This 2003 Ford Expedition came in with a no run condition. A quick check found no fuel pressure and a code P0231 (low voltage on fuel pump monitor circuit). I decided to go to the interior fuse box, where my wiring diagrams, stated the fuel pump relay and fuse are located. There are a couple of covers that have to be removed.
Pull the edge loose at the firewall end and pivot the cover back.
There is a black plastic cover that has to be pulled off of the actual fuse box.
Since my wiring diagrams stated the relay was located in the fuse box, but did not give a specific position, I looked in the owners manual for more info. No luck there. I did some reading and found that there are five internal, non serviceable relays inside the fuse block. My next test would involve locating the output circuit from the relay. The wiring diagrams stated that the fuel pump relay output wire was dark green/yellow and it was located in cavity 3 of connector C270K. I placed a jumper wire into the cavity to backprobe the circuit, no volts. Since my backprobe wire is part of a fused jumper wire, I connected battery voltage to the circuit and started the vehicle. This told me that the fuel pump, inertia switch and related wiring were all okay.
I checked fuse #34 with the key on and it had power and was good so that eliminated a faulty pcm relay and related wiring. The next step was to locate the light blue/orange wire in cavity #12 of the C270B connector. It is in the lower right hand corner of the twelve cavity connector just below the connector that I am backprobing in the picture above. When the ignition is turned on the reading was near zero volts and after a few seconds it went to battery voltage. This told me that the pcm was using a ground to energize the fuel pump relay coil. With all of this testing I knew without a doubt that the fuel pump relay that is part of the interior fuse box was faulty.
Disconnect the battery first before removing the fuse block. There is a battery feed cable that also has to be disconnected on the rear edge of the fuse box. It is located under a cover. I have pictures of that at the end of this post. There is only one bolt that holds this fuse block in place.
I unplugged all of the wiring. There are connectors on the top where testing was done and on the edge. Above and below the mounting bolt.
In the rear.
This connector has a slide mechanism. I have my finger in the pull handle for it.
The fuse block removed from the vehicle. You can see the battery terminal post on the lower left edge.
I carefully removed all fuses and relays from the fuse block and laid them out in the order removed.
I took the back cover off of the fuse block and started disassembling it.
Once I had it opened it was easy to see the damage. Slightly right of center.
The damage was even easier to see from the relay side of the board. I feel fairly confident that if this problem would have been caught soon enough, the solder joint could have been repaired or a new relay installed (if one could have been located).
The old fuse block on the left and the new one on the right.
I plugged everything back in and bolted the fuse block in place.
This is the end of the battery cable that I referred to earlier.
The cover for the battery stud on the fuse block.
I put all of the covers back on, cleared the codes and test drove the vehicle. This one is done.
This repair will generally apply to Ford and Lincoln full sized trucks and suv’s in the same years//body style. Check diagrams and component locators before jumping any circuits, as I did.
Assuming that replacing the crank sensor has worsened the condition, I would suspect a faulty crank sensor harness connector. Based on the limited data that you shared, my initial impression is lean fuel. Low O2 sensor readings are indicative of a lean condition. Interpreting the O2 data is highly dependent on the TPS position and whether an deceleration or acceleration was the precondition of the TPS data. There are many other things that can come into play such a scan tool reporting speed. Just for for the sake of argument I would monitor fuel pump voltage and if you have the tooling, actual fuel pressure.
Sparky,
I replaced the CKP sensor and now the stalls are occurring more frequently (3x in about 5 miles)….
Here is some additional info that I did get from my OBDII:
MIL – Off
DTC – P0320
RPM – 1623
Load value – 65%
Air Flow Rate – 32.77 Gr/sec
Intake air temp – 73
Ignition timing Adv – 30.5
Short Term Fuel Trim 1 – 1.5%
Long Term Fuel Trim 1 – 2.3%
Short Term Fuel Trim 2 – 1.5%
Long Term Fuel Trim 2 – 0.7%
Short Term Fuel Trim 3 – -8%
Long Term Fuel Trim 3 80.4%
Long Term Fuel Trim 4 – 65.6%
Short Term Fuel Trim 4 – -3.4%
Vehicle Speed – 19MPH
Fuel System 1 – CLSD
O2S111 – 0.040V
O2S1211 – .040V
O2Sxx11 – .040V
Short Term Fuel Trim (Bx-Sy) 11 – 1.5%
O2S1112 – 0.100V
O2S1212 – 0.100V
O2Sxx12 – 0.100V
Short Term Fuel Trim (Bx-Sy) 12 – 99.2%
O2S1121 0.055V
O2Sxx21 0.055V
Short Term Fuel Trim (Bx-Sy) 21 – 1.5%
O2S1122 – 0.595V
O2S1222 – 0.595V
O2Sxx22 0.595V
Short Term Fuel Trim (Bx-Sy) 22 99.2%
Does that shed more light on anything that would assist in identifying the faulty component?
Dean
Yes, a crank sensor is relatively cheap and worth trying. Be sure to use a major name brand. Motorcraft preferably. My research showed common problems with coil assemblies for cylinders 4 & 8 as possible causes for your symptoms.
Sparky!
No code 6 scanner available and automotive stores like O’Reilly, etc. can’t loan a reader either out here in the land of the fruits and nuts (California).
So no…
But I did check the COP and noticed the condensation on top of the #6, 7, & 8 plugs. I vacuumed them out and put additional dielectric grease on the plug connectors. Condensation seems to build on the fuel line and drip down into the plug wells…
It’s been warm and dry here so I don’t know if additional moisture from condensation is getting in other areas other that via condensation!
I also checked the CKP sensor connector contact and put the dielectric grease there as well (Expy starts so I did not run the voltage test on the sensor). The CKP is about $22 so that might be the next in line for replacement items.
Your thoughts?
There are several things that can cause your issue. Crank sensor, crank sensor connector, faulty coil causing PCM feedback interference, PCM and water in any of the related connectors. By any chance do you have access to a scan tool or code reader that is capable of reading mode 6 data?