How to Repair a Fisher Paykel Washing Machine

by rall2

721K34144

Intro: How to Repair a Fisher Paykel Washing Machine

About 2 years ago, when after nearly 10 years of uninterrupted service our trusty Fisher and Paykel GW609 washing machine failed to start I wasn’t sure what to do. Should I buy a new one? Or should I try to repair it and in the process, save the environment of more plastic, lead, and who knows what else?
I felt that at least I should give the repair a go. But I didn’t have much time, I was under pressure by ‘management’ to get it going or get a new one…but soon!
And so I began searching the Net for schematics, technical info and anything helpful I could find. But very little was forthcoming. Only a few posts here and there but nothing substantial, the general consensus were that most of the faults are to do with the Control Module. The most useful information found was a copy of the service manual (attached) with a listing of the fault codes, but no reference to the Control Module or its schematic. It seems no one had been able to repair the Module and that this part is considered a throwaway by the manufacturer when faulty, to be replaced with a new one when it fails. This seemed like a waste of natural resources and money and so I decided to take a good look at it and check it, to see if it was really faulty and if so, could be repaired.

STEP 1: Take Care!

UNPLUG THE MACHINE BEFORE OPENING THE CONTROL PANEL !
During the repair, always double check and take a look at that plug to make sure it is off the wall before doing anything inside the machine.
Yes, here we are going to deal with possible electrocution if you are careless because the control board and peripherals are all connected to mains. So remove that plug before touching anything…and don’t forget there is water everywhere too!

STEP 2: Opening the Control Panel

Make sure the plug is off the wall. It is convenient if the washing machine is empty of water and washing because the water level sensor will not be affected when it is disconnected, and latter on re-attached, during the repair.
Remove the 2 screws at the back of the Control Panel (see pic), and lift the Panel off the machine from the back rotating towards the front (see pic). You will see the Control Module (a long bluish plastic box with many cables and plugs) still attached to the machine. The Control Panel is connected to the Control Module by a cable with a plug. Disconnect this plug from the module and put the Control Panel aside in a safe place.
NOTE: all of the sockets in the Control Module have small plastic latches that secure the plugs to the sockets; you have to carefully unlatch the plugs to unplug them (see pic).

STEP 3: Removing the Control Module.

At this point, if you have a Digital Camera handy, take one or two photos of the whole thing and keep it for reference later on, when re-attaching everything back.
First, with great care remove the pressure sensor hose from the Pressure Sensor by first removing the spring clip towards the hose and pushing the edge of the hose away from the sensor (see pic). Do not pull from the hose as this will grab the sensor’s plastic pipe and possibly break it! Take care, as the hose will most probably be stuck to the sensor by years of close contact.
Next, unplug the spade connectors on the top-left corner noting their positions. This is very important because they are the mains and the ground connections and these must go back to the exact same locations.
Now remove all the plugs from the Module (they are all of different sizes so there is no need to put marks on them for when reassembling).
After removing all the plugs from the Control Module, there are still two cables left going to the hot and cold water valves, and both have connectors pointing downwards (see pic). With care disconnect these 2 connectors but put marks on them (like RED and BLU) to re-attach correctly because these two are of similar size.
With everything disconnected from the Module, remove the screw that secures the Module to the machine and lift it clear off the machine.

STEP 4: Opening the Control Module

The Control Module consists of a long PCBoard, enclosed in a 2-part plastic box. This box can be easily pried open by un-clipping 3 plastic tabs along one of the sides of the box. Once the box is open, the control board can be taken out of the box by also un-clipping the retaining plastic tabs (see pics).

STEP 5: Repairing the Control Board: Checking the Fuses.

For this step we need a Digital Multimeter (DMM).
There are 2 fuses on the board (see pic), one of 1.6A and the other of 4A, both type ‘T’ (slow-blow). Set the DMM to the Diode-Check range and test the fuses for continuity. Replace the faulty ones.
In the lapse of 1 year, I had to repair my board 4 times, mainly due to the fact that initially I could not find the original transistors or their exact equivalents and the replacements I fitted weren’t quite up to the job. In all cases the 1.6A fuse had blown, only in the last repair the 4A fuse had blown as well.
I replaced the original fuses with the more common 20mm type, by soldering leads to them and placing them near their original position (see pic). During the last repair I decided to mount a fuse holder as well, only for the 1.6A fuse, as there isn’t enough room in the box for the other one.

STEP 6: Repairing the Control Board: Checking the Power Mosfets.

With the DMM still set to the Diode-check range, check each one of the Power Mosfets (about 12 of them) the following way: connect the probes to the small two outer pins (the center one is connected to the tab that is soldered to the board) and look for a short circuit indication (see pic). With care desolder and replace the shorted (faulty) mosfets. During my first repair I replaced four Power Mosfets, then two in the 2nd, then another two in the 3rd, and then another two in the 4th. Only two were the same transistors. Every time one of the Power Mosfets blows, also the medium power mosfet (the driver) blows and needs to be changed (see pic). But before replacing it, once removed double check with the DMM that it is shorted, just in case the short is on the diodes or somewhere else. When desoldering the Mosfets, heat up the tab first and then the pins, all in quick succession while carefully pulling with long nose pliers until freed from the board. This operation is difficult because the Mosfets are glued to the board during manufacturing and you have to crack the tiny bond before the Mosfet can be removed. Be very gentle not to damage the board as it can be easily damaged.

STEP 7: Repairing the Control Board: Checking the Resistors.

Some of the power mosfets have a 100-ohm resistors across their gates. These resistors sometimes also blow up with the mosfet and go open circuit. They are close to the mosfet, usually right in front. Check all these 100-ohm resistors (marked ‘101’) the following way: after replacing the blown mosfet, connect the DMM probes across both ends of the resistor and look for a reading of about 0.100 or near. If there is no reading, the resistor is open circuit and must be changed. Take your time because if you miss a faulty one, that mosfet blows up instantly again when powering up the board.

STEP 8: Repairing the Control Board: Checking the Diodes

With the DMM still set to the Diode-check range, check each one of the large Power Diodes on the other side of the board (see pic) the following way: Connect the DMM probes to each end of the diode and look for an open circuit indication (no indication) or a diode indication (an indication of somewhere between 0.4 and 0.6). Then reverse the probes and check for the opposite indication to the one before. If any of the DMM readings indicate a short, or an open in both directions, the diode is faulty; and must be replaced. Check all power diodes. I never found any of the smaller diodes faulty, but if all else fails to repair the board, you will need to check these too. On the last repair, all four diodes in the bridge configuration feeding the electro caps had blown, all cracked open, and part of the PCB track had vaporized.

STEP 9: Firing It Up.

Re-assemble the Control Module and put it back in its place with the holding screw. Re-connect all the wires, paying particular attention to the 2 ground spade connectors and the mains connector. Do not re-attach the pressure sensor hose at this stage. Turn around the Control panel so that it faces the right way up and place it just lose in its place on top of the Control Box.
Now stand back and plug the mains plug in. If all is well, the control Panel should light up, ‘sing’ and settle on the last known washing cycle. Success!!!
If it fails again, you will hear a faint ‘Plop’ and you will have to start all over again because you missed one or more faulty components. Be thorough this time (it happened to me the first time because I had missed one open circuit 100-ohm resistor).
When all goes well, unplug the mains cord and, if there is no water in the machine, re-attach the pressure sensor hose and the clip.
If there is water in the machine, you will need to remove it from the machine before re-attaching the pressure sensor hose or the machine will think it is empty when in fact it is not and will overfill with more water causing a mess.

STEP 10: Failure Troubleshooting.

When you first look at the board you wonder...What could be faulty here??? ...but I was so far lucky that replacing the Fuses, the Mosfets and the diodes was all I needed to get it going again, with one exception: the time it stopped because the off-balance microswitch (fitted under the Power Module, see pic) was broken and had to replace it. I found this fault by following the indication of the Fault Codes given in the manual. I bet most of the faults are due to just these parts.
If the module didn’t work the first time, check it over again. If all those Power Mosfets, Diodes, resistors and fuses are okay, the module should work because very rarely any of the other components on the board go faulty.
The water pump is now beginning to make some bearing noise, but my Fisher and Paykel is still going strong to this day.

STEP 11: List of Materials

For this repair you will need:

TOOLS
A Philips screwdriver,
Long nose pliers,
A digital multimeter
A small soldering iron
A solder sucker

PARTS
10 x 1.6A / 250V / T / 20mm fuses (slow-blow fuses) (Farnell p/n 112-3127 ) (about $10)
10 x 4A / 250V / T / 20mm fuses (slow-blow fuses) (Farnell p/n 1123135 ) (about $10)
10 x 100-ohm SMD resistors (Farnell p/n 933-5749 ) (about $5)
10 x FCD4N60 Power Mosfets (Farnell p/n 132-4776 ) (about $10)
10 x BUK98180 Medium Power Mosfets (Farnell p/n 176-9680 ) (about $10)
20 x BTY78 Avalanche Soft recovery Power Diodes (Farnell p/n 165-1070 ) (about $10)

These quantities ensure you have plenty for more than one repair, saving time as well (four in my case, and I did my last in less than an hour).

STEP 12: Conclusion

The question remains…why do the Power Mosfets blow up? (the other components blow up only as a consequence). In my opinion the first event that happens puts a strain on some of the other Mosfets, which in time also fail. But why do they fail in the first place?
I am investigating this at the moment. The best explanation I can find is that under some circumstances when the machine is stopped half way through a microcontroller’s program execution (for instance when the machine is stopped with the POWER button instead of using the PAUSE button), some Mosfets are left activated out of sync and blow up. To control this situation I have now instructed ‘management’ to stop or change programs only using the PAUSE button. This has so far worked well.

124 Comments

laurahunt5050 11 months ago

I think I need a new drain pump on mine. Won't drain.

Jean Reynaud 2 years ago

ayo, hol' up at Step 2, I have a WM513 where the pressure sensor doesn't seem to make any difference anymore and the machine always fills to the top no matter what water level you set. I can take the machine apart to the point of tracking the sensor hose down to its container attached to the drum, what can I do to make this work again? Is it as easy as somehow cleaning detergent out from a clogged sensor container? How do I do that? (Or is it a failed sensor unit, etc etc.) Thanks in advance.

RX7Series 8 2 years ago

Hi.. I have a Fisher and Paykel washer - FabricSmart 10Kg Model WA1068P1 which needs new suspension rods. I can see the job is easy enough however I cannot see how to open the top of the machine to get access to the rods. Can you assist?

CapnGeorge93 3 years ago

Greetings from the Gold Coast, Australia,
I have a WL70T60C F&P washer with error 49 displayed.
It has a 421232NAP Motor Controller with a 42085S pcb.
I have replaced a burnt-out TNY266GN AC-DC converter chip, also a 1.6A soldered-in fuse.
My board has two (2) SMD shunt resistors (close to the 250v 270uF electrolytics - see pic where they were) that have burnt out. As a consequence I cannot read their values.

Could anyone please assist with those shunt values?
Thank you

PoojaK54 6 years ago

Hi
I have Fisher&Paykel(model WL70T60C).it makes a lot of wrinkles.and some clothes get some dirty strain.i dont know why.any solution? How i can open it..?
Thanks

CapnGeorge93 3 years ago

Hi PoojaK54, I also have a WL70T60C F&P washer with error 49 displayed.
It has a 42085S pcb I have replaced a TNY266 chip, also a 1.6A soldered-in fuse.
My board has two (2) SMD shunt resistors (close to the 250v 270uF electrolytics) that have burnt out. As a consequence I cannot read their values.
Could you possibly assist with the shunt values?
Thank you

Cazking 3 years ago

I have a F&P Top Loader washing machine WashSmart 10kg - can you please advise how I can reset it to Factory Settings?
I have googled and all instructions seem to indicate to select the delicate cycle and there is no delicate cycle option on the machine. There is Regular, Heavy, Handwash, Easy Iron, Allergy and Quick options only. Thankyou

yazdi.hs 3 years ago

Hi, I have a fisher and paykel smart drive model WA1068 G1 . My problem is it fills great washes then drains doesnt go to spin to get soap off . Then just fills again washes drains and wants to fill again before final spin ?? I have to advance it manually why ? It was fine before . Worked like fill rinse spin rinse then final spin . Now its annoying me . With eco ect . Before problem starting happening . Its was trying to do the spin rinse but couldnt get to do the stop spin and do the final rinse so i interupted it as it tryed and tryed please help ? Thanks syd aus.

Tooxmahn 3 years ago

Fisher and paykel washing machine error code 250

MartinF159 4 years ago

The Main thing with these washing machines is to check the Ohms of the waste pump Motor it should be around 33 ohms , the pump motor reduces the current for the Motor control module, so if the pump burns out it generally blows the board also.
Keep your pump from squealing by placing a few drops 3 in 1 oil on the shaft by the mount hosing for the armature. top and bottom. it will keep it humming along.
cheers
Marty

sogden4 4 years ago

You sir are a god among men. You saved a washing machine from the landfill. I thoroughly appreciate the time and effort you put into this. Thank you.

tekniked 4 years ago

I recently had a F&P washing machine stop working and was told by engineer, it could not be fixed. Is the machine progammed for obsolescence?

JustAGuy8828 4 years ago

I have a GW609AU. The control board is very similar to this, but does not have any fuses. Instead it has small round brown devices that look like CAPS. I came here firstly because the machine was giving me an error code 49. I pulled it apart, did some testing. All seemed OK, so I decided to power it up - It worked. So I started a wash. 20 minutes later, I had a flash flood - the machine had overflowed. Clearly I had missed a connection. After clearing the flood, I powered back up, and tried to advance to the drain cycle. Immediately got a bang on the board and it died. I think I got some moisture on the board :(. My question is, what other model machines have the same, or close enough board to work in this machine? Occasionally second hand machines pop up but might not be the same model. ie GW608U, GW709

BrantJ 5 years ago

Hi - Thanks a lot for your work on this. It sure does the trick! I just got my 15+ year old F&P going again by ordering these parts and following the instructions given. Well Done!

mkulikefu 5 years ago

My washing machine has problem when I turn on the power only three indication light on, two in the washing process and the light for spin, what do you think is the problem?

ChristabelS1 6 years ago

Hello, In Brisbane Australia and we have a WA1068G1 Fisher & Paykel that requires ongoing repair of the motor control module (model 424317NAP images attached).

Last time the fella used his DMM and diagnosed on the spot when I took the module to him and we collected the working unit the next day.

Same problem in progress and looking morbid. First the machine fails to power at first push of the button, then power button works. Second the machine fails to power on for intermittent periods (especially when wet weather), then finally the machine does not power for grim periods, this time I found tipping the machine and pressing power worked, but that is now failing also. Under all conditions once the power button responds, all other buttons are not problematic. Also we know the module is active, as turning on the power at the wall activates a run though of the display lights from left to right and a beep.. it is just the power button that has grievances. What do I need to do the the control module to test and repair?

llanelly 6 years ago

WL80T65CW2 Smart drive won't spin , goes off balance and starts to cry. How much water should be trapped inside bottom tank of spin cylinder? How do you test suspension rod springs for replacement?

grebe 6 years ago

Apparently, If you lift the lid during a fast spin cycle, the back EMF from the motor is so high it destroys the snubbers that protect the mosfets, which it then also destroys. Any signal to drive the motor that is already in overspeed will connect the mosfets to it, destroying them. As a precaution, I would also replace the snubber components, as these are also likely to be dead as well.

nevergiveupfixingit 8 years ago

Our 15 year old GWL10 worked fine up to a few days ago when it just powered down at the beginning of a wash cycle when filling. I could get it to continue the cycle for short periods (generally 2 -3 minutes but longer some times) by unplugging the wire, waiting a few minutes and plugging it back in. The cycle would resume where it powered down for a short period then power down again. I finally advanced it to the spin cycle until it had drained completely and beeped signaling it had finished the cycle. After reading a number of the posts here, I disconnected the pump and hose but did not find any blockage. I did find water stains on the pump and floor so it had been leaking which I think I solved with silicone grease around the shaft and seal. But it's still doing the same power down thing as before. It is not giving me any codes. It had been making the infamous screeching sound that so many people talked about but I think I've corrected that by cleaning and lubricating the pump. Any help would be much appreciated.

Wogamax 6 years ago

If your control panel, and machine, are powering down it could be the pump. GWL10 (not sure if all, but Phase 5) uses the pump circuit for the controls. I have this machine, there were no codes found in diagnostic mode and a call to FP suggested the pump (420324P). Australian person said "should be 7 ohms across the two wire leads to pump". It was 31ohms, so I ordered one. It came, easy to install (no even a screw to loosen, just lean it against a wall and go from bottom). I have to say, new pump measured 35 ohms, not 7. Anyway, the machine now works.

Another thing you should so is tap the 'Regular' cycle button, in diag mode, which test fires the pump. If it is flakey and doesn't stay on, fire up, or makes noise, that's another way spending the $100 becomes a wise move.

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