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SM-0236 - Feig Control Panel Fault Codes Flipbook PDF
SM-0236 - Feig Control Panel Fault Codes
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Feig Fault Codes with Corrective Actions No.
Description
Reason Current motor run time has exceeded set maximum run time, door may be
F.020
Run time exceeded (During sticking or is blocked. If using mechanical limit switches, one may not have opening, closing or deadman) tripped
Gate or motor is blocked. Insufficient power for providing necessary torque. Too little speed. Mechanical limit switch was not left or is defective. Incremental or Lag error (Position change of absolute encoder shaft is slipping. Wrong positioning system selected (P.205). F.030 the door is less then expected) One motor phase missing. The brake does not release. Setting of the failure detecting time are not correct (P.430 or P.450)
When using incremental encoders: Chanel A and B reversed. Motor rotation
Detected rotational direction direction reversed compared with calibration setting > teach in the new limits F.031 (P.210 =5). Too much "pancaking" when starting, brake releases too soon, or too deviates from expected little torque, adjust boost (P.140 or P.145) as necessary
F.080 Fault: Maintenance is required Service counter has expired F.090 Controller not parameterized F.201
The min. necessary basic parameters for the controller have not yet been set > Activate DIP‐switch and put in the asked parameters
Internal E‐stop "push‐button" Panel E‐STOP is engaged tripped or watchdog
Corrective Action Change parameters P.410, P.415, P.419. Check to see if door is blocked. Check mechanical switches, make sure switches are functioning correctly
Check supply voltage. Check mechanical limits, make sure they are in the correct position. Reset limits, P.205 change to a 5. Make sure supply phasing is correct. Check brakes voltage while door is running. P.430 & P.450 need to be adjusted.
Change P. 130 from 0 to 1 or 1 to 0 Check wiring for encoder cable. Set new limits P.210 change 0 to 5. Adjust boost P.140 &P.145 no more then 10% Service door Contact TNR Pull out E‐STOP
F.211
External E‐stop 1 tripped
E‐STOP chain was interrupted starting at input 1
Check wiring for overload terminals 1 & 2
F.212
External E‐stop 2 tripped
E‐STOP chain was interrupted starting at input 2
Check wiring from terminals 3 & 4 to hand chain. Disengage hand chain.
Short circuit detected on edge Short circuit detected on edges with normally closed contacts. Jumper for 1K2/8K2 is set wrong input Number of trips of the safety input D, normally this is the Parameterized, maximum number of trips of the safety input D during a door cycle was exceeded > to reset close the door in deadman mode. Check the set F.361 integrated safety edge evaluation, has reached set number of trips in P.46E limit
F.360
Check resistor in edge or wiring, confirm the right resistor (8.2K) is being used if needed P.46E Should be set to D. Check P.461 normally set to 3, 0 = off max number of trips is 7.
SM‐0236
Feig Fault Codes with Corrective Actions No.
Description Reason Number of trips of the safety input E, normally this is the Parameterized, maximum number of trips of the safety input E during a door cycle was exceeded > to reset close the door in deadman mode. Check the set F.371 integrated safety edge evaluation, has reached set number of trips in P.47E limit
F.373
F.410
Fault in the safety edge (message comes from module)
Cable break to safety edge, no edge connected, edge termination resistor incorrect or defective. Jumper for termination resistor definition in wrong position. Safety edge processing selected with Parameter P.470, but module not plugged in or wrong module
Over‐current (motor current Wrong motor data set (P.100‐P.103). Non‐adjusted voltage increase/boost set (P.140 or P.145). Motor not properly dimensioned for door. Door sticks or DC‐bus)
Corrective Action
P.47E needs to be confirmed, factory setting is ‐1.
Check wiring from edge to terminal strip. Confirm resistor is correct if needed. P.470 to check correct settings.
Check P.100,P.101,P.102,P.103, use operator name plate for these parameters. Adjust boost P.140 & P.145 no more then 10%
Brake chopper interference / defective / missing. Feed voltage much to high.
F.420 Overvoltage in DC‐bus limit 1 Motor feeds back too much energy in generator mode, door motion energy
check supply voltage
cannot be sufficiently brought down
F.425
Overvoltage line supply
The supply voltage for the controller is to high
check supply voltage
F.426
Undervoltage line supply
The supply voltage for the controller is to low
check supply voltage
F.430
Temperature cooler outside of Excessive load on final stages or brake chopper. Ambient temperature too low for controller operation. Clock frequency of final stage too high (Parameter P.160) working range limit 1
F.440 Overcurrent in DC‐bus limit 1 Boost not adjusted. Motor incorrectly dimensioned for door. Door sticks F.510 F.511 F.512
Motor / DC‐bus overcurrent Wrong motor data set (P.100‐P.103). Non‐adjusted voltage increase/boost set (P.140 or P.145). Motor not properly dimensioned for door. Door sticks limit 2 No DC supply
The DC voltage is not given to the motor (Overcurrent error, IGBT error F.519, 24V error or over temperature)
Offset motor current / DC‐bus The controller hardware is broken current faulty
F.515
Motor protection function Incorrect motor curve (motor rated current) set (P.101). Too much boost (P.140 or P.145). Motor incorrectly dimensioned detected overcurrent
F.519
IGBT driver chip detected overcurrent
Short circuit or ground fault on motor terminals. Motor rated current setting extremely wrong (P.100). Extremely too much boost (P.140 or P.145). Motor incorrectly dimensioned. Motor winding defective. Momentary interruption of the E‐STOP circuit
Check P.160 Default setting = 0
Adjust boost P.140 & P.145 no more then 10%. P.100 ‐ P.103 incorrect Check P.100,P.101,P.102,P.103, use operator name plate for these parameters. Adjust boost P.140 & P.145 no more then 10% Check for short circuit in field wiring Contact TNR Check parameter P.101 motor rating to motor supply on rating plate on operator. Reduce boost P.140 & P.145 Motor supply voltage wrong, change P.100 to correct voltage. Lower boost P.140 & P.145
SM‐0236
Feig Fault Codes with Corrective Actions No.
Description
Reason
Corrective Action
Brake chopper interference / defective / missing. Feed voltage much to high.
F.520 Overvolatge in DC‐bus limit 2 Motor feeds back too much energy in generator mode, door motion energy
check supply voltage
cannot be sufficiently brought down
F.521
Low voltage in DC‐bus
Input voltage supply too low, usually at load. Load too great/final stage or brake chopper fault
F.524
Ext. 24 V Supply missing or too Overload but no short circuit. When 24V is shorted the controller voltage does not ramp up and glow lamp V306 comes on low
F.525
Overvoltage at the line supply The line supply for the controller is to high. The line supply fluctuates very extremely input
F.530
Heatsink temperature outside Excessive load on final stages or brake chopper. Ambient temperature too low for of the working range limit 2 controller operation. Clock frequency of final stage too high (Parameter P.160)
F.540 Overcurrent in DC‐bus limit 2 Boost not adjusted. Motor incorrectly dimensioned for door. Door sticks
F.700
Position sensing defective
F.751
Synchronization FUE absolute encoder
F.752
Timeout with protocol transmission
F.853
For mechanical limit switches ‐ At least one limit switch does not correspond to the configured active status. An implausible combination of at least 2 active limit switches. For electronic limit switches ‐ After invoking activation of the factory parameters (Parameter P.990) the corresponding positioning system was not parameterized. Calibration not completed or is incorrect and must be repeated. When activating the intermediate stop the intermediate stop is implausible. Synchronization not finished or reference switch defective
Defective hardware or electrically noisy environment. Absolute encoder processor electronics defective Interface cable defective/interrupted. Chanel A and B connected over cross. Absolute encoder processor electronics defective. Defective hardware or electrically noisy environment. Take a controlcable with shield. Adjust a RC element (100Ω + 100nF) at the brake
TST PE_FSBS operating voltage The operating voltage of encoder TST PE_FSBS is too low (less than 8V). As a result, the calculation of the position must be terminated too low
check supply voltage Check for short circuit in field wiring check supply voltage
Check P.160 Default setting = 0
Adjust boost P.140 & P.145 no more then 10%. P.100 ‐ P.103 incorrect
For mechanical limit switches: Check mechanical limit switches, one or more limits might be activated, set wrong or faulty. For electronic limit switches: Try to reset limits P.205 change to a 5 and reset limits. If that does work contact TNR
Contact TNR
Check encoder wiring in panel and male plug. Check encoder, make sure correct jumpers are in place. P.205 should be set to 300. Run high voltage phasing through Ferrit core. Call TNR for factory reset.
Contact TNR
SM‐0236