Monday, 1 April 2019

WACKER NEUSON GP 2600 GP 3800A GP 4000 GP 5600A / GPS 5600A GP 6600A / GPS 6600A GENERATOR TROUBLESHOOT

Wacker Neuson GP 2600_GP 3800A_GP 4000 _GP 5600A / GPS 5600A _GP 6600A / GPS 6600A Generator Troubleshoot




Voltage Selector Switch_Idle Solenoid_After-fire.



Checking and Installing the Voltage Selector Switch (VSS)


The  VSS  (a)  selects  the  voltage  mode  setting  of  the  generator.  Changing  the  voltage  mode  also  changes  the  orientation  of  the Automatic Voltage Regulator (AVR) sensing wires. Use the following information when testing and installing the VSS.



Checking Voltage to Auto Idle Solenoid

Problems with the auto idle system can be classified into one of two categories: electrical problems with power to the idle solenoid or problems with the mechanical linkage. Before checking the electrical system, check the governor mechanical linkage (a) to make sure it’s functioning properly.

Electrical problems can be further broken down in to two categories: 1) power generation by the generator, 2) problems with the electrical circuit feeding power to the solenoid.

* Start the generator.

* Unplug the two white/red wires (b) from the idle solenoid. Measure the voltage between the two wires. There should be 28±2VDC.

If 28±2VDC is measured, the idle solenoid is receiving the correct voltage. If the idle solenoid is receiving the correct voltage but is still not functioning, confirm that it is bad by measuring the resistance of the solenoid’s coil. The coil should measure 26–33 Ohms (16–19 Ohms Wacker Engine). Replace the solenoid if the correct resistance is not measured.

* If 28±2VDC is not measured, continue.

* Stop the generator.

* Remove the screws which secure the control panel to the enclosure.

* Remove the 5A fuse (c). Start the generator and check the voltage across the fuse holder. There should be 20–29 Volts.

> If 20–29 Volts is measured, the source of the problem is in the circuit from the fuse to the idle solenoid.

> If 20–29 Volts is not measured, the source of the problem is in the circuitry between the fuse and the DC winding.


* Reinstall the 5A fuse (replace the fuse if it is blown).

Checking Auto Idle Circuitry between Generator and Fuse

Voltage may be prevented from reaching the 5A fuse by a faulty rectifier or by a faulty DC winding. The auto idle circuit may also be malfunctioning due to faulty sensing wires. To check the circuit, carry out the following procedures:

* Stop the generator.

* Remove the two screws which secure the end cover to the generator and remove the end cover.

To check the rectifier (a), remove the connector plug from the rectifier.  Use the diode scale on your multimeter. Probe the top terminal with one lead and the bottom terminal with the other. Then, reverse the leads and conduct the test again. The rectifier should conduct in one direction and not the other. Check both upper terminals of the rectifier to the lower terminal of the rectifier in the same manner.

> If the rectifier is malfunctioning, replace it.

> If the rectifier is functioning, continue.

* Remove the plug (b) from the stator.

* Using the Ohms scale on your multimeter, check the resistance of the DC winding. Each generator size will have a different value for the winding resistance. Check the chart in the graphic for the correct values—use a tolerance of +0.5/-0.0 Ohms.  If the correct amount of resistance was not measured, replace the stator.

> If the correct amount of resistance was measured, the DC winding is OK; continue.

> Remove the screws which secure the control panel to the generator.

Check that the sensing wires are running through the ammeter (c) of the auto idle unit.


Check the continuity of the sensing wires (d) from the auto idle unit through to the generator terminal strip (e).

Checking Auto Idle Circuitry Between Fuse and Auto Idle Unit

Voltage may be prevented from reaching the idle solenoid by a faulty auto idle switch or by a faulty auto idle unit. To check the circuit, carry out the following procedure:

Stop the generator.

* Remove the screws which secure the control panel to the generator.  Locate the auto idle switch (a).

* Check the continuity of the auto idle switch.  If the switch lacks continuity, replace it.  If the switch has continuity, it should be functioning.

* Remove the plug from the back of the auto idle unit (b).

* Start the generator.

* Check the voltage between the red and black wires of the plug. There should be 20–29V. At this point in the troubleshooting, you should have measured voltage at the fuse but not at the idle solenoid, and the auto idle switch should have checked OK. Therefore:

> If voltage is measured to the auto idle unit but not at the idle solenoid, the auto idle unit is malfunctioning, replace it.


> If no voltage is measured at the auto idle unit, check the wiring between the fuse and the auto idle unit. Repair or replace the wiring as needed.

Checking Anti-Afterfire Solenoid (AAS) Circuit _ Honda Engine.

* Check  the  5A  fuse.  See  section  Checking  Voltage  to  Auto  Idle Solenoid.

* Check the resistance of the DC winding. See section Checking Auto Idle Circuitry Between Generator and Fuse.

* Check for voltage at the AAS by starting the generator, probing the green and white wires (a) with your multimeter leads, then shutting the engine off and measuring the voltage on the multimeter at shutdown.

There should be 18±2V.

> If the correct voltage was measured, the AAS is malfunctioning; replace it.

> If the correct voltage was not measured, continue.

* Remove the screws that secure the control panel to the generator.

* Check the continuity of the main ON/OFF switch. In the OFF position it should have continuity across contacts 5 and 6—that is, between wires W/R (b) and W (c). 

> If the main ON/OFF switch has no continuity, replace it.

> If the main ON/OFF switch has continuity, continue.

* Disconnect the capacitor (d).

A  functioning  capacitor  can  hold  up  to  30VDC;  use  care  when discharging it.  Discharge the capacitor by placing an insulated screw driver or like tool across both of its leads. Then, check the capacitor’s capacitance. It is rated at 1000 µF (microfarads) and should measure within 10% of that

rating.

> If the correct capacitance is not measured, replace the capacitor.

> If the correct capacitance is measured, the capacitor is OK.

All major components of the circuit have now been checked. If the AAS is still not working, check the continuity of all the wires in the circuit.


Repair or replace the wires as needed.


Diagnosing GFI Tripping

A common cause for nuisance tripping of the GFI is incorrect wiring. If you experience tripping of the GFI when changing from the 120V mode to the 240V mode, check the wiring running through the GFI. There should be four brown wires and two blue wires running through the ammeter portion (a) of the GFI. If you have any other combination, refer to the wiring schematic and correct the situation.

If you’re not sure whether tripping of the main circuit breaker is due to the GFI or due to the main circuit breaker, carry out the following test:

* Turn off the generator.

* Disconnect yellow wire (b) from the shunt of the main circuit breaker.

* Place the main circuit breaker in the 120V mode position.

* Start the generator and switch the main circuit breaker from the 120V position to the 240V position.  If the GFI trips and its red light is on, the problem lies within the GFI. Check the wiring through the ammeter portion of the GFI. If the wiring is correct, replace the GFI.


>> If the GFI does not trip, the problem lies in the main circuit breaker. Replace the main circuit breaker.




WACKER NEUSON Generator TROUBLESHOOTING


WACKER NEUSON Generator _  How to check voltage at plug – voltage at generator terminals strip
 TROUBLESHOOTING
  If a generator problem is not an obvious engine or wire fault, the cause of  the  problem  will  be  associated  with  one  of  two  things:
  A malfunctioning generator or faults in the circuit supplying voltage to the receptacles.  By  starting  the  troubleshooting  procedures  at  the generator output terminal strip (z) you can determine whether the problem  lies  within  the  generator  or  the  circuit  supplying  the receptacles.  For troubleshooting a no-voltage condition, you’ll need to rule out problems with the stator windings (1) and the rotor windings (13). For a low-voltage condition (any voltage less than 120V), you’ll need to rule out problems with the stator and rotor windings, a malfunctioning voltage regulator (16), and problems with the brushes (13) and/or the excitation winding (15). For a high-voltage condition, you’ll need to rule out a malfunctioning voltage regulator and/or problems with the voltage regulator’s sensing wires (y).
  For troubleshooting the receptacle circuits, you’ll need to rule out problems  with  the  main  circuit  breaker  (3),  the  individual  circuit breakers  (5,  6,  and  7),  and  the  wiring  that  connects  all  the components.  For troubleshooting a malfunctioning auto idle circuit, you’ll need to rule out a blown fuse (9) and problems with the idle solenoid, the DC winding (15), the rectifier (12), the auto idle switch (8), the auto idle unit (2), and the wiring that connects all the components.  For troubleshooting a malfunctioning anti-after fire circuit, you’ll need to rule out a faulty DC winding (15), a blown fuse (9), a faulty engine ON/OFF switch (11), or a faulty capacitor (10).
Checking Continuity
Conduct continuity tests when the engine is shut down.  When checking continuity, use the Ohm setting on your multimeter.  Place a lead of the multimeter on one end of the wiring or component and the other lead on the opposite end. If your meter reads “OL” or “OPEN”, there is no continuity and the wiring or component must be repaired or replaced.
Note:  Some multimeters also have an audio signal setting for determining continuity. This setting may also be used.
If  your  meter  reads  less  than  1.0  Ohm,  or  the  audio  signal sounds, the wiring or component has continuity and should be OK.
If your meter reads more than 1.0 Ohm, the wiring is faulty and must be repaired or replaced.
Checking Resistance
Conduct resistance checks when the engine is shut down.  Use the Ohm setting on your multimeter.  Conduct resistance checks when the machine is as close to 21°C (70°F) as possible. Higher temperatures can affect resistance values.  Most digital multimeters have some internal resistance. To obtain your
multimeter’s internal resistance, simply cross the two leads of your multimeter and read the display. When conducting a resistance check, subtract  your  multimeter’s  internal  resistance  from  the  value  you measure to obtain the true resistance of the component you are checking
Checking Voltage
Conduct voltage checks when the engine is running.  Use the Volt setting on your multimeter. To prevent damage to your instrument, start with the highest scale available on your multimeter.  Adjust to a lower scale as readings dictate.  Use extreme caution when checking voltage to reduce the risk of
electric shock.
Checking Voltage at Generator Terminal Strip
Remove the two screws (a) that secure the end cover to the generator and remove the end cover.
Start the engine.
Using the AC voltage setting on the multimeter, measure the voltage between the wire with the yellow marking (b) and the wire with the red marking (c). There should be 120V±10%. [If zero (0) volts is measured, it indicates a problem with main winding 2 or the rotor winding.  If 120V±10% is measured, main winding 2 and the rotor are functioning; continue]
Using the AC voltage setting on the multimeter, measure the voltage between the wire with the green marking and the wire with the black marking. There should be 120V±10%. [If zero (0) volts is measured, it indicates a problem with main winding 1.  If 120V±10% is measured, main winding 1 and the rotor are functioning; any problems with the receptacles receiving voltage are in the circuit to the receptacles.]
Checking Voltage at Plug - GP 2500A, GP 2600
By starting the troubleshooting procedures at the generator output plug (d), you can determine whether the problem lies within the generator or the circuit supplying the receptacles. To check the voltage at the output plug, carry out the following procedures:
Remove the two screws which secure the end cover to the generator and remove the end cover.
Start the engine.
Using the AC voltage setting on the multimeter, measure the voltage between the red wire and the white. There should be 120V±10%. [If zero (0) volts is measured, it indicates a problem with main winding 2 or the rotor winding.  If 120V±10% is measured, main winding 2 and the rotor are functioning; continue.]
Using the AC voltage setting on the multimeter, measure the voltage between the brown wire and the blue wire.  There should be 120V±10%  [If zero (0) volts is measured, it indicates a problem with main winding 1.  If 120V±10% is measured, main winding 1 and the rotor are functioning; any problems with the receptacles receiving voltage are in the circuit to the receptacles]
CLICK ON THE PICTURES TO MAGNIFY