Jump to content
SAU Community

Recommended Posts

Hi everyone, I've reacently read up on different issues with stalling & so on & believe I've stumbled across my problem being to do with the fuel pump control module (or FPCM) or the dropping resistor that's also in the circuit.

But what I want to know, so I don't have to go pulling my amp out & stuff for nothing (went to do it today, it's gonna be a moungrel) is where are these components located? I want to actually fix this problem properly as opposed to just doing the old earth the pump wire. Once I've established it's location I plan on coming up with a mod to prevent the stall on take off issue that it causes, so if anyone can tell me & maybe provide pics it will be much appreciated.

Cheers

  • 2 weeks later...

Well since no one else seems to have found these components I finally took it upon myself today to find them. The first photo you see is of the back right corner of the cabin. The fuel pump control module is located in the U shaped bracket underneath the parcel shelf:

post-26413-1160913092.jpg

This is a closer shot of it. Though you can't see it in this pic, it has a 4 wire connectio. Earth (Black), Power(Light blue), Pump negative (Grey) & control (Orange) wires.

post-26413-1160913754.jpg

What wasn't immediately apparent however was that there were in fact 2 grey wires with the same marking coming from the fuel pump. These did turn out to be commonly connected. The second wire was traced around till I ended up on the passenger side of the boot (having pulled all the boot trim out) where the ballast resistor is located.

post-26413-1160914722.jpg

This was bolted in above the car jack mounting bracket. You can see the ring mark on the hole it was bolted in on.

What I found while I had all of this exposed was that the wiring to & from the dropping resistor is not good enough, with voltage drops across the wiring going to & from the resistor. The wiring for the dropping resistor is actually thinner than the FPCM, & why Nissan shortchanged on such an important piece of wiring I don' t know.

I will now have to think about all the stuff I'll need for a proper fix to this, will post it up once I've got it soughted.

  • 5 years later...

Hey Buddy, I know its a little late from 2006. Thanks for the above information. I have a r33 series 2 turbo. My cars getting resprayed at the painters. Car was working fine the day before. Than today, owner of shop said that car is starting and dies after a min of running and would not start. Call the auto electrcian and he said that there was no earth going to pump. I thought what the hell. Earth would not just disappear in a day. I am trying to find out where does the fuel pump get its earth from. I know it starts from the fuel pump but I am trying to trace it till where it gets its earth. Can u help me Bro. I am going to check the fuel pump module and ballast resistor. I think the painters must have undid somthing when they strip the car for paint. Cheers.

PS I am like u. I want to fix the problem and not just do the direct earth to fuel pump.

Hey as per my email:

Hi there,

Yeah it was a long time ago. I had to remind myself what thread you were on about.

Luckily for you I know just what you're looking for.

The earth for all the fuel pump wiring is an eyelet that has 4 black wires going to it, 2 are for the pump. This is located on the panels behind the back seat towards the right hand side.

The seat is a bit of a bugger to get out if you haven't already, though I assume you have if you know where the control module is.

Seems a little odd that it will run for a while & then die.

Just looking at the circuit diagram though earth is via the ballast resistor & the control module. So the only way the pump is going to have a full earth is with the control module active while the engine is running. Or you could do what I did & bridge the pins on the connector.

If you're just checking with a meter, measure resistance, not continuity as that only measures a few ohms. Possibly the trap that the stupid sparky fell for (there's a lot of them that don't know much).

Let me know how you go. Hope that helps

Just to add to this if you look at my first photo from my old post the earth wires are on the eyelet bolted just under the white box in the centre of the picture.

You can see they come off the main loom.

It sounds like the painters have disconnected the dropping resistor when accessing the aerial. With it disconnected the FPCM will allow the pump to run for a short period before the ECU switches it off and if the dropping resistor is not connected the pump is open circuited.

Cheers

It sounds like the painters have disconnected the dropping resistor when accessing the aerial. With it disconnected the FPCM will allow the pump to run for a short period before the ECU switches it off and if the dropping resistor is not connected the pump is open circuited.

Cheers

Thanks Bro, thats what happened. The stupid spray painter disconnected the aerial and removed the resistor when he was wet sanding the car. I even paid $25 bucks for a auto electrcian to fix it. He found no earth to the fuel pump so he tap earth from another source. I had to repair the earth wire he cut. But thanks to J_Red33 topic. He has shown me where to look. So I say thanks again to J_Red33. (^_^)
  • 1 year later...

A big thanks to J_Red33 for showing me where the fuel pump resistor lives in a GTS25T , I would have found it eventually but you showed us where to look .

Man they go around that boot and rear fire wall looking for places to hang the fuel pump control system , I suppose the resistor needed to be away from the fuel tank filler for crash / fire reasons .

I'll be curious to see how hot it gets cheers A .

I ended up in the back of my GTS25T yesterday chasing the standard fuel pump wiring so I know where it all goes . The upper rear seat was already out and I removed the firewall access panel as well .

It goes like this in a 96 S2 .

The fuel pump relay switches power to the pump via a light blue wire with silver bands . It runs into a common loom with the large power feed wires ie White , White with red trace , and red which feed the fuse block under the parcel shelf in the boot .

This loom runs behind the top of that access panel hole on the boot side and is taped up inside a split black plastic insulating tube from near side to off side . It then runs into a tall shallow white plastic insulator gadget that the access panel overlaps . I opened up the white gadget and found three light blue wires with silver bands so I then opened up the above mentioned loom to confirm that the single wire had branched into the three inside the black plastic insulator tube . I taped it back up with the fuel pump wiring separate from the large power feeds .

Now those three light blue wires , the first runs into the boot and down the loom until it branches towards the fuel tank lid - pump power feed .

The second runs down the inside of the firewall in the main body harness heading towards the front of the car on the drivers side . I believe this goes to the air regulator under the inlet manifold that heats up when the engine warms up .

The last light blue wire runs up the inside of the firewall to the top RHS corner and back into the FPCM .

I then started to follow the pale grey wire from the pumps loom back towards the boot side of the firewall and to the inside at that white rectangular gadget . Inside there is a pair of pale grey wires and if you trace them back towards the pumps loom they both join under the insulation in the boot .

Actually where they are joined the second wire is noticeably smaller and they run inside and up the firewall where the thicker one heads back to the FPCMs plug . The thin one goes back into the boot and into the loom that runs across the back of the boot under the trim . I'm 99% sure this reappears at the loom side of the dropping resistors plug .

Now for the body earth/grounds . As mentioned in an above post there is a bolt into the rear firewall with two brass eye terminals and from memory five or six black wires running to the drivers side and back into the main body loom . There is a black wire at the FPCMs plug and it runs back to this earthing point . In roughly the same area as the above mentioned thin pale grey wire heads back to the boot and a thin black one appears and runs to this body earth terminal/bolt . Again I'm 99% sure this is the earth return from the dropping resistor .

So the system must work like this .

ECU switches on the fuel pump relay which powers up the pump , the cold air bypass reg , the FPCM .

The earth return from the pump is permanently connected to the dropping resistor via the thin pale grey wire , after the resistor the circuit is connected to ground via the thin black wire .

Off idle the ECU sends a signal to the fourth wire on the FPCMs plug switching its fancy electronic switch to basically connect the pale grey wire to the black one earthing the pump and bypassing the resistor .

Now the OP mentions below his third pic , of the resistor , than Nissan used quite thin wire to and from the resistor which concerned him .

If you think about it at idle inlet manifold pressure is low (in relation to atmospheric) so the vacuum signal to the FPR will also be and the load on the pump at low pressure will be low . The current draw from the pump would be low so Nissan obviously thought light wiring was all they needed .

Off idle the FPCM uses the slightly larger pale grey pump earth return wire and the larger black earth return wire to ground .

Now if you choose to use heavier wire it's easy to replace the section between the relay and the fuel tank cover though I'd still have power to the other pale blue wires .

It's also reasonably easy to use heavier wire between the pumps earth return (pale grey) and the FPCMs plug . Ditto for the black wire from that plug to chassis ground .

Once you know where the dropping resistor is it's simple enough to replace the thin black lom plugs wire with a heavier one to earth and the pale grey one back to the fuel tanks cover/plug .

There's really only two questions now , can we buy the terminals for the Nissan plugs which all look the same BTW .

And can the FPCM handle the higher current draw of larger aftermarket pumps .

A .

Edited by discopotato03
  • 4 months later...

THE FPCM can handle it, however not with massive walbro 460L pumps, this is where you need to be smart and use the output of the FPCM to trigger an external relay and run your own dropping resistor.

I've used the stock resistor, however it's not capable of dissipating enough energy. I've ordered a new 0.3 ohm 50 watt resistor to replace the one in my circuit:

http://www.skylinesaustralia.com/forums/topic/430312-r33-fuel-pump-wiring-better-feed-retaining-fpcm/page-2#entry7163251

  • 2 months later...

Hey guys.
I know it's a hella old thread but this is the closest I've seen to my problem.

Hit a dirt embankment with the drivers side rear of the car, enough force to bend LCA and knuckle.

The car now runs initially for a second after a prime but then shut off.

If I prime it a few times before cranking, it runs for a couple seconds then cuts off.

The car has fuel pressure to rail just fine.
I swapped the FPCM and the resistor module but no good.

Any ideas?

  • 10 years later...

I know this is an ancient thread but it was helpful with my issue blowing fuel pump fuses. I had replaced my pump which had seized up but when I tested it the fuse blew straight away. Did some testing with multi meter and following the wiring diagram.

Ended up being the FPCM having an internal short causing it. Fuel pump and fuses worked happily with the FPCM unplugged, even took it for drive. Got another FPCM and tested the pins to confirm not shorted, plugged it in and it is working fine.

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now


  • Similar Content

  • Latest Posts

    • I haven’t taken them out of the cases yet    inside the box is this packaging which is pretty much like a massive blister pack 
    • Purchased a NC MX5 a while ago Basic suspension mods done, BC coils and Whiteline sway bars  New DBA calipers, discs and pads Added some 17 x 8 Konig Decagrams with 215/45 17 PS5's Added some typical NA bolt on's, i.e. full exhaust and intake  Added 0.5ltrs with a MZR2.5 swap, nice bump in torques  Found a detachable hard top which is locked in for a colour match with my local paint shop in Feb 25, this also includes some PDR as it has received a few love taps from parking in the local shops when in the hands of my Minister for War and Finances, me, I park nowhere near other cars and typically park on the street The little thing is awesome, I drive it everywhere, it handles like a dream whether I'm up it or just cruising  But now,  because I'm a idiot, I keep looking at turbo kits....... did I mention I'm a idiot Why is dose so appealing  All of the NA 2.5 glory, well.......until sometime in 2025 anyway....🤪  
    • I would not be surprised if you are the only person on earth that has the interest/desire to do that lol.  The Haltech base map is a really good starting point, the car will fire easily and drive very well, even on mild boost levels. To me, following your advice sounds like some sort of ancient Chinese water torcher lol (this is not an insult Josh, never change <3)
    • Those car show concepts from the 2000's and 2010's like the Floria and IDx were brilliant and should've gone ahead, at least one of them. But neither Honda nor Nissan are thinking about affordable performance any more, which is truly sad.  Even if Toyota's liquid hydrogen ICE development reaches the point where it's commercially viable and the infrastructure to support it, Honda/Nissan would have to wait until Toyota allow fee access to their patents to offer it with any smaller performance models they released to take advantage of it.  
    • A sporty manual RWD coupe with a IL4 Honda engine would only be a good thing I assume we won't see anything released for a few years though, unless informal talks and designs have been going on for a few years,  and due to the current, and future, emmisions and safety requirements, I assume anything "sporty" they would do would be at least some hybrid thingie And hopefully anything they are thinking of has nice lines, without lots of plastic and fake bits hanging off it like that horrendous FK8 that looked like it was designed by a 13 year old The other issue of course in the current market is cost, currently the type R is around $70k, a twin is around $50k Meh, I'm old and grumpy and would rather buy a older model car and waste my coin on that than buying anything currently available new  
×
×
  • Create New...