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4x4 system diag outline, Possibly something to be pinned??


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4x4junkie

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Location
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Vehicle Year
1990
Make / Model
Bronco II
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2.9 V6
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2.9L V6
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Manual
2WD / 4WD
4WD
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35x12.50R15
_________________________
Chris1044 said:
I wrote this because 1) It made The specifics of this apply to a 94 Ranger with a BW1354 case, but I’m sure that the basic concepts can be applied to other years.







I can’t cover every practical situation that you’ll encounter with the 4x4 not working. This is written to be a guide for most situations……its going to be long, and assumes that you can 1) use a test light to check fuses and 2) use a volt meter to check for power/grounds/resistance in different circuits. Also, I will stress that you DO NOT JAM A TEST LIGHT / THICK VOLT METER LEADS INTO ANY CONNECTOR. YOU WILL RUIN THAT CONNECTOR or ruin its ability to maintain a solid connection with the other pin. Don’t do this ever on any connector period. Go to Wally world, go to the sewing dept. and pick up a pack of small T-pins – they work great for this sort of thing or back probing connectors.

If you can’t use a volt meter, you can still do some basics – just don’t expect to find something like a corroded wire at some connection that’s causing your 4x4 system failure.

I also can’t be held responsible for stupid on your part. If you jack only your front two tires up, put the truck in 4x4, and try to see if the front wheels are spinning….you get my point….



________________________________________________________________________________


First, are you sure that you’ve got no 4x4? This article is going to cover the electrical shifting system, and will not touch on your 4x4 hubs and how to fix them.

Before you get in over your head, and realize you’ve got shitty hubs and not a bad 4x4 shift system, do yourself a favor and put the truck up on jack stands (all 4 tires off the ground). Shift the truck into 4x4, and with the motor running put the trans into drive. Let out on the brake, and let the truck idle in drive…..check to see if both drive shafts are turning. If they are, yet you’ve got no front wheels spinning, you’ve got a hub issue. If one is spinning it’s because you’ve got an open diff……

Assuming that your front drive shaft is not spinning, you’ve got a 4x4 engagement problem…….now you’ve got to do some diag

1. Check to make sure all fuses for the system are good. There are two fuses that supply power to your 4x4 shift system – one located under the hood, the other under the dash. The under fuse is a 20 amp maxi fuse, the under dash fuse is a 15 amp ATO fuse – on the 94 rangers its located in the fuse position 7.

a. If they’re good, go to the next step,

b. If they’re bad, you’ve got a short somewhere in the system. Try to replace the fuse, and see what happens. If it blows, you’ve got something shorted to ground in the circuit. If you know how to use a volt meter, you should know how to find a short in the circuit, and will need a wiring diagram to do so.




2. If all the fuses are good, the next step is to run the 4x4 module self diagnostic. The 4x4 module is located behind the driver’s side rear jump seat on super-cab models, but as far as the other locations I don’t really know. This module will have three connectors going to it – one will be a pig tail, the other two will be located on the right side of it (side towards the front of the truck). These two connectors must be removed to diagnose the module. With the key in the off position, remove these two connectors from the module. Next, turn the key on with the engine off. On top of the module is a white rectangular button located next to a red LED….push the button and watch the LED.
a. If it flashes, this indicates the module is working properly. Go to the next step

b. If it lights up and stays on, it indicates that the module is likely bad. If nothing happens it means the module is either bad, or has no ground/power. In either of these instances power and ground should be verified before scrapping a 4x4 module.

i. The 4x4 module receives its power/ground through the 8 pin pigtail connector.
1. Pin Position 1 = Open, no wire
2. Position 2 = Solid Black = Ground
3. Position 3 = Orange/Black = Logic Ground
4. Position 4 = Orange = Transfer Case Motor Control (Clockwise) 2H-4H-4L
5. Position 5 (across from position 4) = Yellow = Transfer Case Motor Control (Counterclockwise) 4L-4H-2H
6. Position 6 = Brown = Electromagnetic Clutch (Feed)
7. Position 7 = White/Purple = Ignition Run and Crank (Start) Feed (Fused)
8. Position 8 = Dark Green/Light Green = 20A Maxi-Fuse in Power Network Box (under hood fuse)




3. With the two connectors still unplugged from the module, the next step is to verify the 4x4 dash switch input. Take the 5 wire connector, the one with the grey connector color, and check the following:

a. Connect an ohmmeter between terminals 1 (White/Light blue wire) and 2 (Dark Blue wire). Then depress the 4x4 (2H-4H) switch. The ohmmeter should indicate a low resistance value (less than 50 ohms) while the switch is being depressed. If this occurs, the switch feed to and from the module is good

b. Connect an ohmmeter between terminals 1 and 3 (orange/light blue wire). Then depress the LOW RANGE switch. The ohmmeter should indicate a low resistance value (less than 50 ohms) while the switch is being depressed. Again, if this occurs, the 4 low switch is good.

c. Connect a test lead between terminal 4 (brown/white wire) and ground. Turn the ignition switch to RUN and observe the indicator lights. The LOW RANGE light in the instrument panel and LOW RANGE indicator light on the switch should illuminate. This indicates the 4x4 lo switch/dash lights are good

d. Connect a test lead between terminal number 5 (grey wire) and ground. Turn the ignition switch to RUN and observe the indicator lights. The 4x4 light in the instrument panel and 4x4 light on the switch should illuminate. This indicates the 4x4 hi lights/dash lights are good.

e. If any of these tests fail, you will have to check the wires from the module to the back of the switch for continuity. This is done easily by removing the dash switch and connecting an ohmmeter between the same color wires, with one lead at the module and the other at the switch. A resistance value of 10 ohms or less is good, any more indicates excessive circuit resistance. If all 5 wires have low resistance between the switch and module, the switch is bad and must be replaced.




4. The next step will check the circuitry to the shift motor. Your shift motor must be hooked up for this to work. Grab the 8 wire connector that is unplugged from the 4x4 module. It will be tan in color. Check the following:

a. Connect an ohmmeter between terminal 1 (red/light blue for manual trans vehicles, red/white for auto trans vehicles) and ground. On a vehicle equipped with a manual transmission, depress the clutch pedal and observe the ohmmeter. The ohmmeter should indicate a low resistance (less than 50 ohms) while the clutch pedal is being depressed. If the vehicle is equipped with an automatic transmission, shift the transmission into NEUTRAL and observe the ohmmeter. The ohmmeter should indicate a low resistance (less than 50 ohms) while the transmission selector lever is in the NEUTRAL position. This ensures that the Park/Neutral switch or Clutch pedal switch is good (needed for 4 lo shifts)

b. Connect an ohmmeter between terminals 2 (light green) and 3 (light blue). The ohmmeter should indicate a low resistance reading (235-470 ohms). This will check the continuity of the speed sensor that is located in the transfer case. The speed sensor picks up the rotating speed of the transfer case rear output shaft from two notches that are cut in opposite sides of the outer ring of the clutch housing.

c. Connect an ohmmeter between terminal 8 (yellow/white) and terminals 4 (violet), 5 (white), 6 (brown/white) and 7 (orange/white), respectively. Refer to the following chart for the appropriate ohmmeter readings in each transfer case position.


OHMMETER READINGS FOR SHIFT MOTOR POSITION SENSOR
Pin 8 Y/W To: TRANSFER CASE MOTOR POSITION
2 High Edge 1 2H-4H Edge 2 4 High Edge 3 4H-4L Edge 4 4 Low
Pin 4
P/Y Short Short Short Short Open Open Open Short Short
Pin 5
W Open Open Open Open Open Short Short Short Short
Pin 6
BR/W Short Short Open Short Short Short Short Short Open
Pin 7
O/W Open Short Short Short Short Short Open Open Open


NOTE: Edge positions and Mid-Shift positions are valid motor codes that the module will respond to; however, any motor found in one of these positions should be replaced/torn apart and cleaned/inspected to prevent the overshooting of shift points.
SHORT is a "low" resistance reading on the ohmmeter (zero ohms).
OPEN is a "high" resistance reading on the ohmmeter (infinity).
 


4x4junkie

Forum Staff Member
TRS Forum Moderator
TRS 20th Anniversary
Joined
Aug 19, 2001
Messages
10,749
Reaction score
580
Points
113
Location
So. Calif (SFV)
Vehicle Year
1990
Make / Model
Bronco II
Engine Type
2.9 V6
Engine Size
2.9L V6
Transmission
Manual
2WD / 4WD
4WD
Tire Size
35x12.50R15
Continuing...
Chris1044 said:
5. Up to now, the following should have been verified:

i. All fuses are good
ii. The 4x4 module tested ok, and has power/ground (make sure the pigtail connector isn’t corroded – is common among rust belt trucks)
iii. The 4x4 switch tested ok
iv. The shift motor circuitry tested ok


b. With the key off, reconnect the two connectors. Make sure the key is off.

c. The next step is to verify that the module is supplying voltage to the shift motor. To do this, you’ll either need a second person or long volt meter leads. Crawl under the truck. Find the connector that connects to the shift motor. Leave it connected. Back probe the solid orange wire through the connector located on the shift motor side. You are essentially checking for voltage at this pin to ensure that it is getting voltage, and that the connector is good. Next, turn the key to run and push the 4x4 switch. You should see 12 volts on the volt meter. If not, ensure that the volt meter has a good ground and try again.

i. If you’ve got a 12 volt signal, go to the next step (D)
ii. If you’ve got nothing still, go to step 6


d. If you have a 12 volt signal, the next thing to do is verify that the motor has a good ground as well. Back probe the solid orange wire on the connector as well. Again, check for a 12 volt signal using the yellow wire. This ensures that the module is grounding the other side of the motor, allowing for current to flow through the motor. If the shift motor still doesn’t work (you can’t hear/feel it spin) then it’s probably bad. You can remove it from the transfer case and make sure you can spin the transfer case manually using a pair of pliers. If you can, then it’s a good bet the motor is bad. If you can’t, you’ve got other issues and the t-case probably needs some internal repair…..the shift motor may be alright after all, and the major (internal) issue must be repaired first.

i. If you didn’t receive a 12 volt signal, then the module isn’t grounding the motor for some reason, and could be bad. Continuity from the orange/yellow wires at the shift motor connector to the 8 wire pig-tail connector from the module must be checked.

6. If in step five you had no power signal, even when you grounded the volt meter to something other than the module itself, you need to 1) make sure the wires have continuity between the 4x4 module and shift motor, and 2) make sure that the module is sending a 12v supply to the 4x4 switch. To verify issue 1, see part d-I in step 5. To verify issue 2:

a. With all connectors plugged into the module, back probe the dark blue wire (terminal 2) on the 5 pin grey connector – the one on the lower right side of the module. Make sure you DO NOT ground your back probe out while doing this. With this pin back probed, turn the key on. Check for a 12 volt signal there while pushing the 4x4 switch. If you have 12 volts there, your module is sending a 12 volt supply to the 4x4 switch.

i. If no voltage is present there, turn the key off and back probe terminal 1 (white/light blue) on the same connector. Again, it is more crucial here that this is not grounded. If you ground this pin out with the key on, even for 1/16th of a second, your module could be ruined. Now that you’ve ensured your back probe is not and cannot be grounded out, check for voltage by simply turning the key on.

1. If you have voltage here, but did not in part 6a you must verify continuity between the module and 4x4 switch – refer to step 3.
2. If you have no voltage here, make sure the module has power and ground. If it does, it’s probably bad.

If you can check all that stuff, yet still can’t figure WTF is going on with your system, post up. That should be a fairly decent start on system diagnosis, and I’ll bet completing those steps will tell you what is wrong with your system. Again, there could be some weird issue, and you’ll have to make a post for more info.
As for now, I’m posting this – I’ll proof read it some time…..when I feel like wasting some more time instead of studying lol…
 
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