7 ZAB - UN6080 Signal and Parameter List v2.0.00 PDF
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Description
ABB
®
UNITROL 60 6080 80 Sign Signal al and Parameter Parameter L Lis istt
Document No. Revision Status Date Software Release
3BHS259827 E05 Rev. 10 / 2010 v2.0.00
ABB
Display si gnals / parameters on the SCP (Service (Service Contr Control ol Panel): Panel):
Main Display
Main Menu
Submenu
80.1 AVR
LOC 1
200.0 V Syn 10.00 A Exc 100.0 V Exc SETPT
12:45
ME NU
LOC 1
▼ ▼
MAIN MENU---------1
PARAMETERS EVENT LOGGER CLOCK SET EXIT
12:45
LOC 1
ENTER
PAR GROUPS ------99
▼
99 Op_Cmd
▼
100 SystemParam SystemParameter eter
▼
01 Reg_Regulator_In
▼
02 Reg_AVR
▼
03 Reg_SCLim_In EXIT
SEL
Display sig nals / parame parameters ters on t he E ECT CT (Exci (Exci tation Cont rol Te Termi rmi nal): Touch Parameters
Parameter toolbar top line after touching Parameters the first time
•
The parameters/signals are live data from a Channel (Control), source CH1. Remark: The table lines are white – grey
Open snapshot Create snapshot: UPLOAD UPLOAD
2
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
FastCommMonRamp
FastCommMonRamp
"Fast ramp-up signal for Control Terminal (CT) communication monitoring.This signal is incremented by the Excitation Control Terminal (ECT) every 0.1second."
INT
0
0
65535
BreakerConfigWord
In.Brk_Breaker
Breaker configuration word, defines number and types (AC/DC) of used breakers; -0.NoBreaker: This value is set for an excitation system without any breakers. -1.FB1DC:
INT
0
0
100
15
1
s
0
0
10
15
20
bool
0
0
1
15
14
Defines a breaker control with 1 DC field breaker. -2.FB1ACprim: Defines a breaker control with 1 AC field breaker on the primary side of the transformer. -3.FB1ACsec: Defines a breaker control with 1 AC field breaker on the secondary side of the transformer. -4.FB1AC&SO, FB2AC&SO: Defines a breaker control with 2 AC field breakers which must be separately configured in the BreakerGroup1 and BreakerGroup2 modules. This configuration provides switchover functionality between the two AC breakers. For m ore details see BreakerSwitchOver module. -5.FB1ACSO, FB2ACSO, FB3AC: Defines a breaker control with 3 AC field breakers. Two of them must be separately configured in the BreakerGroup1 and BreakerGroup2 modules. This configuration provides switchover functionality between two AC breakers. For more details see BreakerSwitchOver module. The third AC breaker must be configured in BreakerGroup3. -6.FB1ACSO, FB2ACSO, FB3DC: Defines a breaker control with 2 AC field breakers and 1 DC field breaker. The two AC breakers must be separately configured in the BreakerGroup1 and BreakerGroup2 modules. This configuration provides switchover functionality between the two AC breakers. For m ore details see BreakerSwitchOver module. The DC breaker must be configured in BreakerGroup3.
EngageTime
In.Brk_Breaker
SelectBreaker2
In.Brk_Breaker
3
-100 has to be used if software is operating the SMTS-RT breaker (SMTS = Synchronous Machine Transient Simulator) Breaker engage time [s] After switching off the breaker, it has has to be set in starting position for the next sw switching itching on process SelectBreaker2=TRUE and BreakerConfigWord=(4 or 5 or 6), Breaker 2 is preselected SelectBreaker2=FALSE and BreakerConfigWord=(4 or 5 or 6), Breaker 1 is preselected
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
AnaInTemp2_Type
In.Meas_CIO1
"CIO 1 Temperature sens sensor or type analog input 2. TRUE: PT100 FALSE: PTC"
bool
1
0
1
13
6
AnaInTemp3_Filter_Freq
In.Meas_CIO1
"CIO 1 Temperature inpu inputt 3 first order lowpass cutoff fre frequency quency value The 3 db point of the cutoff frequency is between between the two limits 0.063 and 2067 Hz"
Hz
1
0.1
2067
13
9
AnaInTemp3_Type
In.Meas_CIO1
"CIO 1 Temperature sens sensor or type analog input 3. TRUE: PT100 FALSE: PTC"
bool
1
0
1
13
8
EnableFreeze
In.Meas_CIO1
"CIO 1 Freeze outputs TRUE = Freeze FALSE = Reset Enable freeze is used to enable the freeze functionality of the CIO software . If the function is enabled, the CIO keeps its outputs (analog/digital outputs) in case of CIO any link fault in the ""old"" position as they were before. If the function is not enabled, the output goes to zero."
bool
0
0
1
13
12
EnableRebootCmd
In.Meas_CIO1
Enables CIO 1 Reboot Command
bool
0
0
1
13
23
EnableTestMode
In.Meas_CIO1
Enable the CIO Analog and Digital Output Test Mode
bool
0
0
1
The CIO Test Mode applies a sawtooth at all three analogue outputs of the CIO from 10V to 10V with a frequency of 0.162Hz. Each digital output of the CIO will be forced to true and back to false for 5s in the Test Mode. This Test Mode can only be activated in the AuxReady State of the StateMachine. EnaTempSens1FaultDetection
In.Meas_CIO1
"CIO 1 Enables temperature input 1 fault detection PT100 - Sensor circuit open >216°C - Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt"
bool
0
0
1
13
19
EnaTempSens2FaultDetection
In.Meas_CIO1
"CIO 1 Enables temperature input 2 fault detection PT100 - Sensor circuit open >216°C - Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt"
bool
0
0
1
13
20
EnaTempSens3FaultDetection
In.Meas_CIO1
"CIO 1 Enables temperature input 3 fault detection PT100 - Sensor circuit open >216°C - Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt"
bool
0
0
1
13
21
10
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
EnableRebootCmd
In.Meas_CIO2
Enables CIO 2 Reboot Command
bool
0
0
1
EnableTestMode
In.Meas_CIO2
Enable the CIO Analog and Digital Output Test Mode
bool
0
0
1
SCPG SCPGrp rp SC SCPS PSig ig 13
51
The CIO Test Mode applies a sawtooth at all three analogue outputs of the CIO from 10V to 10V with a frequency of 0.162Hz. Each digital output of the CIO will be forced to true and back to false for 5s in the Test Mode. This Test Mode can only be activated in the AuxReady State of the StateMachine. EnaTempSens1FaultDetection
In.Meas_CIO2
"CIO 2 Enables temperature input 1 fault detection PT100 - Sensor circuit open >216°C - Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt"
bool
0
0
1
13
47
EnaTempSens2FaultDetection
In.Meas_CIO2
"CIO 2 Enables temperature input 2 fault detection PT100 - Sensor circuit open >216°C
bool
0
0
1
13
48
- Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt" EnaTempSens3FaultDetection
In.Meas_CIO2
"CIO 2 Enables temperature input 3 fault detection PT100 - Sensor circuit open >216°C - Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt"
bool
0
0
1
13
49
ForceTrip
In.Meas_CIO2
"Force CIO 2 Trip Forces CIO Trip can be used to check the system behavior, if the IO fails"
bool
0
0
1
13
39
RebootDevice
In.Meas_CIO2
bool
0
0
1
13
50
ResetFaults
In.Meas_CIO2
"Reboot CIO 2 This command is released only if the respective parameter ""EnableRebootCmd"" is True" "Reset CIO 2 faults Resets all Alarms & Faults stored in CIO 2. Note:There is no Event written into fault logger"
bool
0
0
1
13
38
IsAlarmWord
In.Meas_CIO2Faults
"Assigns CIO 2 Events to Alarm This parameter should not be changed"
bitwise
3872
IsRedundancyFaultWord IsRedundancyFaul tWord
In.Meas_CIO2Faults
"Assigns CIO 2 Events to RedundancyFault This parameter should not be changed"
bitwise
6
IsTripWord
In.Meas_CIO2Faults
"Assigns CIO 2 Events to CIO Trip This parameter should not be changed"
bitwise
217
AnaIn1_Filter_Freq
In.Meas_CIO3
"CIO 3 Analog input 1 ffirst irst order lowpass cutoff frequency frequency value The 3 db point of the cutoff frequency is between between the two limits 0.063 and 2067 Hz"
Hz
10
0.06
2067
14
1
12
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
AnaInTemp2_Type
In.Meas_CIO4
"CIO 4 Temperature sens sensor or type analog input 2. TRUE: PT100 FALSE: PTC"
bool
1
0
1
14
34
AnaInTemp3_Filter_Freq
In.Meas_CIO4
"CIO 4 Temperature inpu inputt 3 first order lowpass cutoff fre frequency quency value The 3 db point of the cutoff frequency is between between the two limits 0.063 and 2067 Hz"
Hz
1
0.06
2067
14
37
AnaInTemp3_Type
In.Meas_CIO4
"CIO 4 Temperature sens sensor or type analog input 3. TRUE: PT100 FALSE: PTC"
bool
1
0
1
14
36
EnableFreeze
In.Meas_CIO4
"CIO 4 Freeze outputs Enable freeze is used to enable the freeze freeze functionality functionality of the CIO software . If the function is enabled, the CIO keeps its outputs (analog/digital outputs) in case of CIO any link fault in the ""old"" position as they were before."
bool
0
0
1
14
40
EnableRebootCmd
In.Meas_CIO4
Enables CIO 4 Reboot Command
bool
0
0
1
14
51
EnableTestMode
In.Meas_CIO4
Enable the CIO Analog and Digital Output Test Mode
bool
0
0
1
The CIO Test Mode applies a sawtooth at all three analogue outputs of the CIO from 10V to 10V with a frequency of 0.162Hz. Each digital output of the CIO will be forced to true and back to false for 5s in the Test Mode. This Test Mode can only be activated in the AuxReady State of the StateMachine. EnaTempSens1FaultDetection
In.Meas_CIO4
"CIO 4 Enables temperature input 1 fault detection PT100 - Sensor circuit open >216°C - Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt"
bool
0
0
1
14
47
EnaTempSens2FaultDetection
In.Meas_CIO4
"CIO 4 Enables temperature input 2 fault detection PT100 - Sensor circuit open >216°C - Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt"
bool
0
0
1
14
48
EnaTempSens3FaultDetection
In.Meas_CIO4
"CIO 4 Enables temperature input 3 fault detection PT100 - Sensor circuit open >216°C - Sensor circuit shorten < -44°C PTC - < 20 Ohm -> Sensor Fau Fault" lt"
bool
0
0
1
14
49
ForceTrip
In.Meas_CIO4
"Force CIO 4 Trip Forces CIO Trip can be used to check the system behavior, if the IO fails"
bool
0
0
1
14
39
15
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
RebootDevice
In.Meas_CIO4
ResetFaults
In.Meas_CIO4
IsAlarmWord
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
"Reboot CIO 4 This command is released only if the respective parameter ""EnableRebootCmd"" is True" "Reset CIO 4 faults Resets all Alarms & Faults stored in CIO 4. Note:There is no Event written into fault logger"
bool
0
0
1
14
50
bool
0
0
1
14
38
In.Meas_CIO4Faults
"Assigns CIO 4 Events to Alarm This parameter should not be changed"
bitwise
3872
IsRedundancyFaultWord IsRedundancyFaul tWord
In.Meas_CIO4Faults
"Assigns CIO 4 Events to RedundancyFault This parameter should not be changed"
bitwise
6
IsTripWord
In.Meas_CIO4Faults
"Assigns CIO 4 Events to CIO Trip This parameter should not be changed"
bitwise
217
CIOConfigWord
In.Meas_CIOConfig
"Input/Output device configuration configuration word. 0 = not configured 1 = CIO1 used only, 3 = CIO1 and CIO2 used, 5 = CIO1 and CIO3 used,
bitwise
1
0
255
11
33
7 = CIO1, CIO3 15 = CIO1, CIO2 CIO2,and CIO3 andused, CIO4 used, 31 = CIO1, CIO2, CIO3 and CIO4 used used and CIO1 redundant, redundant, 63 = CIO1, CIO2, CIO3 and CIO4 used used and CIO1 and and CIO2 redundant, redundant, 127 = CIO1, CIO2, CIO3 and CIO4 used and CIO1, CIO2 and CIO3 redundant, 255 = CIO1, CIO2, CIO3 and CIO4 used and CIO1, CIO2, CIO3 and CIO4 redundant Boot parameter. Value can only be changed in the Configuration sequence."
EnableRebootCmd
In.Meas_CIOConfig
Releases Reboot all CIO Command
bool
0
0
1
11
38
RebootCIOs
In.Meas_CIOConfig
"Reboot all converter interface boards SW-command to reboot all connected CIO's. This command is executed only, if the parameter ""Meas_CIOConfig\EnableRebootCmd"" is set to True"
bool
0
0
1
11
37
ResetFaults
In.Meas_CIOConfig
"Reset all Alarms & Faults, stored in the different CIO's. Note:There is no event written into fault logger"
bool
0
0
1
11
34
IBusMeasCon
In.Meas_SysMeasConfig In.Meas_SysMeasConfig
"Ibus measurement configuration configuration.. Only applicable if # of measured machine phases is limited to maximum of 2. 0=disabled (no bus current measurement) 1=CT input 3 connected to IGridR, 2=CT input 3 connected to IGridS, 3=CT input 3 connected to IGridT,"
INT
0
0
3
11
32
IMachMeasCon
In.Meas_SysMeasConf In.Meas_SysMeasConfig ig
"Imach measurement configuration. 1=ImachR, ImachS, ImachT, phase#1, #2, #3. 2=ImachS, ImachT, ImachR, phase#1, #2, #3. 3=ImachT, ImachR, ImachS, phase#1, #2, #3."
INT
1
1
3
11
30
16
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name SelCIOAnaOut2Signal
Qualifie Qualified d Name Name In.Meas_TransientRecorder In.Meas_TransientRecorder
Description Description
Un Unit it
Signal Selector. Select signal for CIO1 Analog Output 2.
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
INT
0
0
65535
12
43
INT
0
0
65535
12
46
INT
0
0
10
12
41
0: CIT else: SOAP Id of desired signal SelCIOAnaOut3Signal
In.Meas_TransientRecorder In.Meas_TransientRecorder
Signal Selector. Select signal for CIO1 Analog Output 3. 0: CIT else: SOAP Id of desired signal
SelTestSigIn
In.Meas_Transien In.Meas_TransientRecorder tRecorder
Signal Selector. Select Test Signal for CIO1 Analog Input 1. 0: disabled 1: AVR Summingpoint additive input --> Proposed setting: [5V/pu] 2: MAN Summingpoint additive input --> Proposed setting: [5V/pu] 3: Uc additive input (set to Uc fixed 0 for exclusive input) --> Proposed setti setting: ng: [1V/pu] 4: PSS P exclusive input --> Proposed setting setting:: [10V/pu] 5: White Noise additive to AVR Summingpoint 6: PSS fEp exclusive input [10V/pu] 7: Fast If Input for slip frequency measurement 8: If exclusive input [3V/pu] (Replaces MEAS URED excitation-current by analog Input Signal (only active if parameter "Conv_Converter1.EnableSMTSIf" "Conv_Converter1.EnableSMTSIf" is true) 9: Slip Measurement AND If exclusive input 10: RMS Measurement
SupervisionPMax
In.Meas_Transien In.Meas_TransientRecorder tRecorder
Signal Selector. Supervision Parameter to cancel signal injection
pu
0
-10
10
12
52
SupervisionPMin
In.Meas_Transien In.Meas_TransientRecorder tRecorder
Signal Selector. Supervision Parameter to cancel signal injection
pu
0
-10
10
12
51
SupervisionQMax
In.Meas_Transien In.Meas_TransientRecorder tRecorder
Signal Selector. Supervision Parameter to cancel signal injection
pu
0
-10
10
12
54
SupervisionQMin
In.Meas_Transien In.Meas_TransientRecorder tRecorder
Signal Selector. Supervision Parameter to cancel signal injection
pu
0
-10
10
12
53
SupervisionUgMax
In.Meas_TransientRecorder In.Meas_TransientRecorder
Signal Selector. Supervision Parameter to cancel signal injection
pu
0
-10
10
12
50
SupervisionUgMin
In.Meas_TransientRecorder In.Meas_TransientRecorder
Signal Selector. Supervision Parameter to cancel signal injection
pu
0
-10
10
12
49
TestSigInLimit
In.Meas_Transien In.Meas_TransientRecorder tRecorder
Signal Selector. Limitation for input Test Signal
pu
0
-10
10
12
42
TestSigInScaleFactor
In.Meas_Transien In.Meas_TransientRecorder tRecorder
Signal Selector. Scaling factor for corresponding AI signal
p.u./V
0.01
327.6 7
12
40
WhiteNoiseLowFreqGain
In.Meas_Transien In.Meas_TransientRecorder tRecorder
Low frequency gain for white noise injection
--
1
327.6 8 0
100
12
2
20
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
CancelTR
In.Meas_TransientRecorder. TraRecControl
Transient Recorder Cancel recording for UN6080 Transient Recorder
0
0
1
12
1
TrigTR
In.Meas_TransientRecorder. TraRecControl
Trigger Command Signal for CCM6080 Transient Recorder
0
0
1
12
39
BaudRate
In.OpSel_Fieldbus
Modbus RTU Baud Rate
0
0
4
20
47
INT
0: 9600 1: 19200 2: 38400 3: 57600 4: 115200 CommFaultTime
In.OpSel_Fieldbus
Engineered Fieldbus Communication monitoring timeout time
s
5
0
600
20
19
DynamicIP
In.OpSel_Fieldbus
"Modbus TCP TRUE = Dynamic IP (DHCP) FALSE = Static IP"
bool
0
0
1
20
34
EnableCommMon
In.OpSel_Fieldbus
Enables the engineered fieldbus communication monitoring function. Only applicable if Fieldbus is part of the scope. Engineering work has to be done in order to connect the signals for communication monitoring.
bool
0
0
1
20
18
INT
FIGNodeAddress
In.OpSel_Fieldbus
Profibus DP Node Address
FIGType
In.OpSel_Fieldbus
"FIG module type 1 = FPBA (Fieldbus DP) 5 = FENA (Modbus TCP) 9 = FSCA (Modbus RTU)"
0
0
126
20
31
0
0
31
20
33
GWAddress1
In.OpSel_Fieldbus
"Modbus TCP Gateway Address First part of gateway address"
INT
0
0
255
20
40
GWAddress2
In.OpSel_Fieldbus
"Modbus TCP Gateway Address Second part of gateway address"
INT
0
0
255
20
41
GWAddress3
In.OpSel_Fieldbus
"Modbus TCP Gateway Address Third part of gateway address"
INT
0
0
255
20
42
GWAddress4
In.OpSel_Fieldbus
"Modbus TCP Gateway Address Fourth part of gateway address"
INT
0
0
255
20
43
IPAddress1
In.OpSel_Fieldbus
"Modbus TCP IP Address First part of IP address"
INT
0
0
255
20
35
IPAddress2
In.OpSel_Fieldbus
"Modbus TCP IP Address Second part of IP address"
INT
0
0
255
20
36
IPAddress3
In.OpSel_Fieldbus
"Modbus TCP IP Address Third part of IP address"
INT
0
0
255
20
37
IPAddress4
In.OpSel_Fieldbus
"Modbus TCP IP Address Fourth part of IP address"
INT
0
0
255
20
38
21
UNITROL 6080 Signal and Parameter List v2.0.00
3BHS259827 E05
ABB Signals and Parameters Parameters Name Name Parity
Qualifie Qualified d Name Name In.OpSel_Fieldbus
Description Description
Un Unit it
Modbus RTU Parity
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
INT
0
0
3
20
45
44
0: NONE - 1 Stop Bit 1: NONE - 2 Stop Bits 2: EVEN - 1 Stop Bit 3: ODD - 1 Stop Bit ReconfigureFIG
In.OpSel_Fieldbus
"Reconfigure the FIG module"
bool
0
0
1
20
StationID
In.OpSel_Fieldbus
Modbus RTU Station ID
INT
1
1
247
20
46
SubnetCIDR
In.OpSel_Fieldbus
"Modbus TCP Subnet Mask CIDR code: 31 255.255.255. 255.255.255.254 254 30 255.255.255. 255.255.255.252 252 29 255.255.255. 255.255.255.248 248 28 255.255.255. 255.255.255.240 240 27 255.255.255. 255.255.255.224 224 26 255.255.255. 255.255.255.192 192 25 255.255.255. 255.255.255.128 128 24 255.255.255.0 23 255.255.254.0 22 255.255.252.0 21 255.255.248.0 20 255.255.240.0 19 255.255.224.0 18 255.255.192.0 17 255.255.128.0 16 255.255.0.0"
INT
16
0
31
20
39
bool
0
0
1
20
12
bool
1
0
1
20
11
s
10
0
200
20
29
s
30
0
600
20
30
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
255.254.0.0 255.252.0.0 255.248.0.0 255.240.0.0 255.224.0.0 255.192.0.0 255.128.0.0 255.0.0.0 254.0.0.0 252.0.0.0 248.0.0.0 240.0.0.0 224.0.0.0 192.0.0.0 128.0.0.0
EnableCommMon
In.OpSel_Local
EnableLocalCTOperator
In.OpSel_Local
FastCommMonTimeoutTime
In.OpSel_Local
"Enables the local Excitation Control Terminal (ECT) communication monitoring function. Releases control if communication is broken, therefore is shall be set to true if local ECT is part of the scope" Enables the local Excitation Control Terminal (ECT) operation request and release commands. Has to be set to TRUE to enable operation request and release command commands. s. If set to FALSE operation level is not selectable. Local Excitation Control Terminal (ECT) communication monitoring timeout time [s]
SlowCommMonTimeoutTime
In.OpSel_Local
Local Excitation Control Terminal (ECT) communication monitoring timeout time [s]
22
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
Ifskal
In.Prot_OverCurrentMon In.Prot_OverCurrent Mon
Excitation overcurrent monitor. If scale factor
--
1
0
65.53
18
25
Ifstart
In.Prot_OverCurrentMon
Excitation overcurrent monitor. Inverse-time start threshold
pu
1.1
0
65.53
18
28
InstDelay
In.Prot_OverCurrentMo In.Prot_OverCurrentMon n
"Excitation overcurrent monitor. Instantaneous delay InstDelay shall be set to TWIN converter = 6 Tsyn (default) SINGLE converter = 4 Tsyn Tsyn = 1/6 * 1/fsyn"
s
0.02
0
60
18
32
ResetPeak
In.Prot_OverCurrentMon In.Prot_OverCurrentMon
Excitation overcurrent monitor. Resets stored field current peak value
bool
0
0
1
18
26
SelCurve
In.Prot_OverCurrentMon
"Excitation overcurrent monitor - select curve 0: fix delay, 1: normal inverse, t[s]=k*0,14/(I/Itherm)exp0,02-1 t[s]=k*0,14/(I/Itherm)exp0,02-1 2: very inverse, t[s]=k*13,5/(I/ t[s]=k*13,5/(I/Itherm) Itherm) -1 3: extremely inverse, t[s]=k*80/(I/Itherm)exp2 t[s]=k*80/(I/Itherm)exp2 -1"
--
3
0
3
18
30
ThermalDownTime
In.Prot_OverCurrentMon In.Prot_OverCurrentMon
Excitation overcurrent monitor. Inverse-time back-integrati back-integration on time
s
100
0
6553.
18
33
18
29
TimeMaxFieldCurrent
In.Prot_OverCurrentMo In.Prot_OverCurrentMon n
Excitation overcurrent monitor. Time max field current
s
12.5
0
5 655.3 5
For this time the maximum field current from the max field current limiter settings is allowed. With this time the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((MaxFieldCurrent/Ifstart)^2)-1)*TimeMax k=((((MaxFieldCurrent/I fstart)^2)-1)*TimeMaxFieldCurrent)/80; FieldCurrent)/80; Very inverse (2): k=(((MaxFieldCurrent/Ifstart)-1)*TimeMaxField k=(((MaxFieldCurrent/If start)-1)*TimeMaxFieldCurrent)/13.5; Current)/13.5; Normal inverse (1): k=((((MaxFieldCurrent/Ifstart)^0.02)-1) k=((((MaxFieldCurrent/I fstart)^0.02)-1)*TimeMaxFieldCurrent)/0.1 *TimeMaxFieldCurrent)/0.14; 4; Make sure that this time is higher than in the limiter and the same inverse time curve is selected. When inverse time curve 0 (fix time) is selected, this time will be used as the fix time. FaultOnDelayTime
In.Prot_OverVoltageMon In.Prot_OverVoltageMon
On-delay time for overvoltage fault detection
s
10
0
60
19
8
OVDetectionLevel
In.Prot_OverVoltageMon In.Prot_OverVoltageMon
Overvoltage detection level
pu
1.3
0
2
19
7
EnableRedundantSupply EnableRedundantSuppl y
In.Prot_PowerSupplyMon
"Select redundant power supply for each control board. TRUE = Both power supply inputs of the control boards are supervised, FALSE = Each control board supervises only the first power supply input"
bool
0
0
1
19
16
26
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
CTEnaSumMon
In.Prot_Protection
EnableAutoResetOnExtTrip
In.Prot_Protection
EnableAuxSupervision
In.Prot_Protection
EnableConvTempMon
Description Description
Un Unit it
"Setting required if ""EnableMaschin ""EnableMaschineMeasCTMon"" eMeasCTMon"" =TRUE If TRUE, Machine CT Sum Monitor is enabled: Responds if the Vector-Sum of all 3 CTphases is >0.1p.u. >5 ms Not applicable in case 2 machine CT's feed all 3 CT inputs on CCM (open delta connection)" "Enables Automatic Reset after ext. Trip If TRUE General Function released. Set related parameters in group ""Prot_AutoResetOnExtTrip"""
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
bool
1
0
1
16
21
bool
1
0
1
16
35
"Enables Auxiliary Monitoring If TRUE the AuxReady and AuxNotReady DI's are enabled Ref. to EVENT Matrix settings for related action actions" s"
bool
1
0
1
16
15
In.Prot_Protection
"Setting required if ""EnableUsynMon"" =TRUE If TRUE, Synchronous Voltage All Lost Monitor is enabled Responds if the processed machine voltage actual value is 20 m s and the signal drop was ≥12.5p.u./s"
bool
0
0
1
16
31
EnableDiodeMon
In.Prot_Protection
"Enables Diode Monitoring If TRUE General Function released.
bool
0
0
1
16
32
EnableEarthFaultMon
In.Prot_Protection
bool
0
0
1
16
1
EnableExcTrafoMon
In.Prot_Protection
"Enables transformer monitoring If TRUE General Function released. Set related parameters in group ""Prot_ExcTrafoMon"""
bool
0
0
1
16
3
EnableExtSCMon
In.Prot_Protection
"Enables External Short-Circuit Monitoring If TRUE and ""EnableConvFaultDetection"" ""EnableConvFaultDetection"" in this group is TRUE also, then General Function released. Set related parameters in group ""Prot_ConvFaultDetect"": TFCDthreshold ExtSCIfFaultLevel ExtSCUfFaultLevel ExtSCIfCl"
bool
0
0
1
16
13
EnableFireAllTripDet
In.Prot_Protection
"Enables signal for the FireAllTrip detection If TRUE General Function released. Set related parameters in group ""Prot_FireAllTripDet"""
bool
1
0
1
16
66
EnableGenSCdetection
In.Prot_Protection
Enable signal for the Generator short-circuit detection If TRUE Function released.
bool
1
0
1
16
81
28
Set related parameters in group ""Prot_DiodeMon""" "Enables Earth Fault Monitoring If TRUE General Function released. Set related parameters in group ""Prot_EarthFaultMon"""
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
EnableIConvMon
In.Prot_Protection
"Enables Converter Current Sensor Monitoring If TRUE G eneral Function released Set related parameters below: IconvEnaOpAmpCeilMon IconvEnaADCFreezeMon EnaIfExcOnMon"
bool
1
0
1
16
11
EnableMaschineMeasCTMon EnableMaschineMeas CTMon
In.Prot_Protection
"Enables Machine CT Monitoring If TRUE General Function released. Set related parameters below: CTEnaSumMon CTEnaOpAmpCeilMon CTEnaADCFreezeMon CTEnaParaPhaseMon"
bool
1
0
1
16
8
EnableMaschineMeasPTMon EnableMaschineMeas PTMon
In.Prot_Protection
"Enables Machine PT Monitoring If TRUE G eneral Function released Set related parameters below: PTEnaInPhaseMon PTEnaOpAmpCeilMon PTEnaADCFreezeMon PTEnaAllLostMon EnaUgExcOnMon"
bool
1
0
1
16
9
EnableOverCurrMon
In.Prot_Protection
"Enables Excitation Overcurrent Monitoring DC If TRUE General Function released. Set related parameters in group ""Prot_OverCurrentMon"""
bool
1
0
1
16
4
EnableOverVoltageMon
In.Prot_Protection
"Enables Excitation Overvoltage Monitoring If TRUE General Function released. Set related parameters in group ""Prot_OverVoltageMon"""
bool
1
0
1
16
5
EnablePhaseSeqCheck
In.Prot_Protection
"Enables Phase Sequence Check If TRUE G eneral Function is released. Synchronous voltage phase sequence check during ExcOn Sequence"
bool
1
0
1
16
80
EnablePowerSupplyMon
In.Prot_Protection
"Enables Power Supply Monitoring If TRUE G eneral Function released Set related parameters in group ""Prot_PowerSupplyMon"""
bool
1
0
1
16
16
EnablePQMon
In.Prot_Protection
"Enables PQ Monitoring (Loss of Excitation) If TRUE General Function released. Set related parameters in group ""Prot_PQMon"""
bool
0
0
1
16
6
EnableRippleMon
In.Prot_Protection
"Release Ripple Monitoring If TRUE General Function released Set related parameters in group ""Prot_RippleMon"""
bool
1
0
1
16
14
29
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
EnableRotTempMon
In.Prot_Protection
"Enables Rotor Temperature Monitoring If TRUE General Function released. Set related parameters in group ""Prot_RotTempMon"""
bool
0
0
1
16
2
EnableStallMon
In.Prot_Protection
"Enables Stall Monitoring If TRUE General Function released. Set related parameters in group ""Prot_StallMon"""
bool
0
0
1
16
33
EnableTripIndSupOnExtTrip
In.Prot_Protection
"Enables Trip Indication Suppression for ext. Trip If TRUE General Function released. Set related parameters in group ""Prot_TripIndSupOnExtTrip"""
bool
1
0
1
16
34
EnableUfMon
In.Prot_Protection
"Enables Field Voltage Sensing Monitoring If TRUE G eneral Function released Set related parameters below: UfEnaOpAmpCeilMon UfEnaADCFreezeMon"
bool
1
0
1
16
12
EnableUsynMon
In.Prot_Protection
"Enables Synchronous Voltage Monitoring (Converter Input Voltage) If TRUE General Function released.
bool
1
0
1
16
10
Set related parameters below: PTEnaInPhaseMon PTEnaOpAmpCeilMon PTEnaADCFreezeMon PTEnaAllLostMon" EnableVHzMon
In.Prot_Protection
"Enables V/Hz Monitoring If TRUE General Function released. Set related parameters in group ""Prot_VHzMon"""
bool
0
0
1
16
7
EnaIfExcOnMon
In.Prot_Protection
"Enables signal for field current monitoring while ExcOn sequence If TRUE General Function released. Set related parameters in group ""Prot_IfExcOnMon"""
bool
1
0
1
16
63
EnaUgExcOnMon
In.Prot_Protection
"Enables signal for generator votage monitoring while ExcOn sequence If TRUE General Function released. Set related parameters in group ""Prot_UgExcOnMon"""
bool
1
0
1
16
64
IconvEnaADCFreezeMon
In.Prot_Protection
"Setting required if ""EnableIConvMon"" =TRUE If TRUE, Converter Current CT ADC Freeze Monitor is enabled: Responds if any of the 3 ADC output signals is stationary (freez (freezed) ed) for >2 s "
bool
1
0
1
16
25
IconvEnaOpAmpCeilMon
In.Prot_Protection
"Setting required if ""EnableIConvMon"" =TRUE If TRUE, C onverter Current CT Opamp Ceiling Monitor is enabled:
bool
0
0
1
16
26
PTEnaADCFreezeMon
In.Prot_Protection
bool
1
0
1
16
19
30
Responds if any of the 3 ADC output signals is >95% of its limit for >20 m s" "Setting required if ""EnableMaschine ""EnableMaschineMeasPTMon"" MeasPTMon"" =TRUE If TRUE, M achine PT ADC Freeze Monitor is enabled: Responds if any of the 3 ADC output signals is stationary (freez (freezed) ed) for >2 s "
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
MaxStartTime
In.Prot_StallMon
"Motor application. Protection stall monitoring. Time factor for max. allowed starting time. Time=MaxStartTime*ZeroSpeedStallTime"
s
12
0
300
19
39
Time00
In.Prot_StallMon
"Motor application. Protection stall monitoring. Time factor until 0% speed. speed. Time=Time00*ZeroSpeedStallTime"
s
1
0
100
19
33
Time30
In.Prot_StallMon
"Motor application. Protection stall monitoring. Time factor until 30% speed. Time=Time30*ZeroSpeedStallTime"
s
2
0
100
19
34
Time60
In.Prot_StallMon
"Motor application. Protection stall monitoring. Time factor until 60% speed. Time=Time60*ZeroSpeedStallTime"
s
3
0
100
19
35
Time80
In.Prot_StallMon
"Motor application. Protection stall monitoring. Time factor until 80% speed. Time=Time80*ZeroSpeedStallTime"
s
6
0
200
19
36
Time90
In.Prot_StallMon
"Motor application. Protection stall monitoring. Time factor until 90% speed. Time=Time90*ZeroSpeedStallTime"
s
9
0
200
19
37
ZeroSpeedStallTime
In.Prot_StallMon
"Motor application. Protection stall monitoring. Zero speed stall time"
s
1
0.1
20
19
38
IsAlarm
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to Alarm
bitwise
IsAutoFault
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to AutoFault
bitwise
21409 30000 975
IsBUChannelHWFault
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to BUChannelHardwareFault
bitwise
53687 0912
IsChannelFault
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to ChannelFault
bitwise
98336
IsChanneltoBULinkLoss
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to BUChannelLinkLoss
bitwise
33554 432
IsEmergencyStop
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to EmergencyStop
bitwise
0
IsManualFault
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to ManualFault
bitwise
15728 64
IsOtherChannelHWFault
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to OtherChannelHardwareFault OtherChannelHardwareFault
bitwise
11408 50688
IsRedundancyFault
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to RedundancyFault
bitwise
40265 3184
IsStartupInhibit
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to Startupinhibit
bitwise
0
33
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Un Unit it
De Defau fault lt
IsTrip1
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to Trip1
bitwise
25296 896
IsTrip2
In.Prot_SystemFaults1
System Protection. Assign System Faults 1 to Trip2
bitwise
0
IsAlarm
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to Alarm
bitwise
40633 59
IsAutoFault
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to AutoFault
bitwise
0
IsBUChannelHWFault
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to BUChannelHardwareFault
bitwise
2048
IsChannelFault
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to ChannelFault
bitwise
23493 4784
IsChanneltoBULinkLoss
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to BUChannelLinkLoss
bitwise
0
IsEmergencyStop
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to EmergencyStop
bitwise
65536
IsManualFault
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to ManualFault
bitwise
0
IsOtherChannelHWFault
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to OtherChannelHardwareFault OtherChannelHardwareFault
bitwise
9216
IsRedundancyFault
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to RedundancyFault
bitwise
384
IsStartupInhibit
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to Startupinhibit
bitwise
18790 48192
IsTrip1
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to Trip1
bitwise
IsTrip2
In.Prot_SystemFaults2
System Protection. Assign System Faults 2 to Trip2
bitwise
21181 23520 0
IsAlarm
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to Alarm
bitwise
38068 7
IsAutoFault
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to AutoFault
bitwise
4096
IsBUChannelHWFault
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to BUChannelHardwareFault
bitwise
0
IsChannelFault
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to ChannelFault
bitwise
26214 40
IsChanneltoBULinkLoss
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to BUChannelLinkLoss
bitwise
0
IsEmergencyStop
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to EmergencyStop
bitwise
41943 04
34
Qualifie Qualified d Name Name
Description Description
3BHS259827 E05
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
IsManualFault
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to ManualFault
bitwise
0
IsOtherChannelHWFault
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to OtherChannelHardwareFault OtherChannelHardwareFault
bitwise
0
IsRedundancyFault
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to RedundancyFault
bitwise
240
IsStartupInhibit
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to Startupinhibit
bitwise
426214
IsTrip1
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to Trip1
bitwise
13926 4
IsTrip2
In.Prot_SystemFaults3
System Protection. Assign System Faults 3 to Trip2
bitwise
0
IsAlarm
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to Alarm
bitwise
IsAutoFault
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to AutoFault
bitwise
11342 1115 41943 04
IsBUChannelHWFault
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to BUChannelHardwareFault
bitwise
0
IsChannelFault
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to ChannelFault
bitwise
10496
IsChanneltoBULinkLoss
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to BUChannelLinkLoss
bitwise
0
IsEmergencyStop
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to EmergencyStop
bitwise
33554 456
IsManualFault
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to ManualFault
bitwise
83886 08
IsOtherChannelHWFault
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to OtherChannelHardwareFault OtherChannelHardwareFault
bitwise
0
IsRedundancyFault
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to RedundancyFault
bitwise
0
IsStartupInhibit
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to Startupinhibit
bitwise
67113 216
IsTrip1
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to Trip1
bitwise
16438 6
IsTrip2
In.Prot_SystemFaults4
System Protection. Assign System Faults 4 to Trip2
bitwise
0
IsAlarm
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to Alarm
bitwise
71565 3611
35
3BHS259827 E05
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
IsAutoFault
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to AutoFault
bitwise
0
IsBUChannelHWFault
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to BUChannelHardwareFault
bitwise
0
IsChannelFault
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to ChannelFault
bitwise
0
IsChanneltoBULinkLoss
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to BUChannelLinkLoss
bitwise
0
IsEmergencyStop
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to EmergencyStop
bitwise
14313 0624
IsManualFault
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to ManualFault
bitwise
0
IsOtherChannelHWFault
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to OtherChannelHardwareFault OtherChannelHardwareFault
bitwise
0
IsRedundancyFault
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to RedundancyFault
bitwise
0
IsStartupInhibit
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to Startupinhibit
bitwise
0
IsTrip1
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to Trip1
bitwise
57252 2506
IsTrip2
In.Prot_SystemFaults5
System Protection. Assign System Faults 5 to Trip2
bitwise
0
AutoResetAlarmGrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Auto-Reset of the Alarm Alarm group fault
bool
1
0
1
16
68
AutoResetRedundancyFaultGrpFault AutoResetRedundan cyFaultGrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Auto-Reset the group group fault
bool
1
0
1
16
41
AutoResetStartupInhibitGrpFault AutoResetStartupInhi bitGrpFault
In.Prot_SystemGroupFaul In.Prot_SystemGroupFaults ts
Auto-Reset the Startup StartupInhibit Inhibit group fault fault
bool
1
0
1
16
69
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Enable the OPC Event generation
bool
0
0
1
EnableOPCevents
This setting must be set to true if OPC Events are needed. Default setting is FALSE ForceAlarmGrpFault
In.Prot_SystemGroupFaults In.Prot_SystemGroupFaults
Force Alarm Groupfault
bool
0
0
1
16
38
ForceAutoFaultGrpFault
In.Prot_SystemGroupFaults In.Prot_SystemGroupFaults
Force AutoFault Groupfault
bool
0
0
1
16
44
ForceBUChHWFaultGrpFault
In.Prot_SystemGrou In.Prot_SystemGroupFaults pFaults
Force BackupChannelHardwareFault BackupChannelHardwareFault Groupfault
bool
0
0
1
16
50
ForceChannelFaultGrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Force ChannelFault Groupfault
bool
0
0
1
16
46
36
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
ForceChtoBULinkLossGrpFaultt ForceChtoBULinkLossGrpFaul
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Force ChanneltoBackupLinkLoss ChanneltoBackupLinkLoss Groupfault
bool
0
0
1
16
52
ForceEmergencyStopGrpFault
In.Prot_SystemGroupFaults In.Prot_SystemGroupFaults
Force EmergencyStop Groupfault
bool
0
0
1
16
54
ForceManualFaultGrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Force ManualFault Groupfault
bool
0
0
1
16
42
ForceOtherChHWFaultGrpFault
In.Prot_SystemGroupFaults
Force OtherChannelHardwareFault OtherChannelHardwareFault Groupfault
bool
0
0
1
16
48
ForceRedundancyFaultGrpFault ForceRedundancyFaul tGrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Force RedundancyFault Groupfault
bool
0
0
1
16
40
ForceStartupInhibitGrpFault ForceStartupInhibitGrp Fault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Force StartupInhibit Groupfault
bool
0
0
1
16
60
ForceTrip1GrpFault
In.Prot_SystemGroupFaults In.Prot_SystemGroupFaults
Force Trip1 Groupfault
bool
0
0
1
16
56
ForceTrip2GrpFault
In.Prot_SystemGroupFaults In.Prot_SystemGroupFaults
Force Trip2 Groupfault
bool
0
0
1
16
58
ResetAll
In.Prot_SystemGroupFaults In.Prot_SystemGroupFaults
Reset all Groupfaults
bool
0
0
1
16
37
ResetAutoFaultGrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Reset AutoFault Groupfault
bool
0
0
1
16
45
ResetBUChHWFaultGrpFault
In.Prot_SystemGroupFaults In.Prot_SystemGroupFaults
Reset BackupChannelHardwareFault BackupChannelHardwareFault Groupfault
bool
0
0
1
16
51
ResetChannelFaultGrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Reset ChannelFault Groupfault
bool
0
0
1
16
47
ResetChtoBULinkLossGrpFaultt ResetChtoBULinkLossGrpFaul
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Reset ChanneltoBackupLinkLoss ChanneltoBackupLinkLoss Groupfault
bool
0
0
1
16
52
ResetEmergencyStopGrpFaultt ResetEmergencyStopGrpFaul
In.Prot_SystemGroupFaults
Reset EmergencyStop Groupfault
bool
0
0
1
16
55
ResetManualFaultGrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Reset ManualFault Groupfault
bool
0
0
1
16
43
ResetOtherChHWFaultGrpFault
In.Prot_SystemGroupFaults
Reset OtherChannelHardwareFault OtherChannelHardwareFault Groupfault
bool
0
0
1
16
49
ResetTrip1GrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Reset Trip1 Groupfault
bool
0
0
1
16
57
ResetTrip2GrpFault
In.Prot_SystemGroupFau In.Prot_SystemGroupFaults lts
Reset Trip2 Groupfault
bool
0
0
1
16
59
37
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
DelayFuncSelect
In.Prot_VHzMon
"V/Hz Protection inverse-time s - select curve 0: fix delay, 1: normal inverse, t[s]=k*0,14/(I/Itherm)exp0,02-1 t[s]=k*0,14/(I/Itherm)exp0,02-1 2: very inverse, t[s]=k*13,5/(I/ t[s]=k*13,5/(I/Itherm) Itherm) -1 3: extremely inverse, t[s]=k*80/(I/Itherm)exp2 t[s]=k*80/(I/Itherm)exp2 -1"
Gradient
In.Prot_VHzMon
V/Hz Protection Gradient (Ug/f)
pu
1.2
-32.76
10
19
1
Tequivalent
In.Prot_VHzMon
V/Hz Protection. Equivalent time for k-factor calculation
s
2
0
655.3 5
19
6
6553. 5 65.5
19
3
19
4
INT
0
0
3
19
5
For this time the voltage Uequivalent is allowed. With this time the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((Uequivalent/Vfn)^2)-1)*Tequivalent)/80; Very inverse (2): k=(((Uequivalent/Vfn)-1)*Tequivalent)/13.5; Normal inverse (1): k=((((Uequivalent/Vfn)^0.02)-1)*Tequiv k=((((Uequivalent/Vfn )^0.02)-1)*Tequivalent)/0.14; alent)/0.14; Make sure that this time is higher than in the limiter and the same inverse time curve is selected. When inverse time curve 0 (fix time) is selected, this time will be used as the fix time.
ThermalDownTime
In.Prot_VHzMon
V/Hz Protection inverse-time back-integration back-integration time
s
100
0
Uequivalent
In.Prot_VHzMon
V/Hz Protection. Equivalent voltage for k-factor calculation
pu
1.3
0
For the time Tequivalent this voltage is allowed. With this voltage the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((Uequivalent/Vfn)^2)-1)*Tequivalent)/80; Very inverse (2): k=(((Uequivalent/Vfn)-1)*Tequivalent)/13.5; Normal inverse (1): k=((((Uequivalent/Vfn)^0.02)-1)*Tequiv k=((((Uequivalent/Vfn )^0.02)-1)*Tequivalent)/0.14; alent)/0.14; Make sure that this voltage is not lower than in the limiter and the same inverse time curve is selected. When inverse time curve 0 (fix time) is selected, this voltage will be not used.
Vfn
In.Prot_VHzMon
V/Hz Protection Voltage at nominal frequency
pu
1.2
-32.76
10
19
2
AdditionalInput
In.Reg_AVR
Regulator AVR. Summing-point s spare pare input
pu
0
-3.27
3.27
2
1
GainReduction
In.Reg_AVR
Regulator AVR. Summing-point gain reduction factor
pu
1
0
1
2
2
38
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
LimiterDelayFuncSelect
In.Reg_AVR_SetPt_VHz_Li m
"AVR V/Hz Limiter - select curve 0: fix delay, 1: normal inverse, t[s]=k*0,14/(I/Itherm)exp0,02-1 t[s]=k*0,14/(I/Itherm)exp0,02-1 2: very inverse, t[s]=k*13,5/(I/ t[s]=k*13,5/(I/Itherm) Itherm) -1 3: extremely inverse, t[s]=k*80/(I/Itherm)exp2 t[s]=k*80/(I/Itherm)exp2 -1"
INT
0
0
3
7
27
LimiterGradient
In.Reg_AVR_SetPt_VHz_Li m
AVR V/Hz Limiter. Gradient (Ug/freq) (Ug/freq)
--
1.15
0
10
7
22
LimiterVfn
In.Reg_AVR_SetPt_VHz_Li m
AVR V/Hz Limiter. Voltage at nominal nominal frequency
pu
1.15
0
10
7
23
Tequivalent
In.Reg_AVR_SetPt_VHz_Li m
AVR V/Hz Limiter. Equivalent time for k-factor ca calculation lculation
s
0
0
655.3 5
7
28
For this time the voltage Uequivalent is allowed. With this time the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((Uequivalent/LimiterVfn)^2)-1)*Tequ k=((((Uequivalent/L imiterVfn)^2)-1)*Tequivalent)/80; ivalent)/80; Very inverse (2): k=(((Uequivalent/LimiterVfn)-1)*Tequiva k=(((Uequivalent/Li lent)/13.5; Normal inverse (1):miterVfn)-1)*Tequivalent)/13.5; k=((((Uequivalent/LimiterVfn)^0.02)-1 k=((((Uequivalent/L imiterVfn)^0.02)-1)*Tequivalent)/0.1 )*Tequivalent)/0.14; 4; Make sure that this time is lower than in the m onitoring and the same inverse time curve is selected. When inverse time curve 0 (fix time) is selected, this time will be used as the fix time.
ThermalDownTime
In.Reg_AVR_SetPt_VHz_Li m
AVR V/Hz Limiter. inverse-time inverse-time back-integration back-integration time
s
1000
0
6553. 5
7
24
Uequivalent
In.Reg_AVR_SetPt_VHz_Li m
AVR V/Hz Limiter. Equivalent voltage voltage for k-factor k-factor calculation calculation
pu
1.3
0
65.53
7
26
For the time Tequivalent this voltage is allowed. With this voltage the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((Uequivalent/LimiterVfn)^2)-1)*Tequ k=((((Uequivalent/L imiterVfn)^2)-1)*Tequivalent)/80; ivalent)/80; Very inverse (2): k=(((Uequivalent/LimiterVfn)-1)*Tequiva k=(((Uequivalent/Li miterVfn)-1)*Tequivalent)/13.5; lent)/13.5; Normal inverse (1): k=((((Uequivalent/LimiterVfn)^0.02)-1 k=((((Uequivalent/L imiterVfn)^0.02)-1)*Tequivalent)/0.1 )*Tequivalent)/0.14; 4; Make sure that this voltage is not higher than in the monitoring and the same inverse time curve is selected. When inverse time curve 0 (fix time) is selected, this voltage will be not used.
40
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
In.Reg_ColdGas
EnableAnaInFaultDetection EnableAnaInFaultDetecti on
In.Reg_ColdGas
MaxTempAnaInValue
In.Reg_ColdGas
Maximum input signal temperature [°C] for scaling of the analog input value
°C
0
0
200
1
43
SelectAnaInputType
In.Reg_ColdGas
"Select analog input type FALSE = 0...20 mA, TRUE = 4...20 mA"
bool
0
0
1
1
38
SelectDataInput
In.Reg_ColdGas
"Select data input TRUE = Fieldbus input selected FALSE = A nalog input selected, which needs to be allocated in Control IT"
bool
0
0
1
1
42
RefVal0
In.Reg_ColdGas.IfInRefValu es
Temperature 6 for field current limiter
°C
1
0
200
1
41
RefVal10
In.Reg_ColdGas.IfInRefValu es
Temperature 1 for field current limiter
°C
1
0
200
1
40
RefVal2
In.Reg_ColdGas.IfInRefValu es
Temperature 5 for field current limiter
°C
1
0
200
1
39
RefVal4
In.Reg_ColdGas.IfInRefValu es
Temperature 4 for field current limiter
°C
1
0
200
1
49
RefVal6
In.Reg_ColdGas.IfInRefValu es
Temperature 3 for field current limiter
°C
1
0
200
1
44
RefVal8
In.Reg_ColdGas.IfInRefValu es
Temperature 2 for field current limiter
°C
1
0
200
1
48
RefVal0
In.Reg_ColdGas.IfOutRefVal ues
Correction factor @ Temperature 6 for stator current limiter
--
1
0
2
1
47
RefVal10
In.Reg_ColdGas.IfOutRefVal ues
Correction factor @ Temperature 1 for stator current limiter
--
1
0
2
1
46
RefVal2
In.Reg_ColdGas.IfOutRefVal ues
Correction factor @ Temperature 5 for stator current limiter
--
1
0
2
1
45
RefVal4
In.Reg_ColdGas.IfOutRefVal ues
Correction factor @ Temperature 4 for stator current limiter
--
1
0
2
1
31
RefVal6
In.Reg_ColdGas.IfOutRefVal ues
Correction factor @ Temperature 3 for stator current limiter
--
1
0
2
1
26
RefVal8
In.Reg_ColdGas.IfOutRefVal ues
Correction factor @ Temperature 2 for stator current limiter
--
1
0
2
1
30
RefVal0
In.Reg_ColdGas.IgInRefValu es
Temperature 6 for stator current limiter
°C
1
0
200
1
29
RefVal10
In.Reg_ColdGas.IgInRefValu es
Temperature 1 for stator current limiter
°C
1
0
200
1
28
41
"Enables the coldgas function Adaptation of Control Control IT project might be necessary, allocation of to corresponding corresponding hardware inputs" "Enables the analog input fault detection for 2..10 V or 4..20 mA input"
De Defau fault lt
Enable
3BHS259827 E05
bool
0
0
1
1
25
bool
0
0
1
1
55
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
RefVal2
In.Reg_ColdGas.IgInRefValu es
Temperature 5 for stator current limiter
°C
1
0
200
1
27
RefVal4
In.Reg_ColdGas.IgInRefValu es
Temperature 4 for stator current limiter
°C
1
0
200
1
37
RefVal6
In.Reg_ColdGas.IgInRefValu es
Temperature 3 for stator current limiter
°C
1
0
200
1
32
RefVal8
In.Reg_ColdGas.IgInRefValu es
Temperature 2 for stator current limiter
°C
1
0
200
1
36
RefVal0
In.Reg_ColdGas.IgOutRefVa lues
Correction factor @ Temperature 6 for field current limiter
--
0
0
2
1
35
RefVal10
In.Reg_ColdGas.IgOutRefVa lues
Correction factor @ Temperature 1 for field current limiter
--
0
0
2
1
34
RefVal2
In.Reg_ColdGas.IgOutRefVa lues
Correction factor @ Temperature 5 for field current limiter
--
0
0
2
1
33
RefVal4
In.Reg_ColdGas.IgOutRefVa lues
Correction factor @ Temperature 4 for field current limiter
--
0
0
2
1
54
RefVal6
In.Reg_ColdGas.IgOutRefVa lues
Correction factor @ Temperature 3 for field current limiter
--
0
0
2
1
53
RefVal8
In.Reg_ColdGas.IgOutRefVa lues
Correction factor @ Temperature 2 for field current limiter
--
0
0
2
1
52
AnaInFaultOffDelayTime
In.Reg_CrossCurrComp
"Regulator, Cross Cu Current rrent Compensatio Compensation n (CCC). Analog input fault off-delay off-delay time "
s
1
0
10
7
32
AnaInFaultOnDelayTime
In.Reg_CrossCurrComp
"Regulator, Cross Cur Current rent Compensation (CCC).
s
0.1
0
10
7
31
CrossCurrCompOff
In.Reg_CrossCurrComp
Regulator, Cross Current Compensation (CCC). Disable CCC
bool
0
0
1
7
36
CrossCurrCompOn
In.Reg_CrossCurrComp
bool
0
0
1
7
35
kCCC
In.Reg_CrossCurrComp
"Regulator, Cross Current Compensation (CCC). CCC needs to be enabled during operation Control IT application has to be adapted to allocate the IOs and enable CCC at desired time." "Regulator, Cross Current Compensation (CCC). k-factor of cross current compensation "
--
0
-0.2
0.2
7
30
V
10
0
11.5
7
34
There are two different possibilities to use the CCC: -negative CCC-gain: (Qx - Qavg)*kCCC (droop) -positive CCC-gain: (Qx + Qavg)*kCCC When is detected (droop)the of analog 0.05p.u.input in both modes. as faulty, The CCC changes to a constant static MaxMeasAnaIn
42
In.Reg_CrossCurrComp
"Regulator, Cross Current Compensation (CCC). Fix value = 11.5 V absolute It is indicated as fault if equalizing line measurement exceeds 11.5 V"
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
MaxThermalFieldCurrent
In.Reg_Field_Cur_ In.Reg_Field_Cur_Max_Lim Max_Lim
"Maximum field current limiter. Maximum thermal field current. (inverse-time function starts if the field current exceeds this value)"
pu
1.05
0
2
4
2
NoLimitDelay
In.Reg_Field_Cur_ In.Reg_Field_Cur_Max_Lim Max_Lim
Maximum field current limiter. Time without limitation
s
0.01
0
1
4
6
Release_IfMaxLim
In.Reg_Field_Cur_Max In.Reg_Field_Cur_Max_Lim _Lim
Maximum field current limiter. Enable max. field current limiter
bool
1
0
1
4
11
TdynHys
In.Reg_Field_Cur_Max In.Reg_Field_Cur_Max_Lim _Lim
"Maximum field current limiter. Time after limiter engagement with doubled hysteresis. (Helps to prevent limiter pump)"
s
10
0
10
4
9
ThermalCoolingFactor
In.Reg_Field_Cur_Ma In.Reg_Field_Cur_Max_Lim x_Lim
"Maximum field current limiter. Factor for thermal Limit until ""Cooling"" completed -> Italy Specification"
--
1
0.5
1
4
12
ThermalDownTime
In.Reg_Field_Cur_Ma In.Reg_Field_Cur_Max_Lim x_Lim
Maximum field current limiter. Inverse-time back-integration back-integration time
s
1000
0
6553. 5
4
4
TimeMaxFieldCurrent
In.Reg_Field_Cur_ In.Reg_Field_Cur_Max_Lim Max_Lim
Maximum field current limiter. Time max field current
s
10
0
655.3 5
4
8
For this time the maximum field current is allowed. With this time the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((MaxFieldCurrent/Ifstart)^2)-1)*TimeMax k=((((MaxFieldCurrent/I fstart)^2)-1)*TimeMaxFieldCurrent)/80; FieldCurrent)/80; Very inverse (2): k=(((MaxFieldCurrent/Ifstart)-1)*TimeMaxField k=(((MaxFieldCurrent/If start)-1)*TimeMaxFieldCurrent)/13.5; Current)/13.5; Normal inverse (1): k=((((MaxFieldCurrent/Ifstart)^0.02)-1) k=((((MaxFieldCurrent/I fstart)^0.02)-1)*TimeMaxFieldCurrent)/0.1 *TimeMaxFieldCurrent)/0.14; 4; Make sure that this time is lower than in the m onitoring and the same inverse time curve is selected. When inverse time curve 0 (fix time) is selected, this time will be used as the fix time.
EnableSetPtCorr
In.Reg_Field_Cur_Max_Lim_ PID
"Enables Maximum Field Current Limiter. Setpoint correction for less regulator deviation TRUE = EnableSetPtCorr FALSE = EnableSetPtCorr not available"
bool
0
0
1
4
18
GainReduction
In.Reg_Field_Cur_Max_Lim_ PID
Maximum Field Current Limiter gain reduction for INTEGRAL TYPE AVR LIMITER
--
0.5
0
65
4
19
ta
In.Reg_Field_Cur_Max_Lim_
PID Maximum Field Current Limiter Lag time constant
s
0.2
0
20
4
13
tb
PID In.Reg_Field_Cur_Max_Lim_ PID
PID Maximum Field Current Limiter Lead time constant
s
0.01
0
10
4
14
PID Maximum Field Current Limiter low frequency gain
--
250
0.1
1000
4
16
vo
44
In.Reg_Field_Cur_Max_Lim_ PID
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
MaxIfAnaInValue
In.Reg_Manual_SetPt_LCIS etPt
Maximum analog input value. Corresponds to 20mA or 10V.
A
200
0
6553. 5
10
41
SelectAnaInputType
In.Reg_Manual_SetPt_LCIS etPt
"Select the analog input type TRUE = 2..10V/4..20mA, FALSE = 0..10V/0..20mA"
bool
1
0
1
10
40
Iequivalent
In.Reg_Manual_SetPt_VHz_ Lim
Manual V/Hz Restrict. Equivalent current for k-factor calculation
pu
2
0
65.35
10
30
For the time Tequivalent this current is allowed. With this current the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((Iequivalent/LimiterIfn_agl)^ k=((((Iequivalen t/LimiterIfn_agl)^2)-1)*Tequivalent 2)-1)*Tequivalent)/80; )/80; Very inverse (2): k=(((Iequivalent/LimiterIfn_agl)-1) k=(((Iequivalent /LimiterIfn_agl)-1)*Tequivalent)/13 *Tequivalent)/13.5; .5; Normal inverse (1): k=((((Iequivalent/LimiterIfn_agl)^ k=((((Iequivalen t/LimiterIfn_agl)^0.02)-1)*Tequivale 0.02)-1)*Tequivalent)/0.14; nt)/0.14; Make sure that this current is not higher than in the monitoring and the same inverse time curve is selected. When inverse time curve 0 (fix time) is selected, this current will be not used.
Limiter_Release
In.Reg_Manual_SetPt_VHz_ Lim
"Manual V/Hz Restrict. Release Only active during offline-operation offline-operation if activated"
bool
1
0
1
10
29
LimiterDelayFuncSelect
In.Reg_Manual_SetPt_VHz_ Lim
"Manual V/Hz Restrict - select curve 0: fix delay, 1: normal inverse, t[s]=k*0,14/(I/Itherm)exp0,02-1 t[s]=k*0,14/(I/Itherm)exp0,02-1 2: very inverse, t[s]=k*13,5/(I/ t[s]=k*13,5/(I/Itherm) Itherm) -1
INT
0
0
3
10
31
LimiterGradient_agl
In.Reg_Manual_SetPt_VHz_ Lim
Manual V/Hz Restrict. Gradient (Ifagl / f)
0
0
10
10
26
LimiterIfn_agl
In.Reg_Manual_SetPt_VHz_ Lim
Manual V/Hz Restrict. Field Current at nominal frequency [p.u. Ifagl]
pu IfAgl / pu f pu
1.2
0
10
10
27
3: extremely inverse, t[s]=k*80/(I/Itherm)exp2 t[s]=k*80/(I/Itherm)exp2 -1"
49
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name Tequivalent
Qualifie Qualified d Name Name In.Reg_Manual_SetPt_VHz_ Lim
Description Description
Un Unit it
Manual V/Hz Restrict. Equivalent time for k-factor calculation
De Defau fault lt
Min
s
0
0
s
1000
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
655.3 5
10
32
0
6553.
10
28
-0.2
5 0.2
7
20
For this time the current Iequivalent is allowed. With this time the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((Iequivalent/LimiterIfn_agl)^ k=((((Iequivalen t/LimiterIfn_agl)^2)-1)*Tequivalent 2)-1)*Tequivalent)/80; )/80; Very inverse (2): k=(((Iequivalent/LimiterIfn_agl)-1) k=(((Iequivalent /LimiterIfn_agl)-1)*Tequivalent)/13 *Tequivalent)/13.5; .5; Normal inverse (1): k=((((Iequivalent/LimiterIfn_agl)^ k=((((Iequivalen t/LimiterIfn_agl)^0.02)-1)*Tequivale 0.02)-1)*Tequivalent)/0.14; nt)/0.14; Make sure that this time is lower than in the m onitoring and the same inverse time curve is selected. When inverse time curve 0 (fix time) is selected, this time will be used as the fix time.
ThermalDownTime
In.Reg_Manual_SetPt_VHz_
PStatic
Lim In.Reg_P_Static
Manual V/Hz Restrict. Inverse-time back-integration back-integration time
pu
"P-Static regulator. Normally used to compensate (positive value) line drop or get overexcited with increasing active power after synchronizing."
0
Release_PStaticpar
In.Reg_P_Static
P-Static regulator. TRUE = P-Static Release
bool
0
0
1
7
21
EnaFollowUp
In.Reg_PF_Reg_SetPt
Power factor regulator setpoint. Enable follow-up (Setpoint=actual value)
bool
0
0
1
8
40
ExtRefTolerance
In.Reg_PF_Reg_SetPt
"Power factor regulator setpoint. Tolerance external reference to internal value for switchover."
pu
0.01
0
3
8
39
ExtRefValue
In.Reg_PF_Reg_SetPt
"Power factor regulator setpoint. External reference value Adaptation of Control IT project necessary, necessary, allocation of ExtRefValue to corresponding corresponding hardware input"
pu
1
MaxRefValue
In.Reg_PF_Reg_SetPt
Power factor regulator setpoint. Maximal value
pu
0.707
-1
1
8
34
MinRefValue
In.Reg_PF_Reg_SetPt
Power factor regulator setpoint. Minimal value
pu
-0.707
-1
1
8
35
RefIntPresetValue
In.Reg_PF_Reg_SetPt
P ower factor regulator setpoint. Preset value
pu
1
-1
1
8
33
Select_BusbarControl
In.Reg_PF_Reg_SetPt
Pf Regulator Setpoint. Select Busbar Pf control
bool
0
0
1
8
52
Select_BusbarSignal
In.Reg_PF_Reg_SetPt
Power factor regulator setpoint. Select busbar Power Factor for follow-up
bool
0
0
1
8
38
Select_ExtRefValue
In.Reg_PF_Reg_SetPt
Power factor regulator setpoint. Select external reference value
bool
0
0
1
8
37
Characteristic_QP00
In.Reg_PQ_Lim
Regulator P/Q limiter. Q-Setpoint for P=0.0pu
pu
-1
-1.5
0
6
6
50
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
BusVoltageTrackingOn
In.Reg_Regulator
"Regulator. Switch bus voltage tracking on. Is automatically switched off if unit is online"
bool
0
0
1
1
13
ForceBusVoltageTrackingOn ForceBusVoltageTrackin gOn
In.Reg_Regulator
"Regulator. Force the bus voltage tracking to be enabled whenever the unit is O FF-Line If set to true the AVR reference will be balanced until the machine is synchroniz synchronized ed (generator breaker closed)"
bool
0
0
1
1
9
IC_Regulators
In.Reg_Regulator
Regulator. Initial condition PI/PID
pu
0
-32.76
32.76
1
1
PresetAutoSetpoint
In.Reg_Regulator
Regulator. AVR Setpoint. Preset command
bool
0
0
1
1
6
PresetManSetpoint
In.Reg_Regulator
Regulator. MAN Setpoint. Preset command
bool
0
0
1
1
5
PresetPFRegSetpoint
In.Reg_Regulator
Regulator. Power Factor Setpoint. Preset command
bool
0
0
1
1
8
PresetVarRegSetpoint
In.Reg_Regulator
Regulator. Q Setpoint. Preset command
bool
0
0
1
1
7
UcNegRateLimit
In.Reg_Regulator
"Regulator. Gate Control Unit (GCU) signal conditioning rate limiter negative Rate [pu Uc/s]. 0=Infinite(disabled=no limitation)" 0=Infinite(disabled=no
pu/s
0
0
655.3 5
1
12
UcPosRateLimit
In.Reg_Regulator
"Regulator. Gate Control Unit (GCU) signal conditioning rate limiter positive Rate [pu Uc/s]. 0=Infinite(disabled=no 0=Infinite(disab led=no limitation)"
pu/s
0
0
655.3 5
1
11
UseSeparateRLInputs
In.Reg_Regulator
Regulator. Use separate IOs for synchronization synchronization and Remote Raise/Lower
bool
0
0
1
1
56
DelayFuncSelect
In.Reg_Stat_Cur_Lim In.Reg_Stat_Cur_Lim
"Stator current limiter - select curve 0: fix delay, 1: normal inverse, t[s]=k*0,14/(I/Itherm)exp0,02-1 t[s]=k*0,14/(I/Itherm)exp0,02-1 2: very inverse, t[s]=k*13,5/(I/ t[s]=k*13,5/(I/Itherm) Itherm) -1 3: extremely inverse, t[s]=k*80/(I/Itherm)exp2 t[s]=k*80/(I/Itherm)exp2 -1"
INT
3
0
3
3
8
dUdtPulseFunction_Enable dUdtPulseFunction_Enab le
In.Reg_Stat_Cur_Li In.Reg_Stat_Cur_Lim m
"Stator current limiter. Enable du/dt pulse function TRUE = dUdtPulseFunction_Enable FALSE = dUdtPulseFunction_Enable dUdtPulseFunction_Enable not available"
bool
1
0
1
3
2
Hysteresis
In.Reg_Stat_Cur_Lim
Stator current limiter. Hysteresis to prevent limiter pump
pu
0.05
0
0.2
3
5
54
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name Iequivalent
Qualifie Qualified d Name Name In.Reg_Stat_Cur_Lim
Description Description
Un Unit it
Stator current limiter. Equivalent current for k-factor calculation
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
pu
2
0
65.5
3
27
For the time Tequivalent this current is allowed. With this current the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((Iequivalent/MaxThermalStatorCurren k=((((Iequivalen t/MaxThermalStatorCurrent)^2)-1)*Tequival t)^2)-1)*Tequivalent)/80; ent)/80; Very inverse (2): k=(((Iequivalent/MaxThermalStatorCurrent) k=(((Iequivalent /MaxThermalStatorCurrent)-1)*Tequivalent)/1 -1)*Tequivalent)/13.5; 3.5; Normal inverse (1): k=((((Iequivalent/MaxThermalStatorCurren k=((((Iequivalen t/MaxThermalStatorCurrent)^0.02)-1)*Tequiv t)^0.02)-1)*Tequivalent)/0.14; alent)/0.14; When inverse time curve 0 (fix time) is selected, this current will be not used.
MaxThermalStatorCurrent
In.Reg_Stat_Cur_Lim In.Reg_Stat_Cur_Lim
Stator current limiter. Maximum thermal stator current. (inverse-time function starts if the stator current exceeds this value)
pu
1.05
0
2
3
1
Release_IgCapLim
In.Reg_Stat_Cur_Li In.Reg_Stat_Cur_Lim m
Stator current limiter. Enable capacitive stator current limiter
bool
0
0
1
3
10
Release_IgIndLim
In.Reg_Stat_Cur_L In.Reg_Stat_Cur_Lim im
Stator current limiter. Enable inductive stator current limiter
bool
0
0
1
3
11
TdynHys
In.Reg_Stat_Cur_Lim
"Stator current limiter. Time after limiter engagement with higher hysteresis. (Helps to prevent limiter pump)"
s
10
0
10
3
4
Tequivalent
In.Reg_Stat_Cur_Li In.Reg_Stat_Cur_Lim m
Stator current limiter. Equivalent time for k-factor calculation
s
10
0
655.3 5
3
28
Stator current limiter. Factor for thermal limit until "Cooling" completed -> Italy Specification Stator current limiter. Inverse-time back-integratio back-integration n time
--
1
0.5
1
3
12
s
1000
0
3
6
"PID Capacitive Stator Current Limiter. Enables setpoint correction for less regulator deviation TRUE = EnableSetPtCorr FALSE = EnableSetPtCorr not available"
bool
0
0
6553. 5 1
3
25
For this time the current Iequivalent is allowed. With this time the k-factor of the according inverse time curve will be calculated. Extremely inverse (3): k=((((Iequivalent/MaxThermalStatorCurren k=((((Iequivalen t/MaxThermalStatorCurrent)^2)-1)*Tequival t)^2)-1)*Tequivalent)/80; ent)/80; Very inverse (2): k=(((Iequivalent/MaxThermalStatorCurrent) k=(((Iequivalent /MaxThermalStatorCurrent)-1)*Tequivalent)/1 -1)*Tequivalent)/13.5; 3.5; Normal inverse (1): k=((((Iequivalent/MaxThermalStatorCurren k=((((Iequivalen t/MaxThermalStatorCurrent)^0.02)-1)*Tequiv t)^0.02)-1)*Tequivalent)/0.14; alent)/0.14; When inverse time curve 0 (fix time) is selected, this time will be used as the fix time.
ThermalCoolingFactor
In.Reg_Stat_Cur_Li In.Reg_Stat_Cur_Lim m
ThermalDownTime
In.Reg_Stat_Cur_Lim
EnableSetPtCorr
In.Reg_Stat_Cur_Lim_Cap_ PID
55
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
GainReduction
In.Reg_Stat_Cur_Lim_Cap_ PID
PID Capacitive Stator Current Limiter. Gain reduction for INTEGRAL TYPE AVR LIMITER
--
0.5
0
65
3
26
ta
In.Reg_Stat_Cur_Lim_Cap_ PID
PID Capacitive Stator Current Limiter Lag time constant
s
1.5
0
20
3
20
tb
In.Reg_Stat_Cur_Lim_Cap_ PID
PID Capacitive Stator Current Limiter Lead time constant
s
0.1
0
10
3
21
vo
In.Reg_Stat_Cur_Lim_Cap_ PID
PID Capacitive Stator Current Limiter low frequency gain
--
250
0.1
1000
3
23
voo
In.Reg_Stat_Cur_Lim_Cap_ PID
PID Capacitive Stator Current Limiter high frequency gain
--
30
0.1
1000
3
24
vp
In.Reg_Stat_Cur_Lim_Cap_ PID
PID Capacitive Stator Current Limiter proportional gain
--
30
0.1
250
3
22
EnableSetPtCorr
In.Reg_Stat_Cur_Lim_Ind_PI D
"PID Inductive Stator Current Limiter. Enables setpoint correction for less regulator deviation TRUE = EnableSetPtCorr FALSE = EnableSetPtCorr not available"
bool
1
0
1
3
18
GainReduction
In.Reg_Stat_Cur_Lim_Ind_PI D
PID Inductive Stator Current Limiter. Gain reduction for INTEGRAL TYPE AVR LIMITER
--
0.5
0
65
3
19
ta
In.Reg_Stat_Cur_Lim_Ind_PI D
PID Inductive Stator Current Limiter Lag time constant
s
1.5
0
20
3
13
tb
In.Reg_Stat_Cur_Lim_Ind_PI D
PID Inductive Stator Current Limiter Lead time constant
s
0.1
0
10
3
14
vo
In.Reg_Stat_Cur_Lim_Ind_PI D
PID Inductive Stator Current Limiter low frequency gain
--
250
0.1
1000
3
16
voo
In.Reg_Stat_Cur_Lim_Ind_PI D
PID Inductive Stator Current Limiter high frequency gain
--
30
0.1
1000
3
17
vp
In.Reg_Stat_Cur_Lim_Ind_PI D
PID Inductive Stator Current Limiter proportional gain
--
30
0.1
250
3
15
EnaFollowUp
In.Reg_Var_Reg_SetPt
Q Regulator Setpoint. Enable follow-up (Setpoint=actual value)
bool
0
0
1
8
26
ExtRefTolerance
In.Reg_Var_Reg_SetPt
"Q Regulator Setpoint. Tolerance external reference to internal value for switchover."
pu
0.01
0
10
8
25
ExtRefValue
In.Reg_Var_Reg_SetPt
"Q Regulator Setpoint. External reference value Adaptation of CIT project project necessary, allocation allocation of ExtRefValue ExtRefValue to corresp corresponding onding hardware input"
pu
0
MaxRefValue
In.Reg_Var_Reg_SetPt
Q Regulator Setpoint. Maximal value
pu
1
-1.5
1.5
8
21
MinRefValue
In.Reg_Var_Reg_SetPt
Q Regulator Setpoint. Minimal value
pu
-1
-1.5
1.5
8
22
RefIntPresetValue
In.Reg_Var_Reg_SetPt
Q Regulator Setpoint. Preset value
pu
0
-1.5
1.5
8
20
56
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
ForceFCB3TripCounter
In.Sys_Diagnosi In.Sys_Diagnosis s
Diagnosis. Force the Breaker3 Trip counter
ForceFCB3TripCounterValue
In.Sys_Diagnosis In.Sys_Diagnosis
Diagnosis. Forces the Breaker3 Trip counter to the specified value
ForceIntTripCounter
In.Sys_Diagnosis
Diagnosis. Force the internal Trips On-Line counter
Un Unit it bool
bool
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
0
0
1
24
0
0
65535
24
9 10
0
0
1
24
11
0
0
65535
24
12
0
0
1
24
13
0
0
65535
24
14
ForceIntTripCounterValue
In.Sys_Diagnosis
Diagnosis. Forces the internal Trips On-Line counter to the specified value
ForceOELimCounter
In.Sys_Diagnosis
Diagnosis. Force the OE Limiter counter
ForceOELimCounterValue
In.Sys_Diagnosis
Diagnosis. Forces the OE Limiter counter to the specified value
ForceOnlineHourCounter
In.Sys_Diagnosis
Diagnosis. Force the Online hours counter
bool
0
0
1
24
15
ForceOnlineHourCounterDays ForceOnlineHourCounterDay s
In.Sys_Diagnosis
Diagnosis. Forces the Online hour counter to the specified day
Days
0
0
65535
24
16
ForceUELimCounter
In.Sys_Diagnosis
Diagnosis. Force the UE Limiter counter
bool
0
0
1
24
17
ForceUELimCounterValue
In.Sys_Diagnosis
Diagnosis. Forces the UE Limiter counter to the specified value
0
0
65535
24
18
LicenceKey1
In.Sys_Diagnosis
SW Activation Licence Key Part 1
bool
INT
0
LicenceKey2
In.Sys_Diagnosis
SW Activation Licence Key Part 2
INT
0
LicenceKey3
In.Sys_Diagnosis
SW Activation Licence Key Part 3
INT
0
SaveDiagnosisData
In.Sys_Diagnosis
Diagnosis. Save the diagnosis data
bool
0
0
1
24
19
bExcTrafo
In.Sys_ExcitationSystem In.Sys_ExcitationSystem
An excitation transformer is used
bool
1
0
1
23
25
bForceParameterSet
In.Sys_ExcitationSy In.Sys_ExcitationSystem stem
Enable to force a parameter set
bool
0
0
1
23
26
bSetTime
In.Sys_ExcitationSystem In.Sys_ExcitationSystem
Set System time
bool
0
0
1
23
28
ChannelConfigWord
In.Sys_ExcitationSy In.Sys_ExcitationSystem stem
"Channel config word: 0 = not configured, 1 = Ch1, 2 = Ch1 & Ch2 3 = Ch1 & Ch2 & BFCR Boot parameter. Value can only be changed in the Configuration sequence."
INT
1
0
3
23
16
ChannelDefWord
In.Sys_ExcitationSy In.Sys_ExcitationSystem stem
"Channel definition word. 0 = not configured, 1 = Ch1, 2 = Ch2, 3 = BFCR NOTE: Needs to be set after first startup Boot parameter. Value can only be changed in the Configuration sequence."
INT
1
0
3
23
17
CosPhiNom
In.Sys_ExcitationSystem In.Sys_ExcitationSystem
Nominal Power Factor (cos Phi) of the machine
--
1
0
1
23
6
61
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
LowerActRef
OperatorCommand
"Operator command. Lower actual reference signal"
--
0
0
1
RaiseActRef
OperatorCommand
"Operator command. Raise actual reference signal"
--
0
0
1
ReleaseControl
OperatorCommand
"Operator command. Operator control released signal"
--
0
0
1
RequestControl
OperatorCommand
"Operator command. Operator control request signal"
--
0
0
1
ChannelActive
OperatorStatus
"Operator status. Information that this channel is the active channel"
--
0
0
1
ChannelBUActive
OperatorStatus
"Operator status. Information that the backup channel is the active channel"
--
0
0
1
ControlReleased
OperatorStatus
"Operator status. Operator control released signal "
--
0
0
1
ControlStatus
OperatorStatus
"Operator status. Operator select control status signal [1..6]
--
0
0
6
SCPG SCPGrp rp SC SCPS PSig ig
1 = Service (Control IT level) 2 = SCP (Service Control Panel) 3 = Local Excitation Control Terminal (ECT) 4 = Remote I/O (Hardwired to CIO) 5 = Fieldbus 6 = Remote Excitation Control Terminal (ECT)" SubControlStatus
OperatorStatus
"Operator status. Operator select sub control status of the Excitation Control Terminal (ECT) 0 = Not selected, 1 = ECT "
--
0
0
SubOperatorID
OperatorStatus
"Operator status. Operator select sub-operator ID of the Excitation Control Terminal (ECT)"
--
0
0
FieldBreakerIsClosed
Out.Brk_Breaker
Breaker. Status signal active field breaker is closed
--
0
0
1
58
1
FieldFlashBreakerIsClosed FieldFlashBreakerIsClos ed
Out.Brk_Breaker
Breaker. Status signal fieldflash breaker is closed
--
0
0
1
58
4
StartingBreakerIsClosed StartingBreakerIsClo sed
Out.Brk_Breaker
Breaker. Status signal starting breaker is closed
--
0
0
1
58
5
SwitchOverFinished
Out.Brk_Breaker
Breaker. Status signal that the breaker switchover is finished
--
0
0
1
58
3
Breaker1IsClosed
Out.Brk_BreakerSwitchOver Out.Brk_BreakerSwitchOver
Breaker switchover. Status signal breaker 1 is closed
--
0
0
1
58
7
Breaker2IsClosed
Out.Brk_BreakerSwitchOver Out.Brk_BreakerSwitchOver
Breaker switchover. Status signal breaker 2 is closed
--
0
0
1
58
8
SwitchOverFinished
Out.Brk_BreakerSwitchOver Out.Brk_BreakerSwitchOver
Breaker switchover. Status signal that the breaker switchover is finished
--
0
0
1
58
6
64
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
CrowbarCurrentDetected CrowbarCurrentDetecte d
Out.Brk_Crowbar
"Crowbar. Crowbar negative current detected"
--
0
0
1
CrowbarFailure
Out.Brk_Crowbar
--
0
0
1
CrowbarFault
Out.Brk_Crowbar
Crowbar failure status signal The monitor has detected at least 2 negative crowbar current pulses (the 1st current pulse released the Alarm “LossOfSynch”), I.e. the converter supplied current to the faulty crowbar. "Crowbar.
--
0
0
1
SCPG SCPGrp rp SC SCPS PSig ig 58
39
58
36
58
37
Status the signal crowbar fault Alarm event ""Crowb ""CrowbarFlt"" arFlt"" is created Possible reasons: Crowbar not conducting when opening fieldbreaker" LossOfSynchronism
Out.Brk_Crowbar
Loss of machine synchronism
--
0
0
1
NegativeCrowbarCurrent
Out.Brk_Crowbar
"Crowbar. Negative current direction detected "
--
0
0
1
OverVoltageFault
Out.Brk_Crowbar
"Crowbar. Crowbar positive current detected Trip1 event ""CrowbarOVFlt"" is created Possible reasons: - The field overvoltage protection (crowb (crowbar) ar) was responding on a positive or negative field overvoltage - Negative field overvoltage occurs if an interruption occurs in the power supply or field circuit"
--
0
0
1
PositiveCrowbarCurrent
Out.Brk_Crowbar
"Crowbar. Positive current direction detected "
--
0
0
1
Fault
Out.Brk_FieldBreaker1
"Breaker group1, field breaker1. Combined fault of the following messages: - Event emergency stop ""FCB1TurnOnFlt"" or
--
0
0
1
58
12
trip1 event event ""FCB1ManOffFlt"" ""FCB1TurnOffFlt"" are or created" -- trip1 IsClosed
Out.Brk_FieldBreaker1
"Breaker group1, field breaker1 Status signal field breaker 1 is closed, otherwise the alarm event ""FCB1IsOnMissing"" is created"
--
0
0
1
58
10
LocationACDC
Out.Brk_FieldBreaker1 Out.Brk_FieldBreaker1
"Breaker group1, field breaker 1. Status signal of the breaker 1 location AC or DC side False = AC-side, True = DC-side"
--
0
0
1
58
11
LocationACPrimSec
Out.Brk_FieldBreaker1
"Breaker group1, field breaker1. Status signal of the breaker 1 location transformer primary or secondary side False = transformer primary side, True = tra transformer nsformer secondary side"
--
0
0
1
58
13
65
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
Fault
Out.Brk_FieldBreaker2
"Breaker group2, field breaker2. Combined fault of the following messages: - Event emergency stop ""FCB2TurnOnFlt"" or - trip1 event ""FCB2TurnOffFlt"" or - trip1 event ""FCB2ManOffFlt"" are created"
--
0
0
1
58
20
IsClosed
Out.Brk_FieldBreaker2
"Breaker group2, field breaker2. Status signal field breaker 2 is closed, otherwise the alarm event ""FCB2IsOnMissing"" is created"
--
0
0
1
58
18
LocationACDC
Out.Brk_FieldBreaker2 Out.Brk_FieldBreaker2
"Breaker group2, field breaker2. Status signal of the breaker 2 location AC or DC side False = AC-side, True = DC-side"
--
0
0
1
58
19
LocationACPrimSec
Out.Brk_FieldBreaker2
"Breaker group2, field breaker2. Status signal of the breaker 2 location transformer primary or secondary side False = transformer primary side, True = tra transformer nsformer secondary side"
--
0
0
1
58
21
Fault
Out.Brk_FieldBreaker3
"Breaker group3, field breaker3. Combined fault of the following messages: - Event emergency stop ""FCB3TurnOnFlt"" or - trip1 event ""FCB3TurnOffFlt"" or - trip1 event ""FCB3ManOffFlt"" are created"
--
0
0
1
58
28
IsClosed
Out.Brk_FieldBreaker3
"Breaker group3, field breaker3. Status signal field breaker 3 is closed, otherwise the alarm event ""FCB3IsOnMissing"" is created"
--
0
0
1
58
26
LocationACDC
Out.Brk_FieldBreaker3 Out.Brk_FieldBreaker3
"Breaker group3, field breaker3. Status signal of the breaker 3 location AC or DC side False = AC-side, True = DC-side"
--
0
0
1
58
27
LocationACPrimSec
Out.Brk_FieldBreaker3
"Breaker group3, field breaker3. Status signal of the breaker 3 location transformer primary or secondary side False = transformer primary side, True = tra transformer nsformer secondary side"
--
0
0
1
58
30
IsClosed
Out.Brk_FieldFlash
Field flashing. Status signal fieldflash breaker is closed
--
0
0
1
58
38
IsClosed
Out.Brk_StartingBreake Out.Brk_StartingBreakerr
Starting breaker status signal
--
0
0
1
58
40
DisableIfMinValueInputt DisableIfMinValueInpu
Out.Conv_Converter1
"Converter. Disable the CCM If min. value input "
--
0
0
1
64
17
DisableIfTypeSelect
Out.Conv_Converter1 Out.Conv_Converter1
"Converter. Used only internally."
--
0
0
1
64
14
66
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
GDIPulsesReleased
Out.Conv_Converter1
"Converter. GDI pulses are released by hardware "
IfAbs
Out.Conv_Converter1
IfRel
Out.Conv_Converter1
IfRelBFCR
Out.Conv_Converter1 Out.Conv_Converter1
IfRelCH
Out.Conv_Converte Out.Conv_Converter1 r1
IfRelOCH
Un Unit it
De Defau fault lt
Min
--
0
0
"Converter. Actual excitation current in AMPS. NOTE: refresh cycle is 1s. Signal forced to zero when gate pulses blocked "
A
0
"Converter. Actual excitation current RELATIVE. NOTE: In the standby channel of a 2 channel system this signal is read from the active channel." "Converter. IfRel measurement signal BFCR "
pu
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig 64
19
0
64
16
0
0
64
15
pu
0
0
64
18
"Converter. IfRel measurement signal Channel "
pu
0
0
64
11
Out.Conv_Converte Out.Conv_Converter1 r1
"Converter. IfRel measurement signal other Channel "
pu
0
0
64
10
OverlapAngle
Out.Conv_Converter1 Out.Conv_Converter1
"Converter. Calculated overlap angle "
deg
0
64
20
UfAbs
Out.Conv_Converter1 Out.Conv_Converter 1
"Converter. Actual excitation voltage voltage in VOLTS."
V
0
64
8
UfRel
Out.Conv_Converter1 Out.Conv_Converte r1
"Converter. Actual excitation voltage voltage RELATIVE. "
pu
0
64
7
USynAbs
Out.Conv_Converter Out.Conv_Converter1 1
"Converter. Actual converter input input voltage in VOLTS. "
V
0
64
57
USynRel
Out.Conv_Converter1 Out.Conv_Converter1
"Converter. Actual converter input voltage RELATIVE. "
pu
0
64
55
Rn
Out.Conv_Converter1.Conve
"Converter thyristor fault.
--
0
0
1
64
56
rterThyrFaults
Event converter trip ""ThyrFlt_Rn"" is created - fault of the thyristor phase R negative"
Rp
Out.Conv_Converter1.Conve rterThyrFaults
"Converter thyristor fault. Event converter trip ""ThyrFlt_Rp"" is created - fault of the thyristor phase R positive"
--
0
0
1
64
54
Sn
Out.Conv_Converter1.Conve rterThyrFaults
"Converter thyristor fault. Event converter trip ""ThyrFlt_Sn"" is created - fault of the thyristor phase S negative"
--
0
0
1
64
6
Sp
Out.Conv_Converter1.Conve rterThyrFaults
"Converter thyristor fault. Event converter trip ""ThyrFlt_Sp"" is created - fault of the thyristor phase S positive"
--
0
0
1
64
5
Tn
Out.Conv_Converter1.Conve rterThyrFaults
"Converter thyristor fault. Event converter trip ""ThyrFlt_Tn"" is created - fault of the thyristor phase T negative"
--
0
0
1
64
4
67
3BHS259827 E05
1
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name Tp
ActualStep CoolingFailure
Qualifie Qualified d Name Name Out.Conv_Converter1.Conve rterThyrFaults
Description Description "Converter thyristor fault. Event converter trip ""ThyrFlt_Tp"" is created - fault of the thyristor phase T positive"
Un Unit it --
De Defau fault lt 0
Min 0
Ma Max x 1
Out.Conv_FanControl
Returns actual ste step p of the sequence sequence
INT
-1
-1
4
Out.Conv_FanControl
Cooling Failure
bool
0
0
1
FAN14disabled
Out.Conv_FanControl
Fan14 is off
bool
0
0
1
FAN14enabled
Out.Conv_FanControl
Fan14 is on
bool
0
0
1
0
FAN14RunningDays
Out.Conv_FanControl
D1 - D4 only. Number of days the FAN is running (for SCP)
Days
FAN14RunningSeconds
Out.Conv_FanControl
D5 only. Converter fan control, fan 4 running seconds
s
Fan1RunningDays
Out.Conv_FanControl
D5 only. Converter fan control, fan 1 running seconds
Days
Fan1RunningSeconds
Out.Conv_FanControl
D5 only. Converter fan control, fan 1 running seconds
s
0
0
0
3
64
53
64
24
64
25
57
1
57
3
57
4
0
Fan1Supply1Fault
Out.Conv_FanControl
Fan1 failed on supply 1
bool
0
0
Out.Conv_FanControl
Fan1 is on with supply1
bool
0
0
1
Fan1Supply2Fault
Out.Conv_FanControl
Fan1 failed on supply 2
bool
0
0
1 1
Fan1Supply2On
Out.Conv_FanControl
Fan1 is on with supply2
bool
0
0
Fan2RunningDays
Out.Conv_FanControl
D5 only. Converter fan control, fan 2 running seconds
Days
0
0
Fan2RunningSeconds
Out.Conv_FanControl
D5 only. Converter fan control, fan 2 running seconds
s
1
0
Fan2Supply1Fault
Out.Conv_FanControl
Fan2 failed on supply 1
bool
0
0
Fan2Supply1On
Out.Conv_FanControl
Fan2 is on with supply1
bool
0
0
1
Fan2Supply2Fault
Out.Conv_FanControl
Fan2 failed on supply 2
bool
0
0
1
1
Fan2Supply2On
Out.Conv_FanControl
Fan2 is on with supply2
bool
0
0
1
FanOff
Out.Conv_FanControl
Fan is off
bool
1
0
1
FanOn
Out.Conv_FanControl
Fan is on
bool
0
0
1
JumpToStep
Out.Conv_FanControl
Jump to step order
INT
-1
-1
4
MCB1Fault
Out.Conv_FanControl
MCB1 Fault
bool
0
0
1
MCB2Fault
Out.Conv_FanControl
MCB2 Fault
bool
0
0
1
CIOFaults1FaultsActive
Out.Meas_CIO1
FaultGroup has active Faults
--
0
0
1
DeviceID
Out.Meas_CIO1
CIO1 device ID
--
0
Trip
Out.Meas_CIO1
Status signal CIO1 is tripped
--
0
0
1
CIOFaults1FaultsActive
Out.Meas_CIO2
FaultGroup has active Faults
--
0
0
1
DeviceID
Out.Meas_CIO2
CIO2 device ID
--
0
3BHS259827 E05
64
0
Fan1Supply1On
68
SCPG SCPGrp rp SC SCPS PSig ig
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
Trip
Out.Meas_CIO2
Status signal CIO2 is tripped
--
0
0
1
CIOFaults1FaultsActive
Out.Meas_CIO3
FaultGroup has active Faults
--
0
0
1
DeviceID
Out.Meas_CIO3
CIO3 device ID
--
0
Trip
Out.Meas_CIO3
Status signal CIO3 is tripped
--
0
0
1
CIOFaults1FaultsActive
Out.Meas_CIO4
FaultGroup has active Faults
--
0
0
1
DeviceID
Out.Meas_CIO4
CIO4 device ID
--
0
Trip
Out.Meas_CIO4
Status signal CIO4 is tripped
--
0
0
1
CIO1Tripped
Out.Meas_CIOConfig
"CIO1 device tripped status. Redundancy fault "CIO1Trip" is created The following messages are set to events by default: - "LinkFault" - "PrciPwr Fail2" - "CPUWatchdog" See the reason of the particular message in the event list"
--
0
0
CIO2Tripped
Out.Meas_CIOConfig
"CIO2 device tripped status Redundancy fault "CIO2Trip" is created The following messages are set to events by default: - "LinkFault"" - "PrciPwr Fail2" - "CPUWatchdog" See the reason of the particular message in the event list"
--
0
CIO3Tripped
Out.Meas_CIOConfig
"CIO3 device tripped status Redundancy fault ""CIO3Trip"" is created The following messages are set to events by default: - ""LinkFault"" - ""PrciPwr Fail2"" - ""CPUWatchdog"" See the reason of the particular message in the event list "
--
CIO4Tripped
Out.Meas_CIOConfig
"CIO4 device tripped status Redundancy fault "CIO4Trip" is created The following messages are set to events by default: - "LinkFault" - "PrciPwr Fail2" - "CPUWatchdog" See the reason of the particular message in the event list "
ConfigWordFault
Out.Meas_CIOConfig
"CIO configuration word fault Alarm event ""ConfigWordFlt"" ""ConfigWordFlt"" is created created""
SoftwareVersionCIO1
Out.Meas_CIOConfig
69
CIO1 software version number
3BHS259827 E05
SCPG SCPGrp rp SC SCPS PSig ig 57
6
57
7
57
9
57
10
57
12
1
55
28
0
1
55
29
0
0
1
55
30
--
0
0
1
55
31
--
0
0
1
55
6
--
0
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
CIO1AO3Status
Out.Meas_TransientRecorde r
TestSignalSelector. Output signal status: true: test signal output active (global id valid)
--
Un Unit it
De Defau fault lt 0
0
Min
1
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig 56
5
SupervisionStatus
Out.Meas_TransientRecorde r
Signal Selector. Signal injection status [0=off, 1=on]
--
0
0
1
56
6
FullTR
Out.Meas_TransientRecorde r.TraRecStatus
Transient recording full status signal The trigger conditions are fulfilled Transient recorder is full
--
0
0
1
56
2
RecordingTR
Out.Meas_TransientRecorde r.TraRecStatus
Fast Transient recorder
--
0
0
1
56
1
WritingFileTR
Out.Meas_TransientRecorde r.TraRecStatus
Transient recording writing status signal Data are read out of the system and saved to the harddisk ECT with time stamp
--
0
0
1
56
3
ApplicationSWversion
Out.OpSel_Fieldbus
Application SW Version of FIG Fieldbus Module
63
36
ControlAcknowledge
Out.OpSel_Fieldbus
"Operator selection, fieldbus. Control acknowledge signal indicates, that the ""FieldbusSlave"" operator is the active control-section"
--
0
0
1
63
23
ControlStatus
Out.OpSel_Fieldbus
"Operator selection, fieldbus. Operator status signal: 1 = Service (Control IT level) 2 = SCP (Service Control Panel) 3 = Local Excitation Control Terminal (ECT) 4 = Remote I/O (Hardwired to CIO) 5 = Fieldbus 6 = Remote Excitation Control Terminal (ECT)"
--
0
0
6
63
24
DetectedFIGType
Out.OpSel_Fieldbus
"Operator selection, fieldbus. Detected FIG type:
--
0
0
31
63
35
1= = FENA FPBA (Profibus) 5 (Modbus TCP)" FieldbusIOReleaseActive FieldbusIOReleaseActiv e
Out.OpSel_Fieldbus
"Operator selection, fieldbus. FieldbusSlave IO Release If there is no longer a demand to operate the Excitation system from remote via the FieldbusSlave, this command is used to allow control from an other control board. If there is no request, the control is given the ""Default"" one"
--
0
0
1
63
27
FieldbusIORequestActive FieldbusIORequestActiv e
Out.OpSel_Fieldbus
"Operator selection, fieldbus. FieldbusSlave IO Request Active There is a request to operate the Excitation system from remote via the FieldbusSlave. If no demand with higher priority is existent, the control is changed to this operator. "
--
0
0
1
63
26
ControlAcknowledge
Out.OpSel_Local
"Operator selection, local ECT.. Control acknowledge signal indicates, that the ""local ECT"" operator is the active control-section"
--
0
0
1
63
12
73
UNITROL 6080 Signal and Parameter List v2.0.00
3BHS259827 E05
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
ControlReleased
Out.OpSel_Local
"Operator selection, local ECT. Control released signal The ""Local ECT"" has set it's ""operator released"" released"" signal to true "
--
0
0
1
63
16
ControlStatus
Out.OpSel_Local
"Operator selection, local ECT. Local ECT status signal 1 = Local Excitation Control Terminal 1 (ECT 2 = Local Excitation Control Terminal 2 (ECT 3 = Local Excitation Control Terminal 3 (ECT 4 = Local Excitation Control Terminal 4 (ECT
--
0
0
4
63
14
1) 2) (not supported) 3) (not supported) 4) (not supported)"
LocalCTActive
Out.OpSel_Local
"Operator selection, local ECT.. Local CT 1 active signal, indicates, that ""Local ECT 1"" is the selected one out of possible 1 (not supported in this SW-release)"
--
0
0
1
63
15
OperatorSelectControlStatus OperatorSelectControlSt atus
Out.OpSel_Local
"Operator selection, local ECT. Operator status signal: 1 = Service (Control IT level) 2 = SCP (Service Control Panel) 3 = Local Excitation Control Terminal (ECT) 4 = Remote I/O (Hardwired to CIO) 5 = Fieldbus 6 = Remote Excitation Control Terminal (ECT)"
--
0
0
6
63
13
ControlReleased
Out.OpSel_OperatorSele Out.OpSel_OperatorSelect ct
Operator selection. Control released status signal
--
0
0
1
63
8
ControlStatus
Out.OpSel_OperatorSelect Out.OpSel_OperatorSelect
"Operator selection. Operator status signal. 1 = Service (Control IT level) 2 = SCP (Service Control Panel) 3 = Local Excitation Control Terminal (ECT) 4 = Remote I/O (Hardwired to CIO) 5 = Fieldbus 6 = Remote Excitation Control Terminal (ECT)"
--
0
0
6
63
1
FieldbusActive
Out.OpSel_OperatorSelect Out.OpSel_OperatorSelect
"Operator selection. Operator active signal [Fieldbus] The fieldbus operator (Status 5) acts via the Anybus-S I/O interface and a specific fieldbus protocol. The fieldbus operator has 5th highest priority. The fieldbus operator is used by the superimposed plant control to operate the excitation system via fieldbus."
--
0
0
1
63
6
74
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
LocalActive
Out.OpSel_OperatorSelect
"Operator selection. Operator active signal [Local ECT] The local operator (Status 3) is an Excitation Control Terminal (ECT). The local operator has 3rd highest priority."
--
0
0
1
63
4
RemoteActive
Out.OpSel_OperatorSelect Out.OpSel_OperatorSelect
"Operator selection. Operator active signal [Remote I/O] The remote operator (Status 4) acts via the analog and digital inputs/outputs inputs/outputs of the
--
0
0
1
63
5
excitation system. This remote operator has 4th highest priority. The remote operator is used by the superimposed plant control to operate the excitation system via hardware I/Os." RemoteCTActive
Out.OpSel_OperatorSelect Out.OpSel_OperatorSelect
"Operator selection. Operator active signal [Remote ECT] The remote ECT operator (Status 6) can consist of up to 4 different ECTs (Excitation Control Terminals). It has the lowest priority of all operators. The remote ECT can be located in the control room of a power plant or elsewhere."
--
0
0
1
63
7
SCPActive
Out.OpSel_OperatorSelect Out.OpSel_OperatorSelect
"Operator selection. Operator active signal [SCP] The SCP operator (Status 2) is used for the local Service Control Panel (SCP) which is used as a display and interaction device. The SCP operator has the second highest priority. "
--
0
0
1
63
3
ServiceActive
Out.OpSel_OperatorSele Out.OpSel_OperatorSelect ct
"Operator selection. Operator active signal [Service] The service operator (Status 1) is an internal operator from the Control IT level. The excitation system is parameterized and operated with the control module graphic
--
0
0
1
63
2
in the Control IT. The service operator has the highest priority of all operators" ControlAcknowledge
Out.OpSel_Remote
"Operator selection, remote I/O. Control acknowledge signal indicates, that the ""remote I/O"" operator is the active control-section"
--
0
0
1
63
18
ControlStatus
Out.OpSel_Remote
"Operator selection, remote I/O. Operator status signal: 1 = Service (Control IT level) 2 = SCP (Service Control Panel) 3 = Local Excitation Control Terminal (ECT) 4 = Remote I/O (Hardwired to CIO) 5 = Fieldbus Slave 6 = Remote Excitation Control Terminal (ECT)"
--
0
0
6
63
19
75
UNITROL 6080 Signal and Parameter List v2.0.00
3BHS259827 E05
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
RemoteIOReleaseActive
Out.OpSel_Remote
"Operator selection, remote. RemoteIO Release If there is no longer a demand to operate the Excitation system from remote via the I/O board CIO, this command is used to allow control from an other control board. If there is no request, the control is given the ""Default"" one "
--
0
0
1
63
22
RemoteIORequestActive
Out.OpSel_Remote
"Operator selection, remote. RemoteIO Request Active There is a request to operate the Excitation system from remote via the I/O board CIO. If no demand with higher priority is existent, the control is changed to this operator. "
--
0
0
1
63
21
ControlAcknowledge
Out.OpSel_Remote_CT
"Operator selection, remote ECT. Control acknowledge signal indicates, that the ""remote ECT"" operator is the active control-section"
--
0
0
1
63
28
ControlReleased
Out.OpSel_Remote_CT
"Operator selection, remote ECT. Control released signal The ""remote ECT"" has set it's ""operator released"" released"" signal to true "
--
0
0
1
63
32
ControlStatus
Out.OpSel_Remote_CT
"Operator selection, remote ECT.
--
0
0
4
63
30
Remote ECT status signal: 1 = remote Excitation Control Terminal 1 (ECT 2 = remote Excitation Control Terminal 2 (ECT 3 = remote Excitation Control Terminal 3 (ECT 4 = remote Excitation Control Terminal 4 (ECT
1) 2) 3) 4)"
OperatorSelectControlStatus OperatorSelectContro lStatus
Out.OpSel_Remote_CT
"Operator selection, remote ECT. Operator status signal: 1 = Service (Control IT level) 2 = SCP (Service Control Panel) 3 = Local Excitation Control Terminal (ECT) 4 = Remote I/O (Hardwired to CIO) 5 = Fieldbus 6 = Remote Excitation Control Terminal (ECT)"
--
0
0
6
63
29
RemoteCTActive
Out.OpSel_Remote_CT
"Operator selection, remote ECT. Remote ECT active signal, indicates, that one out of maximum 4 ""Remote ECT"" is the active one "
--
0
0
1
63
31
ControlAcknowledge
Out.OpSel_SCP
"Operator selection, Service Control Panel (SCP).. Control acknowledge signal
--
0
0
1
63
12
indicates, that the ""SCP"" operator is the active control-section"
76
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
ABB Signals and Parameters Parameters Name Name
Qualifie Qualified d Name Name
Description Description
Un Unit it
De Defau fault lt
Min
Ma Max x
SCPG SCPGrp rp SC SCPS PSig ig
ControlStatus
Out.OpSel_SCP
"Operator selection, Service Control Panel (SCP). Operator status signal. 1 = Service (Control IT level) 2 = SCP (Service Control Panel) 3 = Local Excitation Control Terminal (ECT) 4 = Remote I/O (Hardwired to CIO) 5 = Fieldbus 6 = Remote Excitation Control Terminal (ECT)"
--
0
0
6
63
14
ControlAcknowledge
Out.OpSel_Service
"Operator selection, service. Control acknowledge signal indicates, that the ""service"" operator is the active control-section"
--
0
0
1
63
9
RemainingServiceTime
Out.OpSel_Service
Time to Service Operator Timeout
--
0
0
65535
63
34
ConverterTemperature ConverterTemperatu re
Out.Prot_ConvTempMon
"Protection, converter temperature monitor. Display of the converter temperature value [°C]"
°C
0
-65
250
62
22
ConvTempFault1
Out.Prot_ConvTempMon
"Protection, converter temperature monitor. Alarm event ""ConvTemp1Flt ""ConvTemp1Flt Temperature fault level 1 detected DEFAULT: 82 °C"
--
0
0
1
62
19
ConvTempFault2
Out.Prot_ConvTempMon
"Protection, converter temperature monitor. Channel fault event ""ConvTemp2Flt"" is created Temperature fault level 2 detected DEFAULT: 92 °C"
--
0
0
1
62
20
ConvTempSensFault
Out.Prot_ConvTempMon
"Protection, converter temperature monitor. Converter temperature sensor fault detected"
--
0
0
1
62
21
IfBP6th
Out.Prot_DiodeMon
"Protection, diode monitoring
pu
0
-100
100
61
45
--
0
0
1
61
3
Output signal of the bandpass filter [pu]" "Earth fault monitoring. Alarm event ""EFRCommFlt"" is created created Signal IRDH communication fault detected (IRDH = Insulation monitoring unit)"
FaultEarthFaultMonComm
Out.Prot_EarthFaultMon
FaultStage1
Out.Prot_EarthFaultMon
"Earth fault monitoring. Alarm event ""EFRStage1Flt"" is created Stage 1 fault is detected DEFAULT: 50 kOhm"
--
0
0
1
61
1
FaultStage2
Out.Prot_EarthFaultMon
"Earth fault monitoring. Trip1 event ""EFRStage2Flt"" is created Stage 2 fault is detected DEFAULT: 2 kOhm"
--
0
0
1
61
2
77
3BHS259827 E05
UNITROL 6080 Signal and Parameter List v2.0.00
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