOR PHASE A6 TRIPF0240-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURE0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;F025 FRONT BEARING TYPE3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –1F026 RTD # 7 DESCRIPTION0: Front Bearing (Fb)1: RTD #7 (rt 7)FRONT BEARING ALARMF0270-464,[0-240 (C); 32-464 (F)], OFFTEMPERATUREFRONT BEARING TRIPF0280-464,[0-240 (C); 32-464 (F)], OFFTEMPERATURE0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;F029 REAR BEARING TYPE3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –1F030 RTD # 8 DESCRIPTION0: Rear Bearing (rb)1: RTD #8 (rt 8)REAR BEARING ALARMF0310-464,[0-240 (C); 32-464 (F)], OFFTEMPERATUREREAR BEARING TRIPF0320-464,[0-240 (C); 32-464 (F)], 1011OFF11OFF1Note: See parameter Fn95 first to change between ºC and ºF.www.motortronics.comPage 12
MotortronicsGrpRTD#Fn#PSWLevel1OFF11010-464,[0-240 (C); 32-464 (F)], OFF1OFF10-464,[0-240 (C); 32-464 (F)], OFF1OFF11OFF11010-464,[0-240 (C); 32-464 (F)], OFF1OFF10-464,[0-240 (C); 32-464 (F)], OFF1OFF11OFF11010-464,[0-240 (C); 32-464 (F)], OFF1OFF10-464,[0-240 (C); 32-464 (F)], OFF1OFF11OFF11010-464,[0-240 (C); 32-464 (F)], OFF1OFF10-464,[0-240 (C); 32-464 (F)], OFF1OFF10-6160 – 1 [0 Disabled, 1 Enabled]100-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –10: Bearing Box (brbo)1: RTD #9 (rt 9)F034 RTD #9 DESCRIPTIONRTD9RTD #9 ALARMTEMPERATURERTD #9 TRIPF036TEMPERATUREF035F037 RTD #10 TYPEF038 RTD #10 DESCRIPTIONRTD10RTD #10 ALARMTEMPERATURERTD #10 TRIPF040TEMPERATUREF0391. RTD Settings.DefaultSettingAdj. RangeF033 RTD #9 TYPEF041 RTD #11 TYPEF042 RTD #11 DESCRIPTIONRTD11RTD #11 ALARMTEMPERATURERTD #11 TRIPF044TEMPERATUREF043F045 RTD #12 TYPEF046 RTD #12 DESCRIPTIONRTD12RTD #12 ALARMTEMPERATURERTD #12 TRIPF048TEMPERATURE# OF RTD’S USED FORF049STATORF050 RTD VOTINGF047Incr.Function0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –10: Ambient (Abnt)1: RTD #10 (rt10)0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –10: User Defined #1 (USr1)1: RTD #11 (rt11)0-4 [0: OFF; 1: 100 Ohm Pt; 2: 10 Ohm Cu;3: 100 Ohm Ni; 4: 120 Ohm Ni.]0 –10: User Defined #2 (USr2)1: RTD #12 (rt12)1Note: See parameter Fn95 first to change between ºC and ºF.www.motortronics.comPage 13
MotortronicsGrpRTD#Fn#2. Digital InputsF053 Input #2 (InP2) SelectF054 Time DelayF055 Input #3 (InP3) SelectF056 Time DelayF057 Analog Input #1 Name3. Analog InputsF060F061F062F063Analog Input #1 (AnA1)4mAAnalog Input #1 (AnA1)20mAAnalog Input #1 AlarmLevelAnalog Input #1 Alarm TimeDelayAnalog Input #1 Trip LevelAnalog Input #1 Trip TimeDelayF064 Analog Input #2 1OFF10-99991010-99991999910,1-9999 [0: OFF; 1-9999 trip level]1OFF11-60 (Sec)1110,1-9999 [0: OFF; 1-9999 trip level]1OFF11-60 (Sec)1110-5[0: OFF;1: Analog Input #2 (AnA2);2: Oscillation #2 (oSC2);3: Air Flow #2 (AFL2);4: Speed #2 (SPd2);5: Pressure #2 (PrS2).]1OFF10-99991010-99991999910,1-9999 [0: OFF; 1-9999 trip level]1OFF11-60 (Sec)1110,1-9999 [0: OFF; 1-9999 trip level]1OFF10-2 [0: Disabled; 1: Normally Open; 2:Normally Closed]1-60 (Sec)0-2 [0: Disabled; 1: Normally Open; 2:Normally Closed]1-60 (Sec)0-2 [0: Disabled; 1: Normally Open; 2:Normally Closed]1-60 (Sec)0-5[0: OFF;1: Analog Input #1 (AnA1);2: Oscillation #1 (oSC1);3: Air Flow #1 (AFL1);4: Speed #1 (SPd1);5: Pressure #1 (PrS1).]F052 Time DelayF059DefaultSettingAdj. RangeF051 Input #1 (InP1) SelectF058Incr.FunctionAnalog Input #2 (AnA2)4mAAnalog Input #2 (AnA2)20mAAnalog Input #2 AlarmLevelAnalog Input #2 Alarm TimeDelayAnalog Input #2 Trip LevelNote: See parameter Fn95 first to change between ºC and ºF.www.motortronics.comPage 14
MotortronicsGrpRTD#Fn#4. Analog OutputF070FunctionAnalog Input #2 TripTime DelayF071 Analog OutputF072 Analog Output 4mA9. RTC8. Comm.7. Relay Settings6. Differential CTs5. DeviceSettingF073 Analog Output 20mAF074Unit Internal AlarmTemperatureF075 ReservedDifferential CT AlarmF076LevelF077 Alarm Time DelayAdj. Range1-60 (Sec)0-6[0: OFF;1: Hottest Stator RTD Temperature;2. Hottest Non-Stator RTD Temperature;3. Analog Input #1 (AnA1);4: Analog Input #2 (AnA2);5: Unit Internal Temperature;6: Highest Differential Phase Current. 90 or 1 (85(C)[ 185(F)][OFF, 85(C) 185(F)]199991185C/185F1----OFF, 5-90 (% of CT Primary)5OFF11-60 (Sec)111F078 Differential CT Trip Level OFF, 5-90 (% of CT Primary)5OFF1F079 Trip Time Delay1-60 (Sec)111F080 Differential CT PrimaryDifferential CTF081SecondaryOFF, 5-2000 (A)5OFF21,5 (A)452F082 Relay 1 settingOperation # 19 only1F083 Relay 2 settingOperation # 1 – 191F084 Relay 3 settingOperation # 1 – 191F086 Baud Rate0-2 [0 OFF;1 Enabled(11bit) communication only;2 Enabled(10bit) comm. only;]9.6, 19.2 and 38.4F087 Modbus Address1 - 247F088 Year2000 - 2047F089 Month1-12F090 DayF091 HourF092 MinuteF093 SecondsF085 Communications19 (AnyTrip)9 (AnyAlarm)13(DigitalInput #1Trip)1111OFF2-9.621121 Year-11 Month-11-311 Day-10 - 231 Hour-10 - 591 Min.-10 - 591 Sec.-1Note: See parameter Fn95 first to change between ºC and ºF.www.motortronics.comPage 15
Motortronics11. Relay config.10. DisplayGrpRTD#Fn#12. System SettingsAdj. RangeIncr.DefaultSettingPSWLevelF094 Default Display0-34 [0: Auto Scroll RTD Screens; 1-34: SeeTable of this Function]112F095 Unit of Temperature0-1 [0: C Celsius; 1: F Fahrenheit.]102F096 Relay 1 Fail Safe0-1 [0 Disabled; 1 Enabled.]102F097 Relay 2 Fail Safe0-1 [0 Disabled; 1 Enabled.]102F098 Relay 3 Fail Safe0-1 [0 Disabled; 1 Enabled.]0-3[0 Disabled;1 Energize Relay #1 for 5 seconds;2 Energize Relay #2 for 5 seconds;3 Energize Relay #3 for 5 seconds;]10210210(Showencrypted code)1101F099 Relay TestF10013. Rev.FunctionParameter Lock/ Level 1 0, 001 – 999 [0 Disabled,PasswordNumber Password]0, 1 – 4 [0 Disabled;1 Clear Highest Temperature.2 Reset Factory Default Settings inSystem Clear / Factorycategory of Level 1 Password. Level 1F101 Reset (TBD) (ResetFactory Default Settings) Password required.3 Reset Factory Default Settings incategories of Level1 and Level 2 Password.Level 2 Password required.4 Reserved. ]F102 Level 2 Password2000 – 999912000(Showencrypted code)2F103 Reserved----F104 RTD12 Revision #---F105 KP Revision #---F106 RTD-INF Revision #---Note: See parameter Fn95 first to change between ºC and ºF.www.motortronics.comPage 16
MotortronicsGrpRTD#Fn#Fault History #1, LatestFaultAlarm / Trip Level (ifF108available)F107F110 Date Stamp, Fault #114. Fault HistoryIncr.DefaultSetting0, 31 – 50 (Fault #: see Fault code list; 0: Nofault 0.0101.0110--00.0100.0000.0101.01EST 00.00-23.59 (hh.mm)[hh 00-23; mm 00-59]01.01 – 12.31 (MM.DD)[MM 01-12; DD 01-31]0, 31 – 50 (Fault #: see Fault code list; 0: Nofault history)F109 Time Stamp, Fault #1Fault History #2,Previous FaultAlarm / Trip Level (ifF112available)F111--EST 00.00-23.59 (hh.mm)[hh 00-23; mm 00-59]01.01 – 12.31 (MM.DD)[MM 01-12; DD 01-31]0, 31 – 50 (Fault #: see Fault code list; 0: Nofault history)F113 Time Stamp, Fault #2F114 Date Stamp, Fault #2Fault History #3, OldestFaultAlarm / Trip Level (ifF116available)F115--EST 00.00-23.59 (hh.mm)[hh 00-23; mm 00-59]01.01 – 12.31 (MM.DD)[MM 01-12; DD 01-31]0-447 [0: Null Rec; Others 1 – 447: Rec ofCycling Buffer. 4 parameters per Rec]1-447 [Point to the Rec in Cycling Buffer.Total 447 Rec. 4 parameters per Rec]F117 Time Stamp, Fault #3F118 Date Stamp, Fault #3Present Event RecordNumberSelect Event RecordF120 Number[tonavigate the record]F11915. Event RecordAdj. RangeFunctionPSWLevel21st parameter in Rec. (See Fault Code List forfault code definitions.)F121 Fault CodeF122Alarm / Trip Level (ifavailable)2ndF123Time Stamp of SelectedEvent RecordF124Date Stamp of SelectedEvent Record3rd: 00.00-23.59 (hh.mm)[hh 00-23; mm 00-59]4th (last): 01.01 – 12.31 (MM.DD)[MM 01-12; DD 01-31]Note: See parameter Fn95 first to change between ºC and ºF.Table 3www.motortronics.comPage 17
Motortronics2.2 Parameter Detailed Explanation2.2.1 RTD SettingsF001 - STATOR PHASE A1 TYPE SELECTION (0 – 4), Default Setting: 0 - OFFSelect RTD #1 TypeSetting01234TypeOFF100 Ohm Pt (Platinum RTD)10 Ohm Cu (Copper RTD)100 Ohm Ni (Nickel RTD)120 Ohm Ni (Nickel RTD)F002 - RTD #1 DESCRIPTION SELECTIONSelect RTD Description Selection (0 – 1), Default Setting: 0 – Stator #1 (StA1)Setting01AssignmentStator #1 (StA1)RTD #1 (rt 1)F003 - RTD #1 STATOR PHASE A1 ALARM TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature Alarm Level. When the RTD temperature reaches this alarm level, “ALAr St 1” or“ALAr rt 1” is shown on the keypad display. The Level can be programmed in Celsius or Fahrenheit dependingon the setting of F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F004 - RTD #1 STATOR PHASE A1 TRIP TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature trip Level. When the RTD temperature reaches this trip level, “triP St 1” or “triP rt 1” isshown on the keypad display. The Level can be programmed in Celsius or Fahrenheit depending on the settingof F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)www.motortronics.comPage 18
MotortronicsF005 - STATOR PHASE A1 TYPE SELECTION (0 – 4), Default Setting: 0 - OFFSelect RTD #2 TypeSetting01234TypeOFF100 Ohm Pt (Platinum RTD)10 Ohm Cu (Copper RTD)100 Ohm Ni (Nickel RTD)120 Ohm Ni (Nickel RTD)F006 - RTD #2 DESCRIPTION SELECTIONSelect RTD Description Selection (0 – 1), Default Setting: 0 – Stator #2 (StA2)Setting01AssignmentStator #2 (StA2)RTD #2 (rt 2)F007 - RTD #2 STATOR PHASE A2 ALARM TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature Alarm Level. When the RTD temperature reaches this alarm level, “ALAr St 2” or“ALAr rt 2” is shown on the keypad display. The Level can be programmed in Celsius or Fahrenheit dependingon the setting of F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F008 - RTD #2 STATOR PHASE A2 TRIP TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature trip Level. When the RTD temperature reaches this trip level, “triP St 2” or “triP rt 2”isshown on the keypad display. The Level can be programmed in Celsius or Fahrenheit depending on the settingof F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F009 - STATOR PHASE A3 TYPE SELECTION (0 – 4), Default Setting: 0 - OFFSelect RTD #3 TypeSetting01234TypeOFF100 Ohm Pt (Platinum RTD)10 Ohm Cu (Copper RTD)100 Ohm Ni (Nickel RTD)120 Ohm Ni (Nickel RTD)www.motortronics.comPage 19
MotortronicsF010 - RTD #3 DESCRIPTION SELECTIONSelect RTD Description Selection (0 – 1), Default Setting: 0 – Stator #3 (StA3)Setting01AssignmentStator #3 (StA3)RTD #3 (rt 3)F011 - RTD #3 STATOR PHASE A3 ALARM TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature Alarm Level. When the RTD temperature reaches this alarm level, “ALAr St 3” or“ALAr rt 3”is shown on the keypad display. The Level can be programmed in Celsius or Fahrenheit dependingon the setting of F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F012 - RTD #3 STATOR PHASE A3 TRIP TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature trip Level. When the RTD temperature reaches this trip level, “triP St 3” or “triP rt 3” isshown on the keypad display. The Level can be programmed in Celsius or Fahrenheit depending on the settingof F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F013 - STATOR PHASE A4 TYPE SELECTION (0 – 4), Default Setting: 0 - OFFSelect RTD #4 TypeSetting01234TypeOFF100 Ohm Pt (Platinum RTD)10 Ohm Cu (Copper RTD)100 Ohm Ni (Nickel RTD)120 Ohm Ni (Nickel RTD)F014 - RTD #4 DESCRIPTION SELECTIONSelect RTD Description Selection (0 – 1), Default Setting: 0 – Stator #4 (StA4)Setting01AssignmentStator #4 (StA4)RTD #4 (rt 4)F015 - RTD #4 STATOR PHASE A4 ALARM TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature Alarm Level. When the RTD temperature reaches this alarm level, “ALAr St 4” or“ALAr rt 4”is shown on the keypad display. The Level can be programmed in Celsius or Fahrenheit dependingon the setting of F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)www.motortronics.comPage 20
MotortronicsF016 - RTD #4 STATOR PHASE A4 TRIP TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature trip Level. When the RTD temperature reaches this trip level, “triP St 4” or “triP rt 4”isshown on the keypad display. The Level can be programmed in Celsius or Fahrenheit depending on the settingof F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F017 - STATOR PHASE A5 TYPE SELECTION (0 – 4), Default Setting: 0 - OFFSelect RTD #5 TypeSetting01234TypeOFF100 Ohm Pt (Platinum RTD)10 Ohm Cu (Copper RTD)100 Ohm Ni (Nickel RTD)120 Ohm Ni (Nickel RTD)F018 - RTD #5 DESCRIPTION SELECTIONSelect RTD Description Selection (0 – 1), Default Setting: 0 – Stator #5 (StA5)Setting01AssignmentStator #5 (StA5)RTD #5 (rt 5)F019 - RTD #5 STATOR PHASE A5 ALARM TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature Alarm Level. When the RTD temperature reaches this alarm level, “ALAr St 5” or“ALAr rt 5”is shown on the keypad display. The Level can be programmed in Celsius or Fahrenheit dependingon the setting of F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F020 - RTD #5 STATOR PHASE A5 TRIP TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature trip Level. When the RTD temperature reaches this trip level, “triP St 5” or “triP rt 5”isshown on the keypad display. The Level can be programmed in Celsius or Fahrenheit depending on the settingof F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)www.motortronics.comPage 21
MotortronicsF021 - STATOR PHASE A6 TYPE SELECTION (0 – 4), Default Setting: 0 - OFFSelect RTD #6 TypeSetting01234TypeOFF100 Ohm Pt (Platinum RTD)10 Ohm Cu (Copper RTD)100 Ohm Ni (Nickel RTD)120 Ohm Ni (Nickel RTD)F022 - RTD #6 DESCRIPTION SELECTIONSelect RTD Description Selection (0 – 1), Default Setting: 0 – Stator #6 (StA6)Setting01AssignmentStator #6 (StA6)RTD #6 (rt 6)F023 - RTD #6 STATOR PHASE A6 ALARM TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature Alarm Level. When the RTD temperature reaches this alarm level, “ALAr St 6” or“ALAr rt 6”is shown on the keypad display. The Level can be programmed in Celsius or Fahrenheit dependingon the setting of F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F024 - RTD #6 STATOR PHASE A6 TRIP TEMPERATURE (0 – 464), Default Setting: OFFSet RTD Temperature trip Level. When the RTD temperature reaches this trip level, “triP St 6” or “triP rt 6”isshown on the keypad display. The Level can be programmed in Celsius or Fahrenheit depending on the settingof F095.Range 0 – 240 Degrees Celsius (F095 0)Range 32 – 464 Degrees Fahrenheit (F095 1)F025 – FRONT BEARING TYPE SELECTION (0 – 4), Default Setting: 0 - OFFSelect RTD #7 TypeSetting01234TypeOFF100 Ohm Pt (Platinum RTD)10 Ohm Cu (Copper RTD)100 Ohm Ni (Nickel RTD)120 Ohm Ni (Nickel RTD)www.motortronics.comPage 22
MotortronicsF026 - RTD #7 DESCRIPTION SELECTIONSelect RTD Description Selection (0 – 1), Default Setting: 0 – Front Bearing (
Motortronics www.motortronics.com Page 7 1.4 Keypad 1.4.1 Layout and Description The Keypad for the TE-RDT12 Relay incorporates an 8 digit LED display, a membrane keypad for programming, data entry and data retrieval. There are also 6 LED status indicators. Reset Fn Enter Relay 1 Relay 2 Relay 3 OK ALARM TRIP TE-RTD12 Relay TE- RTD12 Keypad
