Schneider / Easergy MiCOM P64x M/Gb3 setting parameters & highlights (SC5014)

Overview

Easergy MiCOM P64x series provides fast and complete protection for transformer faults, preserving service life and is designed for two and three winding transformers (including autotransformers).

For more detailed information on “Easergy MiCOM P64x” relays, refer to Schneider protection relays manuals.

To see other supported devices, click here.

This post covers the specific versions of the MiCOM products with:

Hardware suffix: L (P642) M (P643/P645)
Software sufix: B6 (P643) & B5 (P642/P643/P645)

Configuration menu

Menu Text	Row	Col	Default Setting	Available Setting
Description
CONFIGURATION	09	00
This column contains CONFIGURATION parameters.
Restore Defaults	09	01	No Operation	No operation, All settings, Setting Group 1, Setting Group 2, Setting Group 3, or Setting Group 4
Setting to restore a setting group to factory default settings.
Setting Group	09	02	Menu	Select from Menu or Select from PSL
Allows setting group changes to be initiated using 2 DDB signals in the programmable scheme logic or from the Menu settings.
Active Settings	09	03	Group 1	Group 1, Group 2, Group 3 or Group 4
Selects the active setting group.
Save Changes	09	04	No Operation	No Operation, Save or Abort
Saves all relay settings.
Copy From	09	05	Group 1	Group 1, Group 2, Group 3 or Group 4
Allows displayed settings to be copied from a selected setting group.
Copy To	09	06	No Operation	No Operation, Group 1, Group 2, Group 3 or Group 4
Allows displayed settings to be copied to a selected setting group.
Setting Group 1	09	07	Enabled	Enabled or Disabled
Enables or disables Group 1 settings. If the setting group is disabled from the configuration, all associated settings and signals are hidden, with the exception of this setting.
Setting Group 2	09	08	Disabled	Enabled or Disabled
Setting Group 2 works in the same way as Setting Group 1.
Setting Group 3	09	09	Disbaled	Enabled or Disabled
Setting Group 3 works in the same way as Setting Group 1.
Setting Group 4	09	0A	Disabled	Enabled or Disabled
Setting Group 4 works in the same way as Setting Group 1.
Diff Protection	09	0C	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the differential protection. The unit provides bias differential protection with multiple CT inputs.
REF Protection	09	0E	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Restricted Earth Fault protection. The unit provides a low impedance REF function per transformer winding.
Over Current	09	10	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the overcurrent protection: ANSI 50/51/67P, 46OC.
NPS OverCurrent	09	11	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Negative Phase Sequence overcurrent protection: ANSI 50/51/67P, 46OC.
Thermal Overload	09	12	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Thermal Overload Protection: ANSI 49.
Earth Fault	09	13	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Earth Fault Protection: ANSI 50N/51N.
Residual O/V NVD	09	16	Enabled	Enabled or Disabled
P643 and P645 only. Enables (activates) or disables (turns off) the Residual Overvoltage (Neutral Voltage Displacement) Protection function: ANSI 59N.
Overfluxing	09	18	Disabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Overfluxing protection: ANSI 24.
Through Fault	09	1B	Disabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Through Fault function. The Through Fault current monitoring function in the P64x gives the fault current level, the duration of the faulty condition, the date and time.
Volt Protection	09	1D	Disabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Voltage Protection (Under/Overvoltage and NPS Overvoltage) function: ANSI 27/59/47.
Freq Protection	09	1E	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Frequency Protection (Under/Overfrequency) function: ANSI 81O/U.
RTD Inputs	09	1F	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the RTD (Resistance Temperature Device) Inputs.
CB Fail	09	20	Disabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Circuit Breaker Fail Protection function: ANSI 50BF.
Supervision	09	21	Disabled	Enabled or Disabled
Enables (activates) or disables (turns off) the Supervision (VTS&CTS) functions: ANSI VTS/CTS.
Input Labels	09	25	Visible	Invisible or Visible
Sets the Input Labels menu visible in the relay settings menu.
Output Labels	09	26	Visible	Invisible or Visible
NOT USED. Sets the Output Labels menu to visible in the relay settings menu.
RTD Lables	09	27	Visible	Invisible or Visible
Sets the RTD Labels menu visible in the relay settings menu.
CT and VT Ratios	09	28	Visible	Invisible or Visible
Sets the Current & Voltage Transformer Ratios menu visible in the relay settings menu.
Record Control	09	29	Visible	Invisible or Visible
Sets the Record Control menu visible in the relay settings menu.
Disturb Recorder	09	2A	Visible	Invisible or Visible
Sets the Disturbance Recorder menu visible in the relay settings menu.
Measure’t Setup	09	2B	Visible	Invisible or Visible
Sets the Measurement Setup menu visible in the relay settings menu.
Comms Settings	09	2C	Visible	Invisible or Visible
Sets the Communications Settings menu visible in the relay settings menu. These are the settings associated with the 1st and 2nd rear communications ports.
Commission Tests	09	2D	Visible	Invisible or Visible
Sets the Commissioning Tests menu visible in the relay settings menu.
Setting Values	09	2E	Primary	Primary or Secondary
This affects all protection settings that are dependent on CT and VT ratios.
Control Inputs	09	2F	Visible	Invisible or Visible
Sets the Control Inputs menu visible in the relay setting menu.
CLIO Inputs	09	30	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the CLIO (Current Loop Input Output) function.
CLIO Outputs	09	31	Enabled	Enabled or Disabled
Enables (activates) or disables (turns off) the CLIO (Current Loop Input Output) Outputs function.
CLIO status (Hidden)	09	32	Hidden	False or True
CLIO status (Hidden). No Courier text. Cell value set to False if CLIO not fitted and Cell value set to True if CLIO is fitted.
Control I/P Config	09	35	Visible	Invisible or Visible
Sets the Control Input Configuration menu visible in the relay setting menu.
Ctrl I/P Labels	09	36	Visible	Invisible or Visible
Sets the Control Input Labels menu visible in the relay setting menu.
Direct Access	09	39	Enabled	Enabled, Disabled or Hotkey Only
Defines what controls are available using the direct access keys – Enabled (Hotkey and CB Control functions) / Hotkey Only (Control Inputs and Setting group selection) / CB Cntrl Only (CB open/close).
PB CONFIG	09	48	Visible	Invisible or Visible
Sets the PB CONFIG menu visible in the relay setting menu.
IEC GOOSE	09	49	Visible	Invisible or Visible
Sets the IEC 61850 GOOSE menu visible in the relay setting menu.
Function Keys	09	50	Visible	Invisible or Visible
Sets the Function Key menu visible in the relay setting menu.
VIR I/P Labels	09	70	Invisible	Invisible or Visible
VIR I/P Labels Visible/Invisible
VIR O/P Labels	09	80	Invisible	Invisible or Visible
VIR O/P Labels Visible/Invisible
Usr Alarm Labels	09	90	Invisible	Invisible or Visible
USR Alarm Labels Visible/Invisible
RP1 Read Only	09	FB	Disabled	Enabled, Disabled
Visible when comms options are: 1 – Courier 3 – CS103 6 – IEC61850 with 1st Rear Courier, 7 – IEC61850 with 1st Rear CS103.
RP2 Read Only	09	FC	Disabled	Enabled, Disabled
Visible when comms options are: 1 – Courier, or 3 – CS103; and hardware options are: 7, 8, E or F.
NIC Read Only	09	FD	Disabled	Enabled, Disabled
Visible when comms options are: 6 – IEC61850 with 1st Rear Courier, 7 – IEC61850 with 1st Rear CS103.
SettingValueBeh.	09	FE	Independent	0 = Independent or 1 = Locked Mode
Independent: cell [092E] Setting Values will be independent in each interface. For example, the Front Port can have [092E] set to Secondary and a remote port can have [092E] set to Primary. Locked Mode: cell [092E] Setting Values are locked to the same value for all interfaces. All interfaces have the same value for [092E]. Whichever interface selects Locked Mode will have its setting for [092E] applied to all interfaces. Any interface can then change [092E] and it will apply on all interfaces.
LCD Contrast	09	FF	11	0 to 31 step 1
To confirm the LCD contrast press the right and left arrow keys together instead of Enter. This prevents someone selecting a black or blank contrast setting by accident. Note: The contrast can be set through the FP comms port using the MiCOM software.

System Config

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: SYSTEM CONFIG	30	00
This column contains GROUP 1 SYSTEM CONFIG parameters
Winding Config	30	01	HV+LV+TV	HV+LV or HV+LV+TV
P643 and P645 only. This setting indicates if the protected transformer is a two or three winding transformer.
Winding Type	30	02	Conventional	Conventional or Auto
The winding type may be configured as Conventional or Auto. This setting is just for information.
HV CT Terminals	30	03	01 (P642)	01 (P642)
Each digit corresponds to a terminal. For further detailed connections refer to the installation section. P642 only – from right to left the current inputs are T1, T2. 0 = disabled, 1 = enabled.
LV CT Terminals	30	04	10 (P645)	10 (P642)
P642 only. Each digit corresponds to a terminal. From right to left the current inputs are T1, T2. 0 = disabled, 1 = enabled For further detailed connections refer to the installation section.
TV CT Terminals	30	05	010 (P643)	010 (P643)
P643 only. Each digit corresponds to a terminal. From right to left the current inputs are T1, T2, T3. 0 = disabled, 1 = enabled For further detailed connections refer to the installation section.
Sref	30	07	100MVA	0.1MVA to 5000MVA step 0.1MVA
Reference power. Used by the differential function to calculate the ratio correction factors. Used by the thermal function when the monitored winding is set to biased current.
HV Connection	30	08	Y-Wye	Y-Wye, D-Delta or Z-Zigzag
The HV winding connections can be configured as Wye, Delta, or Zigzag.
HV Grounding	30	09	Grounded	Grounded or Ungrounded
In Simple mode: Grounded = P64x filters zero sequence current on HV side. Ungrounded = no zero sequence filtering is done on HV side. In Advanced mode: Grounding = Information only, and zero sequence filtering depends on Zero seq filt HV setting.
HV Nominal	30	0A	220kV	100V to 1MV step 1V
Nominal voltage of the HV winding, mid-tap voltage of the on-load tap changer, or no-load tap changer tap voltage.
HV Rating	30	0B	100MVA	0.1MVA to 5000MVA step 0.1MVA
This rating is used by the thermal overload function if the monitored winding is set to HV.
% Reactance	30	0C	0.1	1% to 100% step 0.63%
Transformer leakage reactance.
LV Vector Group	30	0D	0	0 to 11 step 1
This is used to provide vector correction for phase shift between HV and LV windings.
LV Connection	30	0E	Y-Wye	Y-Wye, D-Delta or Z-Zigzag
The LV winding connections can be configured as Wye, Delta, or Zigzag.
LV Grounding	30	0F	Grounded	Grounded or Ungrounded
When set as grounded, the P64x filters the zero sequence current in the LV side. When set as ungrounded, no zero sequence filtering is done in the LV side.
LV Nominal	30	10	220kV	100V to 1MV step 1V
Nominal voltage of the LV winding, mid-tap voltage of the on-load tap changer, or no-load tap changer tap voltage.
LV Rating	30	11	100MVA	0.1MVA to 5000MVA step 0.1MVA
This rating is used by the thermal overload function if the monitored winding is set to LV.
TV Vector Group	30	12	0	0 to 11 step 1
P643 and P645 only. This is used to provide vector correction for phase shift between HV and TV windings.
TV Connection	30	13	Y-Wye	Y-Wye,D-Delta or Z-Zigzag
P643 and P645 only. The winding connections can be configured as Wye, Delta, or Zigzag.
TV Grounding	30	14	Grounded	Grounded or Ungrounded
P643 and P645 only. Simple: Grounded = P64x filters zero sequence current on TV side. Ungrounded = no zero sequence filtering is done on LV side. Advanced: Grounding = Information only, and zero sequence filtering depends on Zero seq filt HV setting.
TV Nominal	30	15	220kV	100V to 1MV step 1V
P643 and P645 only. Nominal voltage of the TV winding.
TV Rating	30	16	100MVA	0.1MVA to 5000MVA step 0.1MVA
P643 and P645 only. This rating is used by the thermal overload function if the monitored winding is set to TV.
Match Factor CT1	30	20	Set by relay	Set by relay
CT1 ratio correction factor used by the differential function.
Match Factor CT2	30	21	Set by relay	Set by relay
CT2 ratio correction factor used by the differential function.
Match Factor CT3	30	22	Set by relay	Set by relay
P643 and P645 only. CT3 ratio correction factor used by the differential function.
Match Factor CT4	30	23	Set by relay	Set by relay
P645 only. CT4 ratio correction factor used by the differential function.
Match Factor CT5	30	24	Set by relay	Set by relay
P645 only. CT5 ratio correction factor used by the differential function.
MatchFac REF HV	30	25	Set by relay	Set by relay
Ratio correction factor used by REF HV protection.
MatchFac REF LV	30	26	Set by relay	Set by relay
Ratio correction factor used by REF LV protection.
MatchFac REF TV	30	27	Set by relay	Set by relay
P643 and P645 only. Ratio correction factor used by REF TV protection.
MatchFac REFAuto	30	28	Set by relay	Set by relay
Ratio correction factor used by REF Auto protection.
Phase Sequence	30	5E	Standard ABC	Standard ABC or Reverse ACB
This sets the phase rotation. It affects the positive and negative sequence quantities calculated by the relay. It also affects functions that are dependent on phase quantities.
VT Reversal	30	5F	No Swap	No Swap, A-B Swap or C-A Swap
P643 and P645 only. For applications where 2-phase current inputs are swapped.
CT1 Reversal	30	60	No Swap	No Swap, A-B Swap or C-A Swap
For applications where 2-phase current inputs are swapped.
CT2 Reversal	30	61	No Swap	No Swap, A-B Swap or C-A Swap
For applications where 2-phase current inputs are swapped.
CT3 Reversal	30	62	No Swap	No Swap, A-B Swap or C-A Swap
P643 and P645 only. For applications where 2-phase current inputs are swapped.
CT4 Reversal	30	63	No Swap	No Swap, A-B Swap or C-A Swap
P645 only. For applications where 2-phase current inputs are swapped.
CT5 Reversal	30	64	No Swap	No Swap, A-B Swap or C-A Swap
P645 only. For applications where 2-phase current inputs are swapped.

Differential Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: DIFF PROTECTION	31	00
This column contains the GROUP 1 DIFF PROTECTION parameters
Trans Diff	31	01	Enabled	Enabled or Disabled
This enables or disables differential protection for setting group1.
Set Mode	31	02	Simple	Simple or Advanced
Defines Simple or Advanced Mode, as per HV/LV/TV Grounding. Advanced = zero sequence filtering enabled/disabled in Zero seq filt HV/LV/TV. Simple = Is-HS1 calculated as 1/Xt (Xt=transformer reactance); and Zero seq filt HV/LV/TV, Is-HS1 and Is-Hs2 hidden
Is1	31	03	0.2	0.1pu to 2.5pu step 0.01pu
Minimum differential threshold of the low set differential characteristic
K1	31	04	0.3	0% to 200% step 1%
First slope setting of the low set differential characteristic
Is2	31	05	1	0.1pu to 20pu step 0.01pu
Bias current threshold for the second slope of the low set differential characteristic
K2	31	06	0.8	15% to 200% step 1%
Second slope setting of the low set differential characteristic
tDiff	31	07	0s	0 to 10s step 10ms
Differential time delay
Is-CTS	31	08	1.5	0.1pu to 2.5pu step 0.01pu
In restrain mode, the differential protection Is1 setting is increased to Is-CTS setting after CT failure is detected. The Is-CTS setting increases the restrain region of the differential characteristic
Is-HS1	31	10	1/Xt	2.00pu to 32pu step 0.1pu
High set element one. In the simple mode the relay calculates Is-HS1 as 1/Xt. Where Xt is the transformer reactance. This setting is hidden in simple mode. In advance mode Is-HS1 is visible and settable.
HS2 Status	31	11	Enabled	Enabled or Disabled
Enable or Disabled High set element two
Is-HS2	31	12	32	2.00pu to 32pu step 0.1pu
High Set element two when HS2 Status is enabled. When HS2 Status is enabled, High set element two. In the simple mode the relay calculates Is-HS2 as 1/Xt. Where Xt is the transformer reactance. This setting is hidden in simple mode. In advance mode Is-HS2 is visible and settable.
Diff calc remove	31	13	Disabled	Disabled or TV
P643 and P645 only. Disable means diff protection is same as usual, ‘TV’ means phase currents of the ends which belong to TV are no effect on trans diff protection. This setting is only settable in advance mode.
Transient Bias	31	14	Enabled	Enabled or Disabled
Default setting ‘Enabled’ means trans diff protection is same as version B2A, ‘Disabled ‘ means the transient bias is removed from bias current for all cases.
Zero seq filt HV	31	20	Enabled	Enabled or Disabled
Enables or disables zero sequence filtering on the HV winding. This setting is only visible and settable in advance mode.
Zero seq filt LV	31	21	Enabled	Enabled or Disabled
Enables or disables zero sequence filtering on the LV winding. This setting is only visible and settable in advance mode.
Zero seq filt TV	31	22	Enabled	Enabled or Disabled
P643 and P645 only. Enables or disables zero sequence filtering on the TV winding. This setting is only visible and settable in advance mode.
2nd harm blocked	31	28	Enabled	Enabled or Disabled
2nd harm blocked
Ih(2)%>	31	29	0.2	5% to 50% step 1%
Second harmonic blocking threshold
Cross blocking	31	2A	Enabled	Enabled or Disabled
Enables or disables cross blocking
CTSat and NoGap	31	2B	Enabled	Enabled or Disabled
Enables or disables CT saturation detection
5th harm blocked	31	33	Enabled	Enabled or Disabled
Enables or disables 5th harmonic blocking
Ih(5)%>	31	34	0.35	0% to 100% step 1%
Fifth harmonic blocking threshold
Circuitry Fail	31	40	Disabled	Enabled or Disabled
Enables or disables the circuitry fail alarm
Is-cctfail	31	41	0.1	0.03pu to 1pu step 0.01pu
Minimum differential threshold of the circuitry fail alarm
K-cctfail	31	42	0.1	0% to 50% step 1%
Slope for the circuitry fail alarm function
CctFail Delay	31	43	5s	0s to 10s step 0.1s
Sets the circuitry fail alarm time delay

Restricted Earth Fault (REF) Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: REF PROTECTION	32	00
This column contains GROUP1 REF PROTECTION parameters.
REF HV status	32	01	LowZ REF	Disabled, LowZ REF or HighZ REF
Select to be HighZ REF or LowZ REF or disable for the HV winding
Neutral CT Input	32	02	TN1	TN1

HV IS1 Set	32	03	0.09	0.02In to 1In step 0.01In
Minimum differential threshold of the HV restricted earth fault characteristic
HV IS2 Set	32	04	0.9	0.1In to 10In step 0.1In
Bias current threshold for the second slope of the HV restricted earth fault characteristic
HV IREF K1	32	05	0	0% to 150% step 1%
First slope setting of the HV REF characteristic. Normally set to 0% to give optimum sensitivity for internal faults
HV IREF K2	32	06	1.5	15% to 150% step 1%
Second slope setting of the HV REF characteristic. Normally set to 150% to ensure adequate restraint for external faults.
HV tREF	32	07	0s	0.01s
Operating time delay for the HV REF element
HV IREF>Is	32	08	0.09	0.02In to 1In step 0.01In
Threshold of the HV HighZ restricted earth fault.
HV Trans.Bias	32	09	Enabled	Enabled or Disabled
Default setting ‘Enabled’ means REF protection is same as version B2A, ‘Disabled ‘ means the transient bias is removed from bias current for all cases.
REF LV status	32	20	Disabled	Disabled, LowZ REF or HighZ REF
Select to be HighZ REF or LowZ REF or disable for the LV winding
Neutral CT Input	32	21	TN2	TN2

LV IS1 Set	32	22	0.09	0.02In to 1In step 0.01In
Minimum differential threshold of the LV REF characteristic
LV IS2 Set	32	23	0.9	0.1In to 10In step 0.1In
Bias current threshold for the second slope of the LV REF characteristic
LV IREF K1	32	24	0	0% to 150% step 1%
First slope setting of the LV REF characteristic. Normally set to 0% to give optimum sensitivity for internal faults
LV IREF K2	32	25	1.5	15% to 150% step 1%
Second slope setting of the LV REF characteristic. Normally set to 150% to ensure adequate restraint for external faults.
LV tREF	32	26	0s	0s to 10s step 0.01s
Operating time delay for the LV restricted earth fault element
LV IREF>Is	32	27	0.09	0.02In to 1In step 0.01In
Threshold of the LV HighZ restricted earth fault.
LV Trans.Bias	32	28	Enabled	Enabled or Disabled
Default setting ‘Enabled’ means REF protection is same as version B2A, ‘Disabled ‘ means the transient bias is removed from bias current for all cases.
REF TV status	32	30	Disabled	Disabled, LowZ REF or HighZ REF
P643 and P645 only. Select to be HighZ REF or LowZ REF or disable for the LV winding
Neutral CT Input	32	31	TN3	TN3
P643 and P645 only.
TV IS1 Set	32	32	0.09	0.02In to 1In step 0.01In
P643 and P645 only. Minimum differential threshold of the TV REF characteristic
TV IS2 Set	32	33	0.9	0.1In to 10In step 0.1In
P643 and P645 only. Bias current threshold for the second slope of the TV REF characteristic
TV IREF K1	32	34	0	0% to 150% step 1%
P643 and P645 only. First slope setting of the TV REF characteristic. Normally set to 0% to give optimum sensitivity for internal faults
TV IREF K2	32	35	1.5	15% to 150% step 1%
P643 and P645 only. Second slope setting of the TV REF characteristic. Normally set to 150% to ensure adequate restraint for external faults
TV tREF	32	36	0s	0s to 10s step 0.01s
P643 and P645 only. Operating time delay for the TV restricted earth fault element
TV IREF>Is	32	37	0.09	0.02In to 1In step 0.01In
P643 and P645 only. Threshold of the TV HighZ restricted earth fault.
TV Trans.Bias	32	38	Enabled	Enabled or Disabled
Default setting ‘Enabled’ means REF protection is same as version B2A, ‘Disabled ‘ means the transient bias is removed from bias current for all cases.
REF Auto status	32	40	LowZ REF	Disabled, LowZ REF or HighZ REF
Enables or disables restricted earth fault protection for the Auto
Neutral CT Input	32	41	TN1	TN1
Indicates which single phase CT is used for Auto REF calculation.
Auto IS1 Set	32	42	0.09	0.02In to 1In step 0.01In
Minimum differential threshold of the Auto REF characteristic
Auto IS2 Set	32	43	0.9	0.1In to 10In step 0.1In
Bias current threshold for the second slope of the Auto REF characteristic
Auto IREF K1	32	44	0	0% to 150% step 1%
First slope setting of the Auto REF characteristic. Normally set to 0% to give optimum sensitivity for internal faults
Auto IREF K2	32	45	1.5	15% to 150% step 1%
Second slope setting of the Auto REF characteristic. Normally set to 150% to ensure adequate restraint for external faults
Auto tREF	32	46	0s	0s to 10s step 0.01s
Operating time delay for the Auto restricted earth fault element
Auto IS1 Set	32	47	0.09	0.02In to 1In step 0.01In
Threshold of the Auto HighZ restricted earth fault.
Auto Trans.Bias	32	48	Enabled	Enabled or Disabled
Default setting ‘Enabled’ means REF protection is same as version B2A, ‘Disabled ‘ means the transient bias is removed from bias current for all cases.

NPS Overcurrent Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: NPS OVER ENT	34	00
This column contains GROUP 1: NPS OVERCURRENT parameters
NPS O/C 1	34	01	T1	Disabled, HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
Negative Sequence Overcurrent 1
I2>1 Status	34	02	Disabled	Enabled or Disabled
Enables or disables stage 1 of NPS OC 1
I2>1 Char	34	03	DT (DT)	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Slelect the stage 1 of NPSOC element 1 time characteristic
I2>1 Direction	34	04	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Determines the direction of measurement for this element
I2>1 Current Set	34	05	0.2*I1	0.08I1 to 4I1 step 0.01*I1
Current pick-up setting for the stage 1 NPS element 1
I2>1 Time Delay	34	06	10s	0s to 100s step 0.01s
Operating time delay for the stage 1 NPS overcurrent element 1
I2>1 TMS	34	07	1	0.025 to 1.2 step 0.005
Setting for the time multiplier setting to adjust the operating time of IEC IDMT characteristic
I2>1 Time Dial	34	08	1	0.01 to 100 step 0.01
Setting for the time dial setting to adjust the operating time of IEEE/US IDMT characteristic
I2>1 K(RI)	34	09	1	0.1 to 10 step 0.05
Setting for the time multiplier setting to adjust the oprating time for the RI IDMT characteristic
I2>1 Reset Char	34	0A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
I2>1 tReset	34	0B	0s	0s to 100s step 0.01s
Setting that determine the reset/release time for definite time reset characteristic
I2>2 Status	34	12	Disabled	Enabled or Disabled
Enables or disables stage 2 of NPS OC 1
I2>2 Char	34	13	DT (DT)	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Slelect stage 2 of NPSOC element 1 time characteristic
I2>2 Direction	34	14	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Determines the direction of measurement for this element
I2>2 Current Set	34	15	0.2*I1	0.08I1 to 4I1 step 0.01*I1
Current pick-up setting for the stage 2 NPS element 1
I2>2 Time Delay	34	16	10s	0s to 100s step 0.01s
Operating time delay for the stage 2 NPS overcurrent element 1
I2>2 TMS	34	17	1s	0.025 to 1.2 step 0.005
Setting for the time multiplier setting to adjust the operating time of IEC IDMT characteristic
I2>2 Time Dial	34	18	1	0.01 to 100 step 0.01
Setting for the time dial setting to adjust the operating time of IEEE/US IDMT characteristic
I2>2 K(RI)	34	19	1	0.1 to 10 step 0.05
Setting for the time multiplier setting to adjust the oprating time for the RI IDMT characteristic
I2>2 Reset Char	34	1A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
I2>2 tReset	34	1B	0s	0s to 100s step 0.01s
Setting that determine the reset/release time for definite time reset characteristic
I2>3 Status	34	21	Disabled	Enabled or Disabled
Enables or disables stage 3 NPS definite time element 1
I2>3 Direction	34	22	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Determines the direction of measurement for this element
I2>3 Current Set	34	23	0.2*I1	0.08I1 to 4I1 step 0.01*I1
Current pick-up setting for the stage 3 NPS element 1
I2>3 Time Delay	34	24	10s	0s to 100s step 0.01s
Operating time delay for the stage 3 NPS overcurrent element 1
I2>4 Status	34	27	Disabled	Enabled or Disabled
Enables or disables stage 4 NPS definite time element 1
I2>4 Direction	34	28	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Determines the direction of measurement for this element
I2>4 Current Set	34	29	0.2*I1	0.08I1 to 4I1 step 0.01*I1
Current pick-up setting for the stage 4 NPS element 1
I2>4 Time Delay	34	2A	10s	0s to 100s step 0.01s
Operating time delay for the stage 4 NPS overcurrent element 1
I2> VTS Block	34	2D	15	4-bit binary setting
Logic settings that determine whether VT supervision will block selected negative sequence overcurrent stages. VTS Block only affects directional overcurrent protection. Setting 0 allows continued non-directional operation
I2> V2pol Set	34	2E	5*V1	0.5V1 to 25V1 step 0.5*V1
The minimum threshold above which the relay must detect a polarizing voltage for the negative phase sequence directional elements to operate
I2> Char Angle	34	2F	-60°	-95° to 95° step 1°’
Characteristic angle for directionalized NPS fault protection
NPS O/C 2	34	31	P642: T2 P643: T3 P645: T5	Disabled, HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
Negative Sequence Overcurrent 2
I2>1 Status	34	32	Disabled	Enabled or Disabled
Enables or disables stage 1 of NPS OC 2
I2>1 Char	34	33	DT (DT)	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Slelect stage 1 of NPSOC element 2 time characteristic
I2>1 Direction	34	34	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Determines the direction of measurement for this element
I2>1 Current Set	34	35	0.2*I1	0.08I1 to 4I1 step 0.01*I1
Current pick-up setting for the stage 1 NPS element 2
I2>1 Time Delay	34	36	10s	0s to 100s step 0.01s
Operating time delay for the stage 1 NPS overcurrent element 2
I2>1 TMS	34	37	1s	0.025 to 1.2 step 0.005
Setting for the time multiplier setting to adjust the operating time of IEC IDMT characteristic
I2>1 Time Dial	34	38	1	0.01 to 100 step 0.01
Setting for the time dial setting to adjust the operating time of IEEE/US IDMT characteristic
I2>1 K(RI)	34	39	1	0.1 to 10 step 0.05
Setting for the time multiplier setting to adjust the oprating time for the RI IDMT characteristic
I2>1 Reset Char	34	3A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
I2>1 tReset	34	3B	0s	0s to 100s step 0.01s
Setting that determine the reset/release time for definite time reset characteristic
I2>2 Status	34	42	Disabled	Enabled or Disabled
Enables or disables stage 2 NPS OC 2
I2>2 Char	34	43	DT (DT)	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Slelect stage 2 of NPSOC element 2 time characteristic
I2>2 Direction	34	44	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Determines the direction of measurement for this element
I2>2 Current Set	34	45	0.2*I1	0.08I1 to 4I1 step 0.01*I1
Current pick-up setting for the stage 2 NPS element 2
I2>2 Time Delay	34	46	10s	0s to 100s step 0.01s
Operating time delay for the stage 2 NPS overcurrent element 2
I2>2 TMS	34	47	1s	0.025 to 1.2 step 0.005
Setting for the time multiplier setting to adjust the operating time of IEC IDMT characteristic
I2>2 Time Dial	34	48	1	0.01 to 100 step 0.01
Setting for the time dial setting to adjust the operating time of IEEE/US IDMT characteristic
I2>2 K(RI)	34	49	1	0.1 to 10 step 0.05
Setting for the time multiplier setting to adjust the oprating time for the RI IDMT characteristic
I2>2 Reset Char	34	4A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
I2>2 tReset	34	4B	0s	0s to 100s step 0.01s
Setting that determine the reset/release time for definite time reset characteristic
I2>3 Status	34	51	Disabled	Enabled or Disabled
Enables or disables stage 3 NPS OC 2
I2>3 Direction	34	52	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Determines the direction of measurement for this element
I2>3 Current Set	34	53	0.2	24A to 1200A step 3A
Current pick-up setting for the stage 3 NPS OC 2
I2>3 Time Delay	34	54	10	0s to 100s step 0.01s
Operating time delay for the stage 3 NPS OC 2
I2>4 Status	34	57	Disabled	Enabled or Disabled
Enables or disables stage 4 NPS OC 2
I2>4 Direction	34	58	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Determines the direction of measurement for this element
I2>4 Current Set	34	59	0.2*I1	0.08I1 to 4I1 step 0.01*I1
Current pick-up setting for the stage 4 OC 2
I2>4 Time Delay	34	5A	10s	0s to 100s step 0.01s
Operating time delay for the stage 4 NPS OC2
I2> VTS Block	34	5D	15	4-bit binary setting
Logic settings that determine whether VT supervision will block selected negative sequence overcurrent stages. VTS Block only affects directional overcurrent protection. Setting 0 allows continued non-directional operation
I2> V2pol Set	34	5E	5*V1	0.5V1 to 25V1 step 0.5*V1
The minimum threshold above which the relay must detect a polarizing voltage for the negative phase sequence directional elements to operate
I2> Char Angle	34	5F	-60°	-95° to 95° step 1°
Characteristic angle for directionalized NPS fault protection
NPS O/C 3	34	61	P643: T2 P645: T3	Disabled, HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
P643 and P645 only. Negetive Sequence Overcurrent 3
I2>1 Status	34	62	Disabled	Enabled or Disabled
P643 and P645 only. Enables or disables stage 1 of NPS OC 3
I2>1 Char	34	63	DT (DT)	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
P643 and P645 only. Slelect stage 1 of NPSOC element 3 time characteristic
I2>1 Direction	34	64	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. Determines the direction of measurement for this element
I2>1 Current Set	34	65	0.2*I1	0.08I1 to 4I1 step 0.01*I1
P643 and P645 only. Current pick-up setting for the stage 1 NPS element 3
I2>1 Time Delay	34	66	10s	0s to 100s step 0.01s
P643 and P645 only. Operating time delay for the stage 1 NPS overcurrent element 3
I2>1 TMS	34	67	1s	0.025 to 1.2 step 0.005
P643 and P645 only. Setting for the time multiplier setting to adjust the operating time of IEC IDMT characteristic
I2>1 Time Dial	34	68	1	0.01 to 100 step 0.01
P643 and P645 only. Setting for the time dial setting to adjust the operating time of IEEE/US IDMT characteristic
I2>1 K(RI)	34	69	1	0.1 to 10 step 0.05
P643 and P645 only. Setting for the time multiplier setting to adjust the oprating time for the RI IDMT characteristic
I2>1 Reset Char	34	6A	DT	DT or Inverse
P643 and P645 only. Setting to determine the type of reset/release characteristic of the IEEE/US curves
I2>1 tReset	34	6B	0s	0s to 100s step 0.01s
P643 and P645 only. Setting that determine the reset/release time for definite time reset characteristic
I2>2 Status	34	72	Disabled	Enabled or Disabled
P643 and P645 only. Enables or disables stage 2 of NPS OC 3
I2>2 Char	34	73	DT (DT)	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
P643 and P645 only. Slelect stage 2 of NPSOC element 3 time characteristic
I2>2 Direction	34	74	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. Determines the direction of measurement for this element
I2>2 Current Set	34	75	0.2*I1	0.08I1 to 4I1 step 0.01*I1
P643 and P645 only. Current pick-up setting for the stage 2 NPS element 3
I2>2 Time Delay	34	76	10s	0s to 100s step 0.01s
P643 and P645 only. Operating time delay for the stage 2 NPS overcurrent element 3
I2>2 TMS	34	77	1s	0.025 to 1.2 step 0.005
P643 and P645 only. Setting for the time multiplier setting to adjust the operating time of IEC IDMT characteristic
I2>2 Time Dial	34	78	1	0.01 to 100 step 0.01
P643 and P645 only. Setting for the time dial setting to adjust the operating time of IEEE/US IDMT characteristic
I2>2 K(RI)	34	79	1	0.1 to 10 step 0.05
P643 and P645 only. Setting for the time multiplier setting to adjust the oprating time for the RI IDMT characteristic
I2>2 Reset Char	34	7A	DT	DT or Inverse
P643 and P645 only. Setting to determine the type of reset/release characteristic of the IEEE/US curves
I2>2 tReset	34	7B	0s	0s to 100s step 0.01s
P643 and P645 only. Setting that determine the reset/release time for definite time reset characteristic
I2>3 Status	34	81	Disabled	Enabled or Disabled
P643 and P645 only. Enables or disables stage 3 NPS OC 3
I2>3 Direction	34	82	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. Determines the direction of measurement for this element
I2>3 Current Set	34	83	0.2*I1	0.08I1 to 4I1 step 0.01*I1
P643 and P645 only. Current pick-up setting for the stage 3 NPS OC 3
I2>3 Time Delay	34	84	10s	0s to 100s step 0.01s
P643 and P645 only. Operating time delay for the stage 3 NPS OC 3
I2>4 Status	34	87	Disabled	Enabled or Disabled
P643 and P645 only. Enables or disables stage 4 NPS OC 3
I2>4 Direction	34	88	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. Determines the direction of measurement for this element
I2>4 Current Set	34	89	0.2*I1	0.08I1 to 4I1 step 0.01*I1
P643 and P645 only. Current pick-up setting for the stage 4 NPS OC 3
I2>4 Time Delay	34	8A	10s	0s to 100s step 0.01s
P643 and P645 only. Operating time delay for the stage 4 NPS OC 3
I2> VTS Block	34	8D	15	4-bit binary setting
P643 and P645 only. Logic settings that determine whether VT supervision will block selected negative sequence overcurrent stages. VTS Block only affects directional overcurrent protection. Setting 0 allows continued non-directional operation
I2> V2pol Set	34	8E	5*V1	0.5V1 to 25V1 step 0.5*V1
P643 and P645 only. The minimum threshold above which the relay must detect a polarizing voltage for the negative phase sequence directional elements to operate
I2> Char Angle	34	8F	-60°	-95° to 95° step 1°
P643 and P645 only. Characteristic angle for directionalized NPS fault protection

Overcurrent Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: OVERCUR 1	35	00
This column contains GROUP 1: OVERCURRENT 1 parameters
Overcurrent 1	35	01	T1	Disabled, HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
Overcurrent 1
I>1 Status	35	02	Disabled	Enabled or Disabled
Setting to enable or disable the first stage overcurrent element
I>1 Char	35	03	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Setting for the tripping characteristic for the first stage overcurrent element
I>1 Direction	35	04	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the first stage element
I>1 Current Set	35	05	1	24A to 1200A step 3A
Pick-up setting for the first stage overcurrent element
I>1 Time Delay	35	06	1s	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the first stage element
I>1 TMS	35	07	1	0.025 to 1.2 step 0.005
Setting for the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
I>1 Time Dial	35	08	1	0.01 to 100 step 0.01
Setting for the time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
I>1 K (RI)	35	09	1	0.1 to 10 step 0.05
Setting for the time multiplier to adjust the operating time for the RI curve
I>1 Reset Char	35	0A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
I>1 tRESET	35	0B	0	0s to 100s step 0.01s
Setting that determines the reset/release time for definite time reset characteristic
I>2 Status	35	12	Disabled	Enabled or Disabled
Setting to enable or disable the first stage overcurrent element
I>2 Char	35	13	DT (DT)	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Setting for the tripping characteristic for the second stage overcurrent element
I>2 Direction	35	14	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the second stage element
I>2 Current Set	35	15	1	24A to 1200A step 3A
Pick-up setting for the second stage overcurrent element
I>2 Time Delay	35	16	1s	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the second stage element.
I>2 TMS	35	17	1s	0.025 to 1.2 step 0.005
Setting for the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
I>2 Time Dial	35	18	1	0.01 to 100 step 0.01
Setting for the time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
I>2 K (RI)	35	19	1	0.1 to 10 step 0.05
Setting for the time multiplier to adjust the operating time for the RI curve
I>2 Reset Char	35	1A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
I>2 tRESET	35	1B	0s	0s to 100s step 0.01s
Setting that determines the reset/release time for definite time reset characteristic
I>3 Status	35	21	Disabled	Enabled or Disabled
Setting to enable or disable the third stage overcurrent element
I>3 Direction	35	22	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the third stage element
I>3 Current Set	35	23	10A	24A to 3840A step 3A
Pick-up setting for the third stage overcurrent element
I>3 Time Delay	35	24	0s	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the third stage element
I>4 Status	35	27	Disabled	Enabled or Disabled
Setting to enable or disable the fourth stage overcurrent element
I>4 Direction	35	28	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the fourth stage element
I>4 Current Set	35	29	10	24A to 3840A step 3A
Pick-up setting for the fourth stage overcurrent element
I>4 Time Delay	35	2A	0s	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the fourth stage element.
I> Char Angle	35	2D	30°	-95°’ to 95° step ‘1°’
Setting for the relay characteristic angle used for the directional decision
I> Function Link	35	2E	15	4-bit binary setting
Logic Settings that determine whether blocking signals from VT supervision affect certain overcurrent stages
Overcurrent 2	35	31	P642: T2 P643: T3 P645: T5	Disabled, HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
Overcurrent 2
I>1 Status	35	32	Disabled	Enabled or Disabled
Setting to enable or disable the first stage overcurrent element
I>1 Char	35	33	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Setting for the tripping characteristic for the first stage overcurrent element
I>1 Direction	35	34	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the first stage element
I>1 Current Set	35	35	1	24A to 1200A step 3A
Pick-up setting for the first stage overcurrent element
I>1 Time Delay	35	36	1s	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the first stage element
I>1 TMS	35	37	1	0.025 to 1.2 step 0.005
Setting for the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
I>1 Time Dial	35	38	1	0.01 to 100 step 0.01
Setting for the time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
I>1 K (RI)	35	39	1	0.1 to 10 step 0.05
Setting for the time multiplier to adjust the operating time for the RI curve
I>1 Reset Char	35	3A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
I>1 tRESET	35	3B	0s	0s to 100s step 0.01s
Setting that determines the reset/release time for definite time reset characteristic
I>2 Status	35	42	Disabled	Enabled or Disabled
Setting to enable or disable the second stage overcurrent element
I>2 Char	35	43	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Setting for the tripping characteristic for the first stage overcurrent element
I>2 Direction	35	44	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the second stage element
I>2 Current Set	35	45	1	24A to 1200A step 3A
Pick-up setting for the second stage overcurrent element
I>2 Time Delay	35	46	1	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the second stage element.
I>2 TMS	35	47	1	0.025 to 1.2 step 0.005
Setting for the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
I>2 Time Dial	35	48	1	0.01 to 100 step 0.01
Setting for the time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
I>2 K (RI)	35	49	1	0.1 to 10 step 0.05
Setting for the time multiplier to adjust the operating time for the RI curve
I>2 Reset Char	35	4A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
I>2 tRESET	35	4B	0	0s to 100s step 0.01s
Setting that determines the reset/release time for definite time reset characteristic
I>3 Status	35	51	Disabled	Enabled or Disabled
Setting to enable or disable the third stage overcurrent element
I>3 Direction	35	52	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the third stage element
I>3 Current Set	35	53	10	24A to 3840A step 3A
Pick-up setting for the third stage overcurrent element
I>3 Time Delay	35	54	0	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the third stage element
I>4 Status	35	57	Disabled	Enabled or Disabled
Setting to enable or disable the fourth stage overcurrent element
I>4 Direction	35	58	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the fourth stage element
I>4 Current Set	35	59	10	24A to 3840A step 3A
Pick-up setting for the fourth stage overcurrent element
I>4 Time Delay	35	5A	0s	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the fourth stage element.
I> Char Angle	35	5D	30°	-95° to 95° step 1°
Setting for the relay characteristic angle used for the directional decision
I> Function Link	35	5E	15	4-bit binary setting
Logic Settings that determine whether blocking signals from VT supervision affect certain overcurrent stages
Overcurrent 3	35	61	P643: T2 P645: T3	P643 and P645 only. Disabled, HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
P643 and P645 only. Overcurrent 3
I>1 Status	35	62	Disabled	Enabled or Disabled
P643 and P645 only. Setting to enable or disable the first stage overcurrent element
I>1 Char	35	63	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
P643 and P645 only. Setting for the tripping characteristic for the first stage overcurrent element
I>1 Direction	35	64	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. This setting determines the direction of measurement for the first stage element
I>1 Current Set	35	65	1	24A to 1200A step 3A
P643 and P645 only. Pick-up setting for the first stage overcurrent element
I>1 Time Delay	35	66	1	0s to 100s step 0.01s
P643 and P645 only. Setting for the time delay for the definite time setting if selected for the first stage element
I>1 TMS	35	67	1	0.025 to 1.2 step 0.005
P643 and P645 only. Setting for the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
I>1 Time Dial	35	68	1	0.01 to 100 step 0.01
P643 and P645 only. Setting for the time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
I>1 K (RI)	35	69	1	0.1 to 10 step 0.05
P643 and P645 only. Setting for the time multiplier to adjust the operating time for the RI curve
I>1 Reset Char	35	6A	DT	DT or Inverse
P643 and P645 only. Setting to determine the type of reset/release characteristic of the IEEE/US curves
I>1 tRESET	35	6B	0	0s to 100s step 0.01s
P643 and P645 only. Setting that determines the reset/release time for definite time reset characteristic
I>2 Status	35	72	Disabled	Enabled or Disabled
P643 and P645 only. Setting to enable or disable the second stage overcurrent element
I>2 Char	35	73	DT (DT)	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
P643 and P645 only. Setting for the tripping characteristic for the second stage overcurrent element
I>2 Direction	35	74	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. This setting determines the direction of measurement for the second stage element
I>2 Current Set	35	75	1	24A to 1200A step 3A
P643 and P645 only. Pick-up setting for the second stage overcurrent element
I>2 Time Delay	35	76	1	0s to 100s step 0.01s
P643 and P645 only. Setting for the time delay for the definite time setting if selected for the second stage element.
I>2 TMS	35	77	1	0.025 to 1.2 step 0.005
P643 and P645 only. Setting for the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
I>2 Time Dial	35	78	1	0.01 to 100 step 0.01
P643 and P645 only. Setting for the time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
I>2 K (RI)	35	79	1	0.1 to 10 step 0.05
P643 and P645 only. Setting for the time multiplier to adjust the operating time for the RI curve
I>2 Reset Char	35	7A	DT	DT or Inverse
P643 and P645 only. Setting to determine the type of reset/release characteristic of the IEEE/US curves
I>2 tRESET	35	7B	0	0s to 100s step 0.01s
P643 and P645 only. Setting that determines the reset/release time for definite time reset characteristic
I>3 Status	35	81	Disabled	Enabled or Disabled
P643 and P645 only. Setting to enable or disable the third stage overcurrent element
I>3 Direction	35	82	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. This setting determines the direction of measurement for the third stage element
I>3 Current Set	35	83	10	24A to 3840A step 3A
P643 and P645 only. Pick-up setting for the third stage overcurrent element
I>3 Time Delay	35	84	0	0s to 100s step 0.01s
P643 and P645 only. Setting for the time delay for the definite time setting if selected for the third stage element
I>4 Status	35	87	Disabled	Enabled or Disabled
P643 and P645 only. Setting to enable or disable the fourth stage overcurrent element
I>4 Direction	35	88	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. This setting determines the direction of measurement for the fourth stage element
I>4 Current Set	35	89	10	24A to 3840A step 3A
P643 and P645 only. Pick-up setting for the fourth stage overcurrent element
I>4 Time Delay	35	8A	0s	0s to 100s step 0.01s
P643 and P645 only. Setting for the time delay for the definite time setting if selected for the fourth stage element.
I> Char Angle	35	8D	30°	-95° to 95° step 1°
P643 and P645 only. Setting for the relay characteristic angle used for the directional decision
I> Function Link	35	8E	15	4-bit binary setting
P643 and P645 only. Logic Settings that determine whether blocking signals from VT supervision affect certain overcurrent stages
V DEPENDANT O/C	35	90	Sub-Heading	Sub-Heading
Sub-Heading for voltage dependant over current
V Dep OC>1 Mode	35	91	VCO	0 = VCO, 1 = VRO
Voltage dependant overcurrent stage 1 mode
V OC>1	35	92	Disabled	Disabled, HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
Enable or disable Voltage dependant overcurrent stage 1
V OC>1 Char	35	93	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Setting for the tripping characteristic for the first stage voltage dependant overcurrent element
V OC>1 Direction	35	94	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the first stage element
V OC>1 Curr’ Set	35	95	1	24A to 1200A step 3A
Current pick-up setting for first stage the voltage dependant over current
V OC>1 T Delay	35	96	1	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the first stage element
V OC>1 TMS	35	97	1	0.025 to 1.2 step 0.025
Setting for the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
V OC>1 Time Dial	35	98	1	0.01 to 100 step 0.01
Setting for the time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
V OC>1 k (RI)	35	99	1	0.1 to 10 step 0.05
Setting for the time multiplier to adjust the operating time for the RI curve
V OC>1 Rst Char	35	9A	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
V OC>1 tRESET	35	9B	0s	0s to 100s step 0.01s
Setting that determines the reset/release time for definite time reset characteristic
V OC>1 Angle	35	9C	30°	-95° to 95° step 1°
Setting for the relay characteristic angle used for the directional decision
V OC>1 V<1 Set	35	9D	80	5V to 120V step 1V
Sets the voltage V1 threshold at which the current setting of the overcurrent stage/stages becomes reduced, noting that this occurs on a per phase basis.
V OC>1 K Set	35	9E	0.25	0.1 to 1 step 0.25
Sets to determine the overcurrent multiplier factor used to reduce the pick-up overcurrent setting.
V OC>1 V<2 Set	35	9F	60	5V to 120V step 1V
Sets the voltage V2 threshold at which the current setting of the overcurrent stage/stages becomes reduced, noting that this occurs on a per phase basis.
V Dep OC>2 Mode	35	A1	VCO	0 = VCO, 1 = VRO
Allows selection of whether voltage control or voltage restrained should be applied.
V OC>2	35	A2	Disabled	Disabled, HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
Enable or disable Voltage dependant overcurrent stage 2
V OC>2 Char	35	A3	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Setting for the tripping characteristic for the second stage voltage dependant overcurrent element
V OC>2 Direction	35	A4	Non-Directional	Non-directional, Directional Fwd or Directional Rev
This setting determines the direction of measurement for the second stage element
V OC>2 Curr’ Set	35	A5	1	24A to 1200A step 3A
Current pick-up setting for second stage the voltage dependant over current
V OC>2 T Delay	35	A6	1	0s to 100s step 0.01s
Setting for the time delay for the definite time setting if selected for the second stage element
V OC>2 TMS	35	A7	1	0.025 to 1.2 step 0.025
Setting for the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
V OC>2 Time Dial	35	A8	1	0.01 to 100 step 0.01
Setting for the time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
V OC>2 k (RI)	35	A9	1	0.1 to 10 step 0.05
Setting for the time multiplier to adjust the operating time for the RI curve
V OC>2 Rst Char	35	AA	DT	DT or Inverse
Setting to determine the type of reset/release characteristic of the IEEE/US curves
V OC>2 tRESET	35	AB	0s	0s to 100s step 0.01s
Setting that determines the reset/release time for definite time reset characteristic
V OC>2 Angle	35	AC	30°	-95° to 95° step 1°
Setting for the relay characteristic angle used for the directional decision
V OC>2 V<1 Set	35	AD	80	5V to 120V step 1V
Sets the voltage V1 threshold at which the current setting of the overcurrent stage/stages becomes reduced, noting that this occurs on a per phase basis.
V OC>2 K Set	35	AE	0.25	0.1 to 1 step 0.25
Sets to determine the overcurrent multiplier factor used to reduce the pick-up overcurrent setting.
V OC>2 V<2 Set	35	AF	60	5V to 120V step 1V
Sets the voltage V2 threshold at which the current setting of the overcurrent stage/stages becomes reduced, noting that this occurs on a per phase basis.

Thermal Overload Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: THERMAL OVERLOAD	37	00
This column contains GROUP1: THERMAL OVERLOAD parameters
Monit’d winding	37	11	HV	HV, LV, TV or Biased Current
An overall through loading picture of the transformer is provided when the monitor winding is set to Biased Current
Ambient T	37	12	AVERAGE	RTD 1 to 10, CLIO 1 to 4 or Average
Ambient temperature
CLI Input Type	37	15	4-20mA	0-1 mA, 0-10m/a, 0-20mA or 4-20mA
This setting is available when Ambient T is set to CLIOx
CLI Minimum	37	16	0	-9999 to 9999 step 0.1
This setting is available when Ambient T is set to CLIOx
CLI Maximum	37	17	100	-9999 to 9999 step 0.1
This setting is available when Ambient T is set to CLIOx
Average Amb T	37	18	25	-25°C to 75°C step 0.1°C
This setting is available when Ambient T is set to Average
Top Oil Temp	37	21	CALCULATED	RTD 1 to 10, CLIO 1 to 4 or Calculated
The top oil temperature may be calculated by the relay, or it may be measured using RTD or CLIO inputs
CLI Input Type	37	24	4-20mA	0 to 3 step 1
This setting is available when Top Oil T is set to CLIOx
CLI Minimum	37	25	0	-9999 to 9999 step 0.1
This setting is available when Top Oil T is set to CLIOx
CLI Maximum	37	26	100	-9999 to 9999 step 0.1
This setting is available when Top Oil T is set to CLIOx
IB	37	29	1	0.1pu to 4pu step 0.01pu
The relay uses this setting to calculate the ratio of ultimate load to rated load
Rated NoLoadLoss	37	2A	3	0.1 to 100 step 0.1
Ratio of load loss at rated load to no-load loss (iron loss). The transformer manufacturer should provide this parameter
Hot Spot Overtop	37	2B	25	0.1°C to 200°C step 0.1°C
Hottest spot temperature over top oil temperature setting. The transformer manufacturer should provide this parameter
Top Oil Overamb	37	2C	55	0.1°C to 200°C step 0.1°C
Top oil temperature over ambient temperature setting. The transformer manufacturer should provide this parameter
Cooling Mode	37	2D	Cooling Mode 1	Cooling Mode 1, Cooling Mode 2, Cooling Mode 3, Cooling Mode 4 or Select via PSL
This setting is uesed to select the cooling Mode
Cooling Mode 1	37	2F	Sub-Heading	Sub-Heading
This is the Sub-Heading for cooling mode 1. It is visible when cooling mode is selected to be cooling mode 1 or to be select from PSL
Winding exp m	37	30	0.8	0.01 to 2 step 0.01
Winding exponient m for cooling mode 1, available when cooling mode is selected to be cooling mode 1 or select from PSL
Oil exp n	37	31	0.8	0.01 to 2 step 0.01
oil exponient n for cooling mode 1, available when cooling mode is selected to be cooling mode 1 or select from PSL
Cooling Mode 2	37	32	Sub-Heading	Sub-Heading
This is the Sub-Heading for cooling mode 2. It is visible when cooling mode is selected to be cooling mode 2 or to be select from PSL
Winding exp m	37	33	0.8	0.01 to 2 step 0.01
Winding exponient m for cooling mode 2, available when cooling mode is selected to be cooling mode 2 or select from PSL
Oil exp n	37	34	0.8	0.01 to 2 step 0.01
oil exponient n for cooling mode 2, available when cooling mode is selected to be cooling mode 2 or select from PSL
Cooling Mode 3	37	35	Sub-Heading	Sub-Heading
This is the Sub-Heading for cooling mode 3. It is visible when cooling mode is selected to be cooling mode 3 or to be select from PSL
Winding exp m	37	36	0.8	0.01 to 2 step 0.01
Winding exponient m for cooling mode 3, available when cooling mode is selected to be cooling mode 3 or select from PSL
Oil exp n	37	37	0.8	0.01 to 2 step 0.01
oil exponient n for cooling mode 3, available when cooling mode is selected to be cooling mode 3 or select from PSL
Cooling Mode 4	37	38	Sub-Heading	Sub-Heading
This is the Sub-Heading for cooling mode 4. It is visible when cooling mode is selected to be cooling mode 4 or to be select from PSL
Winding exp m	37	39	0.8	0.01 to 2 step 0.01
Winding exponient m for cooling mode 4, available when cooling mode is selected to be cooling mode 4 or select from PSL
Oil exp n	37	3A	0.8	0.01 to 2 step 0.01
oil exponient n for cooling mode 4, available when cooling mode is selected to be cooling mode 4 or select from PSL
Hot spot rise co	37	3B	1	0.01 min to 20 min step 0.01 min
Hot spot rise co parameters used to calculate the hot spot temperature
Top oil rise co	37	3C	120	1 min to 1000 min step 1 min
Top oil reis co parameters used to calculate the top oil temperature
Tol Status	37	40	Enabled	Enabled or Disabled
This setting enables or disables the three hot spot and the three top oil thermal stages
Hot Spot>1 Set	37	5E	110 deg C	1°C to 300°C step 0.1°C
Hot spot first stage setting. The suggested temperature limits given by IEEE Std. C57.91-1995 may be used to set it. See the application chapter for suggested values
tHot Spot>1 Set	37	5F	10 mins	0 min to 60000 min step 1 min
Hot spot first stage time delay setting
Hot Spot>2 Set	37	60	130 deg C	1°C to 300°C step 0.1°C
Hot spot second stage setting. The suggested temperature limits given by IEEE Std. C57.91-1995 may be used to set it. See the application chapter for suggested values
tHot Spot>2 Set	37	61	10 mins	0 min to 60000 min step 0.1 min
Hot spot second stage time delay setting
Hot Spot>3 Set	37	62	150 deg C	1°C to 300°C step 0.1°C
Hot spot third stage setting. The suggested temperature limits given by IEEE Std. C57.91-1995 may be used to set it. See the application chapter for suggested values
tHot Spot>3 Set	37	63	10 mins	0 min to 60000 min step 1 min
Hot spot third stage time delay setting
Top Oil>1 Set	37	64	70 deg C	1°C to 300°C step 0.1°C
Top oil first stage setting. The suggested temperature limits given by IEEE Std. C57.91-1995 may be used to set it. See the application chapter for suggested values.
tTop Oil>1 Set	37	65	10 mins	0 min to 60000 min step 1 min
Top oil second stage setting. The suggested temperature limits given by IEEE Std. C57.91-1995 (may be used to set it. See the application chapter for suggested values
Top Oil>2 Set	37	66	80 deg C	1°C to 300°C step 0.1°C
Top oil second stage setting. The suggested temperature limits given by IEEE Std. C57.91-1995 (may be used to set it. See the application chapter for suggested values
tTop Oil>2 Set	37	67	10 mins	0 min to 60000 min step 1 min
Top oil second stage time delay setting
Top Oil>3 Set	37	68	90 deg C	1°C to 300°C step 0.1°C
Top oil third stage setting. The suggested temperature limits given by IEEE Std. C57.91-1995 may be used to set it. See the application chapter for suggested values
tTop Oil>3 Set	37	69	10 mins	0 min to 60000 min step 1 min
Top oil third stage time delay setting
tPre-trip Set	37	6A	5 mins	0 min to 60000 min step 1 min
After the tpre-trip timer has expired, a pre-trip alarm is given. This alarm indicates that if the load remains unchanged a thermal trip will be asserted after the stage timer has expired
LOL Status	37	80	Enable	Enabled or Disabled
Enables or disables the loss of life function
Life Hours at HS	37	81	180000 hrs	1 hr to 300000 hrs step 1hr
Life hours at the reference hottest spot temperature. Advice from the transformer manufacturer may be required
Designed HS temp	37	82	110 deg C	1°C to 200°C step 0.1°C
The designed hottest spot temperature is 110°C for a transformer rated 65°C average winding rise, and 95°C for a transformer rated 55°C average winding rise
Constant B Set	37	83	15000	1 to 100000 step 1
Constant B is associated to the life expectancy curve. It is based on modern experimental data, and it may be set to 15000 as suggested by IEEE Std. C57.91-1995
FAA> Set	37	84	2	0.1 to 30 step 0.01
Aging acceleration factor setting. If the aging acceleration factor calculated by the relay is above this setting and tFAA has expired, an FAA alarm would be asserted. FAA calculation depends on constant B and the hottest temperature calculated by the thermal element
tFAA> Set	37	85	10 mins	0 min to 60000 min step 1 min
Aging acceleration factor timer
LOL>1 Set	37	86	135000 hrs	1 hr to 300000 hrs step 1hr
Transformer loss of life setting. If the life already lost by the transformer is above this threshold, an LOL alarm would be asserted after tLOL has expired. LOL calculation depends on the life hours at design hot spot temperature and the calculated residual life
tLOL> Set	37	87	10 mins	0 min to 60000 min step 1 min
Loss of life timer
Reset Life Hours	37	88	0 hr	1 hr to 300000 hrs step 1hr
Resets the LOL status parameter to the set value when the loss of life reset command is executed. For new transformers Reset Life Hours is zero, so that when the commissioning of the thermal element is over, the loss of life statistics calculations are reset to zero. For old transformers this setting should indicate how much life the transformer has already lost; therefore, it should be set to the transformer loss of life

Earth Fault Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: EARTH FAULT	38	00
This colunm contains GROUP1 : EARTH FAULT parameters
Earth Fault 1	38	01	Enabled	Enabled or Disabled
Enable or Disable Earth Fault 1
EF 1 Input	38	02	Measured	Measured or Derived
Selects measured neutral current or derived neutral current
EF 1 Derived	38	03	T1	HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
This is available when earth fault is selected to be derived for stage 1 to detemine the derived current source
EF 1 Measured	38	04	TN1	TN1, TN2 or TN3
This is available when earth fault is selected to be measured for stage 1 to determine the measured current source
IN>1 Status	38	05	Enabled	Enabled or Disabled
Setting to enable or disable the first stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>1 Char	38	06	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Tripping characteristic for the first stage earth fault element 1
IN>1 Direction	38	07	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Direction setting for the first stage earth fault protection 1
IN>1 Current	38	08	0.2*In	24A to 1200A step 3A
Pick-up setting for the first stage earth fault element 1
IN>1 IDG Is	38	09	1.5	1 to 4 step 0.1
Multiple of IN>1 setting for the IDG curve (Scandinavia), determines the actual relay current threshold at which the element starts
IN>1 Time Delay	38	0A	1	0s to 200s step 0.01s
Operating time delay setting for the first stage definite time element
IN>1 TMS	38	0B	1	0.025 to 1.2 step 0.005
Time multiplier setting to adjust the operating time of the IEC IDMT characteristic
IN>1 Time Dial	38	0C	1	0.01 to 100 step 0.01
Time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
IN>1 K (RI)	38	0D	1	0.1 to 10 step 0.05
Time multiplier to adjust the operating time for the RI curve
IN>1 IDG Time	38	0E	1.2	1 to 2 step 0.01
Minimum operating time at high levels of fault current for the IDG curve
IN>1 Reset Char	38	0F	DT	DT or Inverse
Type of reset/release characteristic of the IEEE/US curves
IN>1 tRESET	38	10	0	0s to 100s step 0.01s
Reset/release time setting for definite time reset characteristic
IN>2 Status	38	15	Disabled	Enabled or Disabled
Setting to enable or disable the second stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>2 Char	38	16	DT	Disabled, DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Tripping characteristic for the second stage earth fault protection 1
IN>2 Direction	38	17	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Direction setting for the second stage earth fault protection 1
IN>2 Current	38	18	0.2	24A to 1200A step 3A
Pick-up setting for the second stage earth fault element 1
IN>2 IDG Is	38	19	1.5	1 to 4 step 0.1
Multiple of IN>2 setting for the IDG curve (Scandinavia), determines the actual relay current threshold at which the element starts
IN>2 Time Delay	38	1A	1	0s to 200s step 0.01s
Operating time delay setting for the second stage definite time element
IN>2 TMS	38	1B	1	0.025 to 1.2 step 0.005
Time multiplier setting to adjust the operating time of the IEC IDMT characteristic
IN>2 Time Dial	38	1C	1	0.01 to 100 step 0.01
Time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
IN>2 K (RI)	38	1D	1	0.1 to 10 step 0.05
Time multiplier to adjust the operating time for the RI curve
IN>2 IDG Time	38	1E	1.2	1s to 2s step 0.01s
Minimum operating time at high levels of fault current for the IDG curve
IN>2 Reset Char	38	1F	DT	DT or Inverse
Type of reset/release characteristic of the IEEE/US curves
IN>2 tRESET	38	20	0	0s to 100s step 0.01s
Reset/release time setting for definite time reset characteristic
IN>3 Status	38	25	Disabled	Enabled or Disabled
Setting to enable or disable the third stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>3 Direction	38	26	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Direction setting for the third stage earth fault protection 1
IN>3 Current	38	27	0.5	24A to 9600A step 3A
Pick-up setting for the third stage earth fault element 1
IN>3 Time Delay	38	28	0	0s to 200s step 0.01s
Operating time delay setting for the third stage definite time element
IN>4 Status	38	2C	Disabled	Enabled or Disabled
Setting to enable or disable the fourth stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>4 Direction	38	2D	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Direction setting for the fourth stage earth fault protection 1
IN>4 Current	38	2E	0.5	24A to 9600A step 3A
Pick-up setting for the fourth stage earth fault element 1
IN>4 Time Delay	38	2F	0	0s to 200s step 0.01s
Operating time delay setting for the fourth stage definite time element
IN> Func Link	38	33	15	4-bit binary setting
Settings that determine whether VT supervision logic signals block selected earth fault stages. When set to 1, the VTS operation will block the stage if directionalized. When set to 0, the stage will revert to non-directional on the operation of the VTS
IN> DIRECTIONAL	38	34	Sub-Heading	Sub-Heading
Sub-Heading for IN directional
IN> Char Angle	38	35	-60	-95° to 95° step 1°
Setting for the relay characteristic angle used for the directional decision
IN> Pol	38	36	Zero Sequence	Zero sequence or Neg sequence
Setting that determines whether the directional function uses zero sequence or negative sequence voltage polarizing
IN> VNpol Set	38	37	5	0.5V to 80V step 0.5V
P643 and P645 only. Setting for the minimum zero sequence voltage polarizing quantity for directional decision
IN> V2pol Set	38	38	5	0.5V to 80V step 0.5V
Setting for the minimum negative sequence voltage polarizing quantity for directional decision
IN> I2pol Set	38	39	0.08	24A to 300A step 3A
Setting for the minimum negative sequence current polarizing quantity for directional decision
Earth Fault 2	38	41	Enabled	Enabled or Disabled
Enable or Disable Earth Fault 2
EF 2 Input	38	42	Measured	Measured or Derived
Selects measured neutral current or derived neutral current
EF 2 Derived	38	43	P642: T2 P643: T3 P645: T5	HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
The setting is avaliable when earth fault input is derived to select the derived neural current source
EF 2 Measured	38	44	TN2	TN1, TN2 or TN3
The setting is avaliable when earth fault input is measured to select the measured neural curernt source
IN>1 Status	38	45	Enabled	Enabled or Disabled
Setting to enable or disable the first stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>1 Char	38	46	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Tripping characteristic for the first stage earth fault protection 2
IN>1 Direction	38	47	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Direction setting for the first stage earth fault protection 2
IN>1 Current	38	48	0.2*In	24A to 1200A step 3A
Pick-up setting for the first stage earth fault element 2
IN>1 IDG Is	38	49	1.5	1 to 4 step 0.1
Multiple of IN>1 setting for the IDG curve (Scandinavia), determines the actual relay current threshold at which the element starts
IN>1 Time Delay	38	4A	1	0s to 200s step 0.01s
Operating time delay setting for the first stage definite time element
IN>1 TMS	38	4B	1	0.025 to 1.2 step 0.005
Time multiplier setting to adjust the operating time of the IEC IDMT characteristic
IN>1 Time Dial	38	4C	1	0.01 to 100 step 0.01
Time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
IN>1 K (RI)	38	4D	1	0.1 to 10 step 0.05
Time multiplier setting to adjust the operating time for the RI curve
IN>1 IDG Time	38	4E	1.2	1s to 2s step 0.01s
Minimum operating time at high levels of fault current for the IDG curve
IN>1 Reset Char	38	4F	DT	DT or Inverse
Type of reset/release characteristic of the IEEE/US curves
IN>1 tRESET	38	50	0	0s to 100s step 0.01s
Reset/release time setting for definite time reset characteristic
IN>2 Status	38	55	Disabled	Enabled or Disabled
Setting to enable or disable the second stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>2 Char	38	56	DT	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
Tripping characteristic for the second stage earth fault protection 2
IN>2 Direction	38	57	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Direction setting for the second stage earth fault protection 2
IN>2 Current	38	58	0.2	24A to 1200A step 3A
Pick-up setting for the second stage earth fault element 2
IN>2 IDG Is	38	59	1.5	1 to 4 step 0.1
Multiple of IN>2 setting for the IDG curve (Scandinavia), determines the actual relay current threshold at which the element starts
IN>2 Time Delay	38	5A	1	0s to 200s step 0.01s
Operating time delay setting for the second stage definite time element
IN>2 TMS	38	5B	1	0.025 to 1.2 step 0.005
Time multiplier setting to adjust the operating time of the IEC IDMT characteristic
IN>2 Time Dial	38	5C	1	0.01 to 100 step 0.01
Time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
IN>2 K (RI)	38	5D	1	0.1 to 10 step 0.05
Time multiplier to adjust the operating time for the RI curve
IN>2 IDG Time	38	5E	1.2	1s to 2s step 0.01s
Minimum operating time at high levels of fault current for the IDG curve
IN>2 Reset Char	38	5F	DT	DT or Inverse
Type of reset/release characteristic of the IEEE/US curves
IN>2 tRESET	38	60	0	0s to 100s step 0.01s
Reset/release time setting for definite time reset characteristic
IN>3 Status	38	65	Disabled	Enabled or Disabled
Setting to enable or disable the third stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>3 Direction	38	66	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Direction setting for the third stage earth fault protection 2
IN>3 Current	38	67	0.5	24A to 9600A step 3A
Pick-up setting for the third stage earth fault element 2
IN>3 Time Delay	38	68	0	0s to 200s step 0.01s
Operating time delay setting for the third stage definite time element
IN>4 Status	38	6C	Disabled	Enabled or Disabled
Setting to enable or disable the fourth stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>4 Direction	38	6D	Non-Directional	Non-directional, Directional Fwd or Directional Rev
Direction setting for the fourth stage earth fault protection 2
IN>4 Current	38	6E	0.5	24A to 9600A step 3A
Pick-up setting for the fourth stage earth fault element 2
IN>4 Time Delay	38	6F	0	0s to 200s step 0.01s
Operating time delay setting for the fourth stage definite time element
IN> Func Link	38	73	15	4-bit binary setting
Settings that determine whether VT supervision logic signals block selected earth fault stages. When set to 1, the VTS operation will block the stage if directionalized. When set to 0, the stage will revert to non-directional on the operation of the VTS
IN> DIRECTIONAL	38	74	Sub-Heading	Sub-Heading
Sub-Heading for IN directional
IN> Char Angle	38	75	-60	-95° to 95° step 1°
Setting for the relay characteristic angle used for the directional decision
IN> Pol	38	76	Zero Sequence	Zero sequence or Neg sequence
Setting that determines whether the directional function uses zero sequence or negative sequence voltage polarizing
IN> VNpol Set	38	77	5	0.5V to 80V step 0.5V
P643 and P645 only. Setting for the minimum zero sequence voltage polarizing quantity for directional decision
IN> V2pol Set	38	78	5	0.5V to 25V step 0.5V
Setting for the minimum negative sequence voltage polarizing quantity for directional decision
IN> I2pol Set	38	79	0.08	24A to 300A step 3A
Setting for the minimum negative sequence current polarizing quantity for directional Decision
Earth Fault 3	38	81	Enabled	Enabled or Disabled
P643 and P645 only. Earth Fault 3
EF 3 Input	38	82	Measured	Measured or Derived
P643 and P645 only. Selects measured neutral current or derived neutral current
EF 3 Derived	38	83	P643: T2 P645: T3	HV Winding, LV Winding, TV Winding, T1, T2, T3, T4 or T5
P643 and P645 only.
EF 3 Measured	38	84	TN3	TN1, TN2 or TN3
P643 and P645 only.
IN>1 Status	38	85	Enabled	Enabled or Disabled
P643 and P645 only. Setting to enable or disable the first stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>1 Char	38	86	IEC S Inverse	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
P643 and P645 only. Tripping characteristic for the first stage earth fault protection
IN>1 Direction	38	87	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. Direction setting for the first stage earth fault protection 3
IN>1 Current	38	88	0.2*In	24A to 1200A step 3A
P643 and P645 only. Pick-up setting for the first stage earth fault element 3
IN>1 IDG Is	38	89	1.5	1 to 4 step 0.1
P643 and P645 only. Multiple of IN>1 setting for the IDG curve (Scandinavia), determines the actual relay current threshold at which the element starts
IN>1 Time Delay	38	8A	1	0s to 200s step 0.01s
P643 and P645 only. Operating time delay setting for the first stage definite time element
IN>1 TMS	38	8B	1	0.025 to 1.2 step 0.005
P643 and P645 only. Time multiplier setting to adjust the operating time of the IEC IDMT characteristic
IN>1 Time Dial	38	8C	1	0.01 to 100 step 0.01
P643 and P645 only. Time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
IN>1 K (RI)	38	8D	1	0.1 to 10 step 0.05
P643 and P645 only. Time multiplier to adjust the operating time for the RI curve
IN>1 IDG Time	38	8E	1.2	1s to 2s step 0.01s
P643 and P645 only. Minimum operating time at high levels of fault current for the IDG curve
IN>1 Reset Char	38	8F	DT	DT or Inverse
P643 and P645 only. Type of reset/release characteristic of the IEEE/US curves
IN>1 tRESET	38	90	0	0s to 100s step 0.01s
P643 and P645 only. Reset/release time setting for definite time reset characteristic
IN>2 Status	38	95	Disabled	Enabled or Disabled
d P645 only. e or disable the second stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>2 Char	38	96	DT	DT (DT), IEC S Inverse (TMS), IEC V Inverse (TMS), IEC E Inverse (TMS), UK LT Inverse (TMS), Rectifier (TMS), RI (K), IEEE M Inverse (TD), IEEE V Inverse (TD), IEEE E Inverse (TD), US Inverse (TD) or US ST Inverse (TD)
P643 and P645 only. Tripping characteristic for the second stage earth fault protection
IN>2 Direction	38	97	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. Direction setting for the second stage earth fault protection 2
IN>2 Current	38	98	0.2	24A to 1200A step 3A
P643 and P645 only. Pick-up setting for the second stage earth fault element 2
IN>2 IDG Is	38	99	1.5	1 to 4 step 0.1
P643 and P645 only. Multiple of IN>2 setting for the IDG curve (Scandinavia), determines the actual relay current threshold at which the element starts
IN>2 Time Delay	38	9A	1	0s to 200s step 0.01s
P643 and P645 only. Operating time delay setting for the second stage definite time element
IN>2 TMS	38	9B	1	0.025 to 1.2 step 0.005
P643 and P645 only. Time multiplier setting to adjust the operating time of the IEC IDMT characteristic
IN>2 Time Dial	38	9C	1	0.01 to 100 step 0.01
P643 and P645 only. Time multiplier setting to adjust the operating time of the IEEE/US IDMT curves
IN>2 K (RI)	38	9D	1	0.1 to 10 step 0.05
P643 and P645 only. Time multiplier to adjust the operating time for the RI curve
IN>2 IDG Time	38	9E	1.2	1s to 2s step 0.01s
P643 and P645 only. Minimum operating time at high levels of fault current for the IDG curve
IN>2 Reset Char	38	9F	DT	DT or Inverse
P643 and P645 only. Type of reset/release characteristic of the IEEE/US curves
IN>2 tRESET	38	A0	0	0s to 100s step 0.01s
P643 and P645 only. Reset/release time setting for definite time reset characteristic
IN>3 Status	38	A5	Disabled	Enabled or Disabled
P643 and P645 only. Setting to enable or disable the third stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>3 Direction	38	A6	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. Direction setting for the third stage earth fault protection 3
IN>3 Current	38	A7	0.5	24A to 9600A step 3A
P643 and P645 only. Pick-up setting for the third stage earth fault element 3
IN>3 Time Delay	38	A8	0	0s to 200s step 0.01s
P643 and P645 only. Operating time delay setting for the third stage definite time element
IN>4 Status	38	AC	Disabled	Enabled or Disabled
P643 and P645 only. Setting to enable or disable the fourth stage definite time element. If the function is disabled, all associated settings with the exception of this setting, are hidden
IN>4 Direction	38	AD	Non-Directional	Non-directional, Directional Fwd or Directional Rev
P643 and P645 only. Direction setting for the fourth stage TV winding earth fault protection
IN>4 Current	38	AE	0.5	24A to 9600A step 3A
P643 and P645 only. Pick-up setting for the fourth stage earth fault element on the TV winding
IN>4 Time Delay	38	AF	0	0s to 200s step 0.01s
P643 and P645 only. Operating time delay setting for the fourth stage definite time element
IN> Func Link	38	B3	15	4-bit binary setting
P643 and P645 only. Settings that determine whether VT supervision logic signals block selected earth fault stages. When set to 1, the VTS operation will block the stage if directionalized. When set to 0, the stage will revert to non-directional on the o
IN> DIRECTIONAL	38	B4	Sub-Heading	Sub-Heading
P643 and P645 only.
IN> Char Angle	38	B5	-60	-95° to 95° step 1°
P643 and P645 only. Setting for the relay characteristic angle used for the directional decision
IN> Pol	38	B6	Zero Sequence	Zero sequence or Neg sequence
P643 and P645 only. Setting that determines whether the directional function uses zero sequence or negative sequence voltage polarizing
IN> VNpol Set	38	B7	5	0.5V to 80V step 0.5V
P643 and P645 only. Setting for the minimum zero sequence voltage polarizing quantity for directional decision
IN> V2pol Set	38	B8	5	0.5V to 25V step 0.5V
P643 and P645 only. Setting for the minimum negative sequence voltage polarizing quantity for directional decision
IN> I2pol Set	38	B9	0.08	24A to 300A step 3A
P643 and P645 only. Setting for the minimum negative sequence current polarizing quantity for directional decision

Through Fault (TF) Monitoring Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: TF MONITORING	39	00
This column contains GROUP1: THROUGH FAULT parameters
Through Fault	39	01	Enabled	Enabled or Disabled
Enables or disables monitoring of through faults
Monitored Input	39	02	HV	HV, LV, TV or Biased Current
Selects the input winding to be monitored
TF I> Trigger	39	03	3.85pu	0.08pu to 20pu step 0.01pu
A through fault event is recorded if any of the phase currents is larger than this setting
TF I2t> Alarm	39	04	100 pu	0 to 1600pu step 0.1pu
An alarm is asserted if the maximum cumulative I2t in the three phases exceeds this setting

Residual Overvoltage (Neutral Voltage Displacement)

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: RESIDUAL O/V NVD	3B	00
P643 and P645 only. This column contains GROUP 1: RESIDUAL O/V NVD parameters
VN>1 Function	3B	14	DT	Disabled, DT or IDMT
P643 and P645 only. Setting for the tripping characteristic of the first stage residual overvoltage element
VN>1 Voltage Set	3B	16	5*V1	1V1 to 80V1 step 1*V1
P643 and P645 only. Pick-up setting for the first stage residual overvoltage characteristic
VN>1 Time Delay	3B	18	5s	0 to 100s step 0.01s
P643 and P645 only. Operating time delay setting for the first stage definite time residual overvoltage element
VN>1 TMS	3B	1A	1	0.5 to 100 step 0.5
P643 and P645 only. TMS to adjust the operating time of the IDMT characteristic. The characteristic is defined as follows: t = K / ( M – 1) where: K = TMS t = Operating time in seconds M = Derived residual voltage/relay setting voltage (VN> Voltage Set)
VN>1 tReset	3B	1C	0s	0 to 100s step 0.01s
P643 and P645 only. Setting to determine the reset or release definite time for the first stage characteristic
VN>2 Status	3B	20	Disabled	Enabled or Disabled
P643 and P645 only. Setting to enable or disable the second stage definite time residual overvoltage element
VN>2 Voltage Set	3B	26	10*V1	1V1 to 80V1 step 1*V1
P643 and P645 only. Pick-up setting for the second stage residual overvoltage element
VN>2 Time Delay	3B	28	10s	0 to 100s step 0.01s
P643 and P645 only. Operating time delay for the second stage residual overvoltage element

Overfluxing

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: OVERFLUXING	3D	00
This column contains GROUP 1: OVERFLUXING parameters
Volts/Hz W1	3D	01	Sub-Heading	Sub-Heading
Volts/Hz Overfluxing element W1. P643 and P645 only if the optional three-phase VT is available.
V/HZ Alm Status	3D	02	Enabled	Enabled or Disabled
P643 and P645 only. Enables or disables the V/Hz alarm element
V/HZ Alm Set	3D	03	2.31 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
P643 and P645 only. Pick-up setting for the V/Hz element
V/Hz Alarm Delay	3D	04	10s	0s to 6000s step 0.1s
P643 and P645 only. Operating time delay setting of the V/Hz alarm element
V/Hz>1 Status	3D	10	Enabled	Enabled or Disabled
P643 and P645 only. Enables or disables the V/Hz first stage trip element
V/Hz>1 Function	3D	13	DT	DT or IDMT
P643 and P645 only. Tripping characteristic setting of the V/Hz first stage trip element
V/Hz>1 Trip Set	3D	16	2.42 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
P643 and P645 only. Pick-up setting for the V/Hz first stage trip element
V/Hz>1 Trip TMS	3D	19	0.1	0.01 to 12 step 0.01
P643 and P645 only. Setting for the Time Multiplier Setting (TMS) to adjust the operating time of the IDMT characteristic
V/Hz>1 Delay	3D	1A	60s	0s to 6000s step 0.1s
P643 and P645 only. Operating time-delay setting of the V/Hz first stage trip element
V/Hz>1 tReset	3D	1B	60s	0s to 6000s step 0.1s
P643 and P645 only. Reset function so the user can reset overfluxing after injection testing
V/Hz>2 Status	3D	20	Enabled	Enabled or Disabled
P643 and P645 only. Enables or disables the V/Hz second stage trip element
V/Hz>2 Trip Set	3D	25	2.64 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
P643 and P645 only. Pick-up setting for the V/Hz second stage trip element
V/Hz>2 Delay	3D	2A	3s	0s to 6000s step 0.1s
P643 and P645 only. Operating time delay setting of the V/Hz alarm element
V/Hz>3 Status	3D	30	Enabled	Enabled or Disabled
P643 and P645 only. Enables or disables the V/Hz third stage trip element
V/Hz>3 Trip Set	3D	35	2.86 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
P643 and P645 only. Pick-up setting for the V/Hz third stage trip element
V/Hz>3 Delay	3D	3A	2.00s	0s to 6000s step 0.1s
P643 and P645 only. Operating time delay setting of the V/Hz alarm element
V/Hz>4 Status	3D	40	Enabled	Enabled or Disabled
P643 and P645 only. Enables or disables the V/Hz fourth stage trip element
V/Hz>4 Trip Set	3D	45	3.08 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
P643 and P645 only. Pick-up setting for the V/Hz fourth stage trip element
V/Hz>4 Delay	3D	4A	1.00s	0s to 6000s step 0.1s
P643 and P645 only. Operating time delay setting of the V/Hz alarm element
TPre-trip Alarm	3D	4F	200s	0s to 6000s step 0.1s
P643 and P645 only. Pre-trip alarm time delay
Volts/Hz W2	3D	50
Volts/Hz Overfluxing element W2.
V/HZ Alm Status	3D	51	Enabled	Enabled or Disabled
Enables or disables the V/Hz alarm element
V/HZ Alm Set	3D	52	2.31 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
Pick-up setting for the V/Hz element
V/Hz Alarm Delay	3D	53	10s	0s to 6000s step 0.1s
Operating time delay setting of the V/Hz alarm element
V/Hz>1 Status	3D	60	Enabled	Enabled or Disabled
Enables or disables the V/Hz first stage trip element
V/Hz>1 Function	3D	63	DT	DT or IDMT
Tripping characteristic setting of the V/Hz first stage trip element
V/Hz>1 Trip Set	3D	66	2.42 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
Pick-up setting for the V/Hz first stage trip element
V/Hz>1 Trip TMS	3D	69	0.1 s	0.01 to 12 step 0.01
Setting for the time multiplier setting to adjust the operating time of the IDMT characteristic.
V/Hz>1 Delay	3D	6A	60s	0s to 6000s step 0.1s
Operating time delay setting of the V/Hz alarm element
V/Hz>1 tReset	3D	6B	0s	0s to 6000s step 0.1s
Reset function so the user can reset overfluxing after injection testing
V/Hz>2 Status	3D	70	Enabled	Enabled or Disabled
Enables or disables the V/Hz second stage trip element
V/Hz>2 Trip Set	3D	75	2.64 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
Pick-up setting for the V/Hz second stage trip element
V/Hz>2 Delay	3D	7A	3s	0s to 6000s step 0.1s
Operating time delay setting of the V/Hz alarm element
V/Hz>3 Status	3D	80	Enabled	Enabled or Disabled
Enables or disables the V/Hz third stage trip element
V/Hz>3 Trip Set	3D	85	2.86 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
Pick-up setting for the V/Hz third stage trip element
V/Hz>3 Delay	3D	8A	2.00s	0s to 6000s step 0.1s
Operating time delay setting of the V/Hz alarm element
V/Hz>4 Status	3D	90	Enabled	Enabled or Disabled
Enables or disables the V/Hz fourth stage trip element
V/Hz>4 Trip Set	3D	95	3.08 V/HZ	1.5V/Hz to 3.5V/Hz step 0.01V/Hz
Pick-up setting for the V/Hz fourth stage trip element
V/Hz>4 Delay	3D	9A	1.00s	0s to 6000s step 0.1s
Operating time delay setting of the V/Hz alarm element
TPre-trip alarm	3D	9F	200s	0s to 6000s step 0.1s
Pre-trip alarm time delay

Voltage Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: VOLT PROTECTION	42	00
This column contains GROUP 1: VOLT PROTECTION parameters
UNDER VOLTAGE	42	01	Sub-Heading	Sub-Heading
P643 and P645 only. UNDER VOLTAGE
V< Measur’t Mode	42	02	Phase-Neutral	Phase-Phase or Phase-Neutral
P643 and P645 only. Sets the measured input voltage used for the undervoltage elements
V< Operate Mode	42	03	Any Phase	Any-Phase or Three-phase
P643 and P645 only. Determines whether any phase or all three phases must satisfy the undervoltage criteria before a decision is made
V<1 Function	42	04	DT	IDMT or DT or Disabled
P643 and P645 only. Tripping characteristic for the first stage undervoltage function. The characteristic is defined by: t = K / (1 – M) Where: K = TMS t = Operating time in seconds M = Measured voltage/relay setting voltage (V< Voltage Set)
V<1 Voltage Set	42	05	50V	10V to 120V step 1V
P643 and P645 only. Sets the pick-up setting for the first stage undervoltage element
V<1 Time Delay	42	06	10s	0s to 100s step 0.01s
P643 and P645 only. Sets the operating time-delay for the first stage definite time undervoltage element
V<1 TMS	42	07	1	0.05 to 100 step 0.05
P643 and P645 only. Sets the time multiplier setting to adjust the operating time of the IEC IDMT characteristic
V<1 Poledead Inh	42	08	Enabled	Enabled or Disabled
P643 and P645 only. If the setting is enabled, the relevant stage is inhibited by the pole dead logic. This logic produces an output when it detects either an open circuit breaker through auxiliary contacts feeding the relay opto inputs, or it detects a combination of both undercurrent and undervoltage on any one phase. It allows the undervoltage protection to reset when the circuit breaker opens to cater for line or bus side VT applications.
V<2 Status	42	09	Disabled	Enabled or Disabled
P643 and P645 only. Enables or disables the second stage undervoltage element
V<2 Voltage Set	42	0A	38V	10V to 120V step 1V
P643 and P645 only. Sets the pick-up setting for the second stage undervoltage element
V<2 Time Delay	42	0B	5s	0s to 100s step 0.01s
P643 and P645 only. Sets the operating time-delay for the second stage definite time undervoltage element
V<2 Poledead Inh	42	0C	Enabled	Enabled or Disabled
P643 and P645 only. This works in the same way as V<1 Poledead Inh but for V<2 Poledead Inh instead.
OVERVOLTAGE	42	20	Sub-Heading	Sub-Heading
P643 and P645 only. OVERVOLTAGE
V> Measur’t Mode	42	21	Phase-Phase	Phase-Phase or Phase-Neutral
P643 and P645 only. Sets the measured input voltage used for the overvoltage elements
V> Operate Mode	42	22	Any Phase	Any-Phase or Three-phase
P643 and P645 only. Determines whether any phase or all three phases must satisfy the overvoltage criteria before a decision is made
V>1 Function	42	23	DT	IDMT or DT or Disabled
P643 and P645 only. Tripping characteristic for the first stage overvoltage function. The characteristic is defined by: t = K / (M – 1) Where: K = TMS t = Operating time in seconds M = Measured voltage/relay setting voltage (V<> Voltage Set)
V>1 Voltage Set	42	24	130V	60V to 185V step 1V
P643 and P645 only. Sets the pick-up setting for the first stage overvoltage element
V>1 Time Delay	42	25	10s	0s to 100s step 0.01s
P643 and P645 only. Sets the operating time-delay for the first stage definite time overvoltage element
V>1 TMS	42	26	1	0.05 to 100 step 0.05
P643 and P645 only. Sets the time multiplier to adjust the operating time of the IEC IDMT characteristic
V>2 Status	42	27	Disabled	Enabled or Disabled
P643 and P645 only. Enables or disables the second stage overvoltage element
V>2 Voltage Set	42	28	150V	60V to 185V step 1V
P643 and P645 only. Sets the pick-up setting for the second stage overvoltage element
V>2 Time Delay	42	29	0.5	0s to 100s step 0.01s
P643 and P645 only. Sets the operating time-delay for the second stage definite time overvoltage element
NPS O/V	42	40	Sub-Heading	Sub-Heading
Negative phase sequence over voltage
V2> Status	42	41	Disabled	Enabled or Disabled
Enable or disable the NPS OV
V2> Voltage Set	42	42	15V	1V to 110V step 1V
Set up the pick up setting for Negative phase sequence over voltage
V2> Time Delay	42	43	5s	0s to 100s step 0.01s
Set the operating time delay for the definite time stage

Frequency Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: FREQ PROTECTION	43	00
This column contains GROUP 1: FREQ PROTECTION parameters
UNDER FREQUENCY	43	01	Sub-Heading	Sub-Heading
UNDER FREQUENCY
F<1 Status	43	02	Enabled	Enabled or Disabled
Enables or disables the first stage underfrequency element
F<1 Setting	43	03	49.5Hz	46Hz to 65Hz step 0.01Hz
Determines the pick-up threshold for the first stage underfrequency element
F<1 Time Delay	43	04	4s	0s to 600s step 0.01s
Determines the minimum operating time-delay for the first stage underfrequency element
F<2 Status	43	05	Disabled	Enabled or Disabled
Enables or disables the second stage underfrequency element
F<2 Setting	43	06	49Hz	46Hz to 65Hz step 0.01Hz
Determines the pick-up threshold for the second stage underfrequency element
F<2 Time Delay	43	07	3s	0s to 600s step 0.01s
Determines the minimum operating time-delay for the second stage underfrequency element
F<3 Status	43	08	Disabled	Enabled or Disabled
Enables or disables the third stage underfrequency element
F<3 Setting	43	09	48.5Hz	46Hz to 65Hz step 0.01Hz
Determines the pick-up threshold for the third stage underfrequency element
F<3 Time Delay	43	0A	2s	0s to 600s step 0.01s
Determines the minimum operating time-delay for the third stage underfrequency element
F<4 Status	43	0B	Disabled	Enabled or Disabled
Determines the pick-up threshold for the fourth stage underfrequency element
F<4 Setting	43	0C	48Hz	46Hz to 65Hz step 0.01Hz
Enables or disables the fourth stage underfrequency element
F<4 Time Delay	43	0D	1s	0s to 600s step 0.01s
Determines the minimum operating time-delay for the fourth stage underfrequency element
OVER FREQUENCY	43	0F	Sub-Heading	Sub-Heading
OVER FREQUENCY
F>1 Status	43	10	Enabled	Enabled or Disabled
Enables or disables the first stage overfrequency element
F>1 Setting	43	11	50.5Hz	46Hz to 65Hz step 0.01Hz
Determines the pick-up threshold for the first stage overfrequency element
F>1 Time Delay	43	12	2s	0s to 600s step 0.01s
Determines the minimum operating time-delay for the first stage overfrequency element
F>2 Status	43	13	Disabled	Enabled or Disabled
Enables or disables the second stage overfrequency element
F>2 Setting	43	14	51Hz	46Hz to 65Hz step 0.01Hz
Determines the pick-up threshold for the second stage overfrequency element
F>2 Time Delay	43	15	1s	0s to 600s step 0.01s
Determines the minimum operating time-delay for the second stage overfrequency element

Resistor Temperature Device (RTD) Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: RTD PROT ON	44	00
This column contains GROUP 1: RTD PROTECTION parameters
Select RTD	44	01	0	10-bit binary setting: Bit 0 – Select RTD 1, Bit 1 – Select RTD 2, Bit 2 – Select RTD 3 through to Bit 9 – Select RTD 10
10-bit setting to enable or disable the 10 RTDs. For each bit 1 = Enabled, 0 = Disabled
RTD1 PROTECTION	44	02	Sub-Heading	Sub-Heading
RTD1 PROTECTION
RTD Alarm Set	44	03	80°C	0° to 200°C step 1°C
Temperature setting for the RTD 1 alarm element
RTD Alarm Dly	44	04	10 s	0s to 100s step 1s
Operating time delay setting for the RTD 1 alarm element
RTD Trip Set	44	05	85°C	0° to 200°C step 1°C
Operating time delay setting for the RTD 1 alarm element
RTD Trip Dly	44	06	1 s	0s to 100s step 1s
Operating time delay setting for the RTD 1 alarm element
RTD2 PROTECTION	44	07	Sub-Heading	Sub-Heading
RTD2 PROTECTION
RTD Alarm Set	44	08	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	09	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	0A	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	0B	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD3 PROTECTION	44	0C	Sub-Heading	Sub-Heading
RTD3 PROTECTION
RTD Alarm Set	44	0D	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	0E	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	0F	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	10	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD4 PROTECTION	44	11	Sub-Heading	Sub-Heading
RTD4 PROTECTION
RTD Alarm Set	44	12	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	13	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	14	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	15	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD5 PROTECTION	44	16	Sub-Heading	Sub-Heading
RTD5 PROTECTION
RTD Alarm Set	44	17	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	18	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	19	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	1A	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD6 PROTECTION	44	1B	Sub-Heading	Sub-Heading
RTD6 PROTECTION
RTD Alarm Set	44	1C	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	1D	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	1E	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	1F	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD7 PROTECTION	44	20	Sub-Heading	Sub-Heading
RTD7 PROTECTION
RTD Alarm Set	44	21	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	22	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	23	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	24	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD8 PROTECTION	44	25	Sub-Heading	Sub-Heading
RTD8 PROTECTION
RTD Alarm Set	44	26	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	27	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	28	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	29	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD9 PROTECTION	44	2A	Sub-Heading	Sub-Heading
RTD9 PROTECTION
RTD Alarm Set	44	2B	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	2C	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	2D	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	2E	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD 10 PROTECTION	44	2F	Sub-Heading	Sub-Heading
RTD 10 PROTECTION
RTD Alarm Set	44	30	80°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Alarm Dly	44	31	10 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Set	44	32	85°C	0° to 200°C step 1°C
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead
RTD Trip Dly	44	33	1 s	0s to 100s step 1s
This setting works in the same way as the RTD 1 alarm element, but for RTD 2 instead

Circuit Breaker (CB) Failure

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: CB FAIL	45	00
GROUP 1: CB FAIL
T1 CBF	45	01	Disabled	Enabled or Disabled
BREAKER FAIL for CT1
I< Current Set	45	02	0.1	5% to 400% step 1%
Set the CT1 under current setting
IN< Status	45	03	Disabled	Enabled or Disabled
Enable or Disabel the IN<
IN< Input	45	04	Measured	Measured or Derived
Set the IN input, derived or measured
IN< Terminal	45	05	TN1	TN1, TN2 or TN3
If for IN is measured, set the measured netrual current source
IN< Current Set	45	06	0.1	5% to 400% step 1%
Set IN under current setting
CB Fail 1 Status	45	07	Disabled	Enabled or Disabled
Enables or disables the first stage of the circuit breaker function
CB Fail 1 Timer	45	08	0.05s	0s to 10s step 0.001s
Circuit breaker fail timer setting for stage 1, for which the initiating condition must be valid
CB Fail 2 Status	45	09	Enabled	Enabled or Disabled
Enables or disables the second stage of the circuit breaker function
CB Fail 2 Timer	45	0A	0.2s	0s to 10s step 0.001s
Circuit breaker fail timer setting for stage 2, for which the initiating condition must be valid
CBF Non I Reset	45	0C	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I
Setting which determines the elements that reset the circuit breaker fail time for non current-based protection functions (such as voltage and frequency) initiating circuit breaker fail conditions
CBF Ext Reset	45	0D	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I
Setting which determines the elements that reset the circuit breaker fail time for external protection functions initiating circuit breaker fail conditions
T2 CBF	45	11	Disabled	Enabled or Disabled

I< Current Set	45	12	0.1	5% to 400% step 1%

IN< Status	45	13	Disabled	Enabled or Disabled

IN< Input	45	14	Measured	Measured or Derived

IN< Terminal	45	15	TN1	TN1, TN2 or TN3

IN< Current Set	45	16	0.1	5% to 400% step 1%

CB Fail 1 Status	45	17	Disabled	Enabled or Disabled

CB Fail 1 Timer	45	18	0.05s	0s to 10s step 0.001s

CB Fail 2 Status	45	19	Enabled	Enabled or Disabled

CB Fail 2 Timer	45	1A	0.2s	0s to 10s step 0.001s

CBF Non I Reset	45	1C	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I

CBF Ext Reset	45	1D	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I

T3 CBF	45	21	Disabled	Enabled or Disabled
P643 and P645 only.
I< Current Set	45	22	0.1	5% to 400% step 1%
P643 and P645 only.
IN< Status	45	23	Disabled	Enabled or Disabled
P643 and P645 only.
IN< Input	45	24	Measured	Measured or Derived
P643 and P645 only.
IN< Terminal	45	25	TN1	TN1, TN2 or TN3
P643 and P645 only.
IN< Current Set	45	26	0.1	5% to 400% step 1%
P643 and P645 only.
CB Fail 1 Status	45	27	Disabled	Enabled or Disabled
P643 and P645 only.
CB Fail 1 Timer	45	28	0.05s	0s to 10s step 0.001s
P643 and P645 only.
CB Fail 2 Status	45	29	Enabled	Enabled or Disabled
P643 and P645 only.
CB Fail 2 Timer	45	2A	0.2s	0s to 10s step 0.001s
P643 and P645 only.
CBF Non I Reset	45	2C	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I
P643 and P645 only.
CBF Ext Reset	45	2D	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I
P643 and P645 only.
T4 CBF	45	31	Disabled	Enabled or Disabled
P645 only.
I< Current Set	45	32	0.1	5% to 400% step 1%
P645 only.
IN< Status	45	33	Disabled	Enabled or Disabled
P645 only.
IN< Input	45	34	Measured	Measured or Derived
P645 only.
IN< Terminal	45	35	TN1	TN1, TN2 or TN3
P645 only.
IN< Current Set	45	36	0.1	5% to 400% step 1%
P645 only.
CB Fail 1 Status	45	37	Disabled	Enabled or Disabled
P645 only.
CB Fail 1 Timer	45	38	0.05s	0s to 10s step 0.001s
P645 only.
CB Fail 2 Status	45	39	Enabled	Enabled or Disabled
P645 only.
CB Fail 2 Timer	45	3A	0.2s	0s to 10s step 0.001s
P645 only.
CBF Non I Reset	45	3C	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I
P645 only.
CBF Ext Reset	45	3D	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I
P645 only.
T5 CBF	45	41	Disabled	Enabled or Disabled
P645 only.
I< Current Set	45	42	0.1	5% to 400% step 1%
P645 only.
IN< Status	45	43	Disabled	Enabled or Disabled
P645 only.
IN< Input	45	44	Measured	Measured or Derived
P645 only.
IN< Terminal	45	45	TN1	TN1, TN2 or TN3
P645 only.
IN< Current Set	45	46	0.1	5% to 400% step 1%
P645 only.
CB Fail 1 Status	45	47	Disabled	Enabled or Disabled
P645 only.
CB Fail 1 Timer	45	48	0.05s	0s to 10s step 0.001s
P645 only.
CB Fail 2 Status	45	49	Enabled	Enabled or Disabled
P645 only.
CB Fail 2 Timer	45	4A	0.2s	0s to 10s step 0.001s
P645 only.
CBF Non I Reset	45	4C	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I
P645 only.
CBF Ext Reset	45	4D	CB Open & I<	I< Only, CB Open & I< or Prot Reset & I
P645 only.

VT and CT Supervision

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: SUPERVIS	46	00
This column contains GROUP 1: SUPERVISION parameters
VT SUPERVISION	46	01	Sub-Heading	Sub-Heading
VT Supervision does not apply to P642 when the optional three-phase VT input is available. Only visible if Main VT is fitted or P642 model with 2 VT inputs.
VTS Status	46	02	Indication	Blocking or Indication or Disabled
Determines whether on detection of VTS. • VTS logic is Disabled. • VTS alarm is Indication only. • Voltage-dependent protection elements are Blocked. Optional conversion of directional overcurrent to non-directional protection (blocking mode only).
VTS Reset Mode	46	03	Manual	Manual or Auto
VTS block is latched after user-settable VTS Time Delay. Once latched, the reset methods are: Manual using the front panel interface (or remote communications). Auto provided VTS condition has been removed and 3-phase voltages have been restored above ph
VTS Time Delay	46	04	5s	1s to 10s step 0.1s
Operating time delay setting of the VTS element on detection of a voltage supervision condition.
VTS I> Inhibit	46	05	10	0.08pu to 32pu step 0.01pu
The overcurrent setting inhibits VT supervision if all 3-phase voltages are lost, due to a close-up 3-phase fault after CB is closed. In P643, CT1/CT2/CT3 if the VT is in the HV, TV or LV. In P645, CT1/CT3/CT5 if the VT is in HV, TV or LV.
VTS I2> Inhibit	46	06	0.05	0.05pu to 0.5pu step 0.01pu
NPS overcurrent setting inhibits VT supervision if a fault occurs with excess negative sequence current. In P643, always referred to CT1/CT2/CT3 if the VT is in the HV, TV or LV. In P645, always referred to CT1/CT3/CT5 if the VT is in HV, TV or LV.
CT SUPERVISION	46	20	Sub-Heading	Sub-Heading
CT Supervision applies to P642, P643, P645 and P746 when the optional CT input is available.
Diff CTS	46	21	Enable	Enabled or Disabled
Enables or disables the CTS function
CTS Status	46	22	Restrain	Indication or Restrain
In Indication mode, the CTS alarm is issued without delay when a CT failure is detected. In restrain mode, the differential protection is desensitised to the Is-CTS setting
CTS Tdelay	46	23	2s	0s to 10s step 0.1s
Determines the operating time delay of the element on detection of a current transformer supervision condition
CTS I1	46	24	0.1	5% to 100% step 1%
Set release threshold
CTS I2/I1>1	46	25	0.05	5% to 100% step 1%
Low set ratio of negative to positive sequence current
CTS I2/I1>2	46	26	0.4	5% to 100% step 1%
High set ratio of negative to positive sequence current

Input Labels

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: INPUT LABELS	4A	00
This column contains GROUP 1: INPUT LABELS parameters
Opto Input 1	4A	01	Input L1	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 2	4A	02	Input L2	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 3	4A	03	Input L3	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 4	4A	04	Input L4	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 5	4A	05	Input L5	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 6	4A	06	Input L6	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 7	4A	07	Input L7	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 8	4A	08	Input L8	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 9	4A	09	Input L9	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 10	4A	0A	Input L10	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 11	4A	0B	Input L11	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 12	4A	0C	Input L12	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 13	4A	0D	Input L13	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 14	4A	0E	Input L14	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 15	4A	0F	Input L15	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 16	4A	10	Input L16	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 17	4A	11	Input L17	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 18	4A	12	Input L18	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 19	4A	13	Input L19	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 20	4A	14	Input L20	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 21	4A	15	Input L21	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 22	4A	16	Input L22	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 23	4A	17	Input L23	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 24	4A	18	Input L24	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 25	4A	19	Input L25	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 26	4A	1A	Input L26	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 27	4A	1B	Input L27	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 28	4A	1C	Input L28	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 29	4A	1D	Input L29	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 30	4A	1E	Input L30	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 31	4A	1F	Input L31	16-character text string (32 to 163)
Text label to describe each individual opto input
Opto Input 32	4A	20	Input L32	16-character text string (32 to 163)
Text label to describe each individual opto input

Output Labels

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: OUTPUT LABELS	4B	00
This column contains GROUP 1: OUTPUT LABELS parameters
Relay 1	4B	01	Output R1 Not Used	16-character text string (32 to 163)
P642, P643, P645 and P746. Text label to describe each individual relay output contact. This text is displayed in the programmable scheme logic and event record description of the relay output contact
Relay 2	4B	02	Output R2 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 3	4B	03	Output R3 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 4	4B	04	Output R4 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 5	4B	05	Output R5 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 6	4B	06	Output R6 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 7	4B	07	Output R7 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 8	4B	08	Output R8 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 9	4B	09	Output R9 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 10	4B	0A	Output R10 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 11	4B	0B	Output R11 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 12	4B	0C	Output R12 Not Used	16-character text string (32 to 163)
This works in the same way as Relay 1.
Relay 13	4B	0D	Output R13 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. Text label to describe each individual relay output contact. This text is displayed in the programmable scheme logic and event record description of the relay output contact
Relay 14	4B	0E	Output R14 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 15	4B	0F	Output R15 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 16	4B	10	Output R16 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 17	4B	11	Output R17 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 18	4B	12	Output R18 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 19	4B	13	Output R19 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 20	4B	14	Output R20 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 21	4B	15	Output R21 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 22	4B	16	Output R22 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 23	4B	17	Output R23 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 24	4B	18	Output R24 Not Used	16-character text string (32 to 163)
P643, P645 and P746 only. This works in the same way as Relay 12.
Relay 25	4B	19	Output R25 Not Used	16-character text string (32 to 163)
P645 and P746 only. Text label to describe each individual relay output contact. This text is displayed in the programmable scheme logic and event record description of the relay output contact
Relay 26	4B	1A	Output R26 Not Used	16-character text string (32 to 163)
P645 and P746 only. This works in the same way as Relay 19.
Relay 27	4B	1B	Output R27 Not Used	16-character text string (32 to 163)
P645 and P746 only. This works in the same way as Relay 19.
Relay 28	4B	1C	Output R28 Not Used	16-character text string (32 to 163)
P645 and P746 only. This works in the same way as Relay 19.
Relay 29	4B	1D	Output R29 Not Used	16-character text string (32 to 163)
P645 and P746 only. This works in the same way as Relay 19.
Relay 30	4B	1E	Output R30 Not Used	16-character text string (32 to 163)
P645 and P746 only. This works in the same way as Relay 19.
Relay 31	4B	1F	Output R31 Not Used	16-character text string (32 to 163)
P645 and P746 only. This works in the same way as Relay 19.
Relay 32	4B	20	Output R32 Not Used	16-character text string (32 to 163)
P645 and P746 only. This works in the same way as Relay 19.

RTD Labels

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: RTD LABE	4C	00
This column contains GROUP 1: RTD LABELS parameters
RTD 1	4C	01	RTD 1	16-character text string (32 to 163)
Text label to describe each individual RTD. This text is displayed in the Measurements 3 menu and fault records for the description of the RTDs.
RTD 2	4C	02	RTD 2	16-character text string (32 to 163)
This works in the same way as RTD 1.
RTD 3	4C	03	RTD 3	16-character text string (32 to 163)
This works in the same way as RTD 1.
RTD 4	4C	04	RTD 4	16-character text string (32 to 163)
This works in the same way as RTD 1.
RTD 5	4C	05	RTD 5	16-character text string (32 to 163)
This works in the same way as RTD 1.
RTD 6	4C	06	RTD 6	16-character text string (32 to 163)
This works in the same way as RTD 1.
RTD 7	4C	07	RTD 7	16-character text string (32 to 163)
This works in the same way as RTD 1.
RTD 8	4C	08	RTD 8	16-character text string (32 to 163)
This works in the same way as RTD 1.
RTD 9	4C	09	RTD 9	16-character text string (32 to 163)
This works in the same way as RTD 1.
RTD 10	4C	0A	RTD 10	16-character text string (32 to 163)
This works in the same way as RTD 1.

Current Loop Inputs and Outputs (CLIO) Protection

Menu Text	Row	Col	Default Setting	Available Setting
Description
GROUP 1: CLIO PROTECTION	4D	00
This column contains GROUP 1: CLIO PROTECTION parameters
CLI1 PROTECTION	4D	01	Sub-Heading	Sub-Heading
CLI1 PROTECTION
CLI Input Status	4D	02	Enabled	Enabled or Disabled
Enables or disables the current loop (transducer) input 1 element
CLI Input Type	4D	04	4-20mA	0 to 1mA, 0 to 10mA, 0 to 20mA or 4 to 20mA
Current loop 1 input type
CLI Input Label	4D	06	CLIO Input 1	16-character text string (32 to 163)
Current loop 1 input description. The minimum and maximum settings define the range but they have no units. The user can use the label to enter the transducer function and unit of measurement
CLI Minimum	4D	08	0	-9999 to 9999 step 0.1
Current loop input 1 minimum setting. Defines the lower range of the physical or electrical quantity measured by the transducer
CLI Maximum	4D	0A	100	-9999 to 9999 step 0.1
Current loop input 1 maximum setting. Defines the upper range of the physical or electrical quantity measured by the transducer
CLI Alarm	4D	0C	Disabled	Enabled or Disabled
Enables or disables the current loop input 1 alarm element
CLI Alarm Fn	4D	0E	Over	Over or Under
Operating mode of the current loop input 1 alarm element
CLI Alarm Set	4D	10	50	From "MIN(CLI1Min, Max)" to "MAX(CLI1Min, Max))" step 0.1
Pick-up setting for the current loop input 1 alarm element
CLI Alarm Delay	4D	12	1	0s to 100s step 0.1s
Operating time-delay setting of current loop input 1 alarm element
CLI Trip	4D	14	Disabled	Enabled or Disabled
Pick-up setting for the current loop input 1 trip element
CLI Trip Fn	4D	16	Over	Over or Under
Operating mode of the current loop input 1 alarm element
CLI Trip Set	4D	18	60	LI1Min, Max)" to "MAX(CLI1Min, tep 0.1
Pick-up setting for the current loop input 1 trip element
CLI Trip Delay	4D	1A	0	0s to 100s step 0.1s
Operating mode of the current loop input 1 trip element
CLI I< Alarm	4D	1C	Disabled	Enabled or Disabled
Enables or disables the current loop input 1 undercurrent element used to supervise the 4-20 mA input only
CLI I< Alm Set	4D	1E	0.0035	0mA to 4mA step 0.1mA
Pick-up setting for the current loop input 1 undercurrent element. (4 – 20 mA input only)
CLI2 PROTECTION	4D	21	Sub-Heading	Sub-Heading
CLI2 PROTECTION
CLI Input Status	4D	22	Enabled	Enabled or Disabled
Enables or disables the current loop (transducer) input 1 element
CLI Input Type	4D	24	4-20mA	0 to 1mA, 0 to 10mA, 0 to 20mA or 4 to 20mA
Current loop 1 input type
CLI Input Label	4D	26	CLIO Input 2	16-character text string (32 to 163)
Current loop 1 input description. The minimum and maximum settings define the range but they have no units. The user can use the label to enter the transducer function and unit of measurement
CLI Minimum	4D	28	0	-9999 to 9999 step 0.1
Current loop input 1 minimum setting. Defines the lower range of the physical or electrical quantity measured by the transducer
CLI Maximum	4D	2A	100	-9999 to 9999 step 0.1
Current loop input 1 maximum setting. Defines the upper range of the physical or electrical quantity measured by the transducer
CLI Alarm	4D	2C	Disabled	Enabled or Disabled
Enables or disables the current loop input 1 alarm element
CLI Alarm Fn	4D	2E	Over	Over or Under
Operating mode of the current loop input 1 alarm element
CLI Alarm Set	4D	30	50	From "MIN(CLI2Min, Max)" to "MAX(CLI2Min, Max))" step 0.1
Pick-up setting for the current loop input 1 alarm element
CLI Alarm Delay	4D	32	1s	0s to 100s step 0.1s
Operating time-delay setting of current loop input 1 alarm element
CLI Trip	4D	34	Disabled	Enabled or Disabled
Pick-up setting for the current loop input 1 trip element
CLI Trip Fn	4D	36	Over	Over or Under
Operating mode of the current loop input 1 alarm element
CLI Trip Set	4D	38	60	From "MIN(CLI2Min, Max)" to "MAX(CLI2Min, Max))" step 0.1
Pick-up setting for the current loop input 1 trip element
CLI Trip Delay	4D	3A	0s	0s to 100s step 0.1s
Operating mode of the current loop input 1 trip element
CLI I< Alarm	4D	3C	Disabled	Enabled or Disabled
Enables or disables the current loop input 1 undercurrent element used to supervise the 4-20 mA input only
CLI I< Alm Set	4D	3E	0.0035	0mA to 4mA step 0.1mA
Pick-up setting for the current loop input 1 undercurrent element. (4 – 20 mA input only)
CLI3 PROTECTION	4D	41	Sub-Heading	Sub-Heading
CLI3 PROTECTION
CLI Input Status	4D	42	Enabled	Enabled or Disabled
Enables or disables the current loop (transducer) input 1 element
CLI Input Type	4D	44	4-20mA	0 to 1mA, 0 to 10mA, 0 to 20mA or 4 to 20mA
Current loop 1 input type
CLI Input Label	4D	46	CLIO Input 3	16-character text string (32 to 163)
Current loop 1 input description. The minimum and maximum settings define the range but they have no units. The user can use the label to enter the transducer function and unit of measurement
CLI Minimum	4D	48	0	-9999 to 9999 step 0.1
Current loop input 1 minimum setting. Defines the lower range of the physical or electrical quantity measured by the transducer
CLI Maximum	4D	4A	100	-9999 to 9999 step 0.1
Current loop input 1 maximum setting. Defines the upper range of the physical or electrical quantity measured by the transducer
CLI Alarm	4D	4C	Disabled	Enabled or Disabled
Enables or disables the current loop input 1 alarm element
CLI Alarm Fn	4D	4E	Over	Over or Under
Operating mode of the current loop input 1 alarm element
CLI Alarm Set	4D	50	50	From "MIN(CLI3Min, Max)" to "MAX(CLI3Min, Max))" step 0.1
Pick-up setting for the current loop input 1 alarm element
CLI Alarm Delay	4D	52	1s	0s to 100s step 0.1s
Operating time-delay setting of current loop input 1 alarm element
CLI Trip	4D	54	Disabled	Enabled or Disabled
Pick-up setting for the current loop input 1 trip element
CLI Trip Fn	4D	56	Over	Over or Under
Operating mode of the current loop input 1 alarm element
CLI Trip Set	4D	58	60	From "MIN(CLI3Min, Max)" to "MAX(CLI3Min, Max))" step 0.1
Pick-up setting for the current loop input 1 trip element
CLI Trip Delay	4D	5A	0s	0s to 100s step 0.1s
Operating mode of the current loop input 1 trip element
CLI I< Alarm	4D	5C	Disabled	Enabled or Disabled
Enables or disables the current loop input 1 undercurrent element used to supervise the 4-20 mA input only
CLI I< Alm Set	4D	5E	0.0035	0mA to 4mA step 0.1mA
Pick-up setting for the current loop input 1 undercurrent element. (4 – 20 mA input only)
CLI4 PROTECTION	4D	61	Sub-Heading	Sub-Heading
CLI4 PROTECTION
CLI Input Status	4D	62	Enabled	Enabled or Disabled
Enables or disables the current loop (transducer) input 1 element
CLI Input Type	4D	64	4-20mA	0 to 1mA, 0 to 10mA, 0 to 20mA or 4 to 20mA
Current loop 1 input type
CLI Input Label	4D	66	CLIO Input 4	16-character text string (32 to 163)
Current loop 1 input description. The minimum and maximum settings define the range but they have no units. The user can use the label to enter the transducer function and unit of measurement
CLI Minimum	4D	68	0	-9999 to 9999 step 0.1
Current loop input 1 minimum setting. Defines the lower range of the physical or electrical quantity measured by the transducer
CLI Maximum	4D	6A	100	-9999 to 9999 step 0.1
Current loop input 1 maximum setting. Defines the upper range of the physical or electrical quantity measured by the transducer
CLI Alarm	4D	6C	Disabled	Enabled or Disabled
Enables or disables the current loop input 1 alarm element
CLI Alarm Fn	4D	6E	Over	Over or Under
Operating mode of the current loop input 1 alarm element
CLI Alarm Set	4D	70	50	From "MIN(CLI4Min, Max)" to "MAX(CLI4Min, Max))" step 0.1
Pick-up setting for the current loop input 1 alarm element
CLI Alarm Delay	4D	72	1s	0s to 100s step 0.1s
Operating time-delay setting of current loop input 1 alarm element
CLI Trip	4D	74	Disabled	Enabled or Disabled
Pick-up setting for the current loop input 1 trip element
CLI Trip Fn	4D	76	Over	Over or Under
Operating mode of the current loop input 1 alarm element
CLI Trip Set	4D	78	60	From "MIN(CLI4Min, Max)" to "MAX(CLI4Min, Max))" step 0.1
Pick-up setting for the current loop input 1 trip element
CLI Trip Delay	4D	7A	0s	0s to 100s step 0.1s
Operating mode of the current loop input 1 trip element
CLI I< Alarm	4D	7C	Disabled	Enabled or Disabled
Enables or disables the current loop input 1 undercurrent element used to supervise the 4-20 mA input only
CLI I< Alm Set	4D	7E	0.0035	0mA to 4mA step 0.1mA
Pick-up setting for the current loop input 1 undercurrent element. (4 – 20 mA input only)
CLO OUTPUT1	4D	9F	Sub-Heading	Sub-Heading
CLO OUTPUT1
CLO Status	4D	A0	Disabled	Enabled or Disabled
Enable or disables the current loop (transducer) output 1 element
CLO Type	4D	A2	4-20mA	0 to 1mA, 0 to 10mA, 0 to 20mA or 4 to 20mA
Current loop 1 output type
CLO Set Values	4D	A4	Primary	Primary or Secondary
This setting controls if the measured values from current loop output 1 are Primary or Secondary values
CLO Parameter	4D	A6	IA Magnitude	See CLIO measurement table
This setting defines the measured quantity assigned to current loop output 1
CLO Minimum	4D	A8	See G155 table	See CLIO measurement table
Current loop output 1 minimum setting. Defines the lower range of the measurement
CLO Maximum	4D	AA	See G155 table	See CLIO measurement table
Current loop output 1 maximum setting. Defines the upper range of the measurement
CLO OUTPUT2	4D	AF	Sub-Heading	Sub-Heading
CLO OUTPUT2
CLO Status	4D	B0	Disabled	Enabled or Disabled
Enable or disables the current loop (transducer) output 1 element
CLO Type	4D	B2	4-20mA	0 to 1mA, 0 to 10mA, 0 to 20mA or 4 to 20mA
Current loop 1 output type
CLO Set Values	4D	B4	Primary	Primary or Secondary
This setting controls if the measured values from current loop output 1 are Primary or Secondary values
CLO Parameter	4D	B6	IB Magnitude	See CLIO measurement table
This setting defines the measured quantity assigned to current loop output 1
CLO Minimum	4D	B8	See G155 table	See CLIO measurement table
Current loop output 1 minimum setting. Defines the lower range of the measurement
CLO Maximum	4D	BA	See G155 table	See CLIO measurement table
Current loop output 1 maximum setting. Defines the upper range of the measurement
CLO OUTPUT3	4D	BF	Sub-Heading	Sub-Heading
CLO OUTPUT3
CLO Status	4D	C0	Disabled	Enabled or Disabled
Enable or disables the current loop (transducer) output 1 element
CLO Type	4D	C2	4-20mA	0 to 1mA, 0 to 10mA, 0 to 20mA or 4 to 20mA
Current loop 1 output type
CLO Set Values	4D	C4	Primary	Primary or Secondary
This setting controls if the measured values from current loop output 1 are Primary or Secondary values
CLO Parameter	4D	C6	IC Magnitude	See CLIO measurement table
This setting defines the measured quantity assigned to current loop output 1
CLO Minimum	4D	C8	See G155 Table	See CLIO measurement table
Current loop output 1 minimum setting. Defines the lower range of the measurement
CLO Maximum	4D	CA	See G155 Table	See CLIO measurement table
Current loop output 1 maximum setting. Defines the upper range of the measurement
CLO OUTPUT4	4D	CF	Sub-Heading	Sub-Heading
CLO OUTPUT4
CLO Status	4D	D0	Disabled	Enabled or Disabled
Enable or disables the current loop (transducer) output 1 element
CLO Type	4D	D2	4-20mA	0 to 1mA, 0 to 10mA, 0 to 20mA or 4 to 20mA
Current loop 1 output type
CLO Set Values	4D	D4	Primary	Primary or Secondary
This setting controls if the measured values from current loop output 1 are Primary or Secondary values
CLO Parameter	4D	D6	IN Measured Mag	See CLIO measurement table
This setting defines the measured quantity assigned to current loop output 1
CLO Parameter	4D	D6	IN Derived Mag	See CLIO measurement table
P642 only. This setting defines the measured quantity assigned to current loop output 1
CLO Minimum	4D	D8	See G155 Table	See CLIO measurement table
Current loop output 1 minimum setting. Defines the lower range of the measurement
CLO Maximum	4D	DA	See G155 Table	See CLIO measurement table
Current loop output 1 maximum setting. Defines the upper range of the measurement