Eaton SVCH0203 SPX Advanced, Applications Manual, Page: 163 / 185

154
SPX advanced – description of parameters
SPX ADVANCED APPLICATION MANUAL
SVCH0203—October 2017 www.eaton.com
Code ID Description Notes
P1.16.4 720 Number of tries after under voltage fault trip “undervolt. tries”
This parameter determines how many automatic fault resets
can be made during the trial time after under voltage trip.
0 = No automatic reset
>0= Number of automatic fault resets after under voltage fault.
P1.16.5 721 Number of tries after overvoltage trip “overvolt. tries”
This parameter determines how many automatic fault resets
can be made during the trial time after overvoltage trip.
0 = No automatic fault reset after overvoltage fault trip
>0 = Number of automatic fault resets after overvoltage fault trip.
P1.16.6 722 Number of tries after overcurrent trip ID722 “overcurr. tries”
This parameter determines how many automatic fault resets can be made during the
trial time after overcurrent trip.
0 = No automatic fault reset after overcurrent fault trip
>0 = Number of automatic fault resets after overcurrent trip, saturation trip and IGBT
temperature faults..
IGBT temp faults also included
P1.16.7 723 Number of tries after reference trip “4mA fault tries”
This parameter determines how many automatic fault resets can be made during the
trial time after 4 mA reference fault.
0 = No automatic fault reset after reference fault trip
>0 = Number of automatic fault resets after the analog current signal (4…20mA) has
returned to the normal level (>4mA)
P1.16.8 726 Number of tries after motor temperature fault trip “MotTempF tries”
This parameter determines how many automatic fault resets can be made during the
trial time after calculated motor temperature fault trip.
0 = No automatic fault reset after Motor temperature fault trip
>0 = Number of automatic fault resets after the motor
temperature has returned to its normal level
P1.16.9 725 Number of tries after external fault trip “Ext.Fault tries”
This parameter determines how many automatic fault resets can be made during the
trial time after external fault trip.
0 = No automatic fault reset after External fault trip
>0 = Number of automatic fault resets after External fault trip
P1.16.10 738 Number of tries after underload fault trip “underload tries”
This parameter determines how many automatic fault resets can be made during the
trial time after underload trip.
0 = No automatic fault reset after Underload fault trip
>0 = Number
P1.16.11 731 Number of tries after cooling fault trip “cooling tries”
This parameter determines how many automatic fault resets can be made during the
trial time after Cooling trip.
0 = No automatic fault reset after Cooling fault trip
>0 = Number of automatic fault resets after Cooling fault trip
P1.16.12 735 Number of tries after output contactor fault trip“O/P Intlk tries”
This parameter determines how many automatic fault resets can be made during the
trial time after Output Contactor Interlock trip.
0 = No automatic fault reset after Output Contactor Interlock fault trip
>0 = Number of automatic fault resets after Output Contactor Interlock fault trip
P1.16.13 1569 Fault simulation “fault simulation”
With this parameter it’s possible to simulate different faults without actually making
e.g. over current situation. In drive interface point of view behaviour is identical to
actual fault situation.
B00 = +1 = Simulates over current fault (F1)
B01 = +2 = Simulates over voltage fault (F2)
B02 = +4 = Simulates under voltage fault (F9)
B03 = +8 = Simulates output phase supervision fault (F11)
B04 = +16 = Simulates earth fault (F3)
B05 = +32 = Simulates system fault (F8)