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How to Check Codes: 86-93;94-95 Mustangs

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  • How to Check Codes: 86-93;94-95 Mustangs

    Checking codes is perhaps the most important step in diagnosing problems with your 5.0. It is free, easy, and effective.

    Materials Needed
    -a paperclip or a piece of wire approximately 3-10 inches
    -pen and paper

    *To get accurate results it is important that the car is fully warmed up

    Step One
    -Find the self-test connectors. They are located behind the driver side strut tower if your Mustang is a 1986-1993, and behind the passenger side strut tower if your Mustang is a '94-'95.

    1986 - 1993 Mustangs VIP Connector Location


    1994 - 1995 Mustangs VIP Connector Location



    -Connect the Self-Test Input (the single wire connector) to the SigRTN (the top right "window" of the house-shaped connector) using the paperclip or the wire.



    Step Two
    -Now that the connection is made, grab your pen and paper and sit in the driver seat.
    -Turn the key to the on position, but do not start the car. This will initiate the "Key On Engine Off" or KOEO Test.
    -Keeping an eye on the Check Engine Light (CEL) you will notice a quick and brief series of flashes. These are not usuable for these tests.
    -Next the CEL will flash slower codes. These codes are the ones we want, so its time to start counting them. The spacing of the flashes determines the number, for example: a code 67 would be shown as 6 flashes in a row, then a small pause, followed by 7 more flashes. Between codes is a longer pause. Each code will be repeated twice.
    -When the KOEO codes stop, you'll notice a much longer pause and then a seperator pulse (a single "solid" flash).
    -Now the Continuous Memory (CM) codes will flash. These codes are output essentially the same way as the KOEO codes.

    Step Three
    -after the CM codes are finished, turn the key to off for about 10 seconds, but leave the Self-Test connection hooked up.
    -Now you will want to start the car. The idle will raise substantially and the CEL will flash four times in a row (indicating that you have eight cylinders)
    -this will be followed by the Key On Engine Running (KOER) codes that are output like the previous tests.


    Optional Testing
    Cylinder Balance Test
    -Immediately after all KOER codes have been output, a quick tap of the throttle will initiate the cylinder balance test.
    -The codes shown are of a slightly different format, that is, they are multiples of ten. 10, 20, 30, 40, etc. for example 9 flashes would equal 90.



    If you get no flashes from the Check Engine Light during the tests then something is not right.
    -First you should check that you hooked up for the Self-Test correctly. If you find that you have set it up right then,
    -It is possible that your Check Engine Light is not functioning. You can use a Volt meter or a test-light as shown in this diagram



    -If your Gear Switch is faulty it may be necessary to run the tests with the clutch depressed.
    -In the case of a broken SigRTN wire, a simple solution is to connect from the Self-Test Input to a good ground or the negative post on the battery.
    -Some international models have the STI located directly below the SigRTN in the main self-test connector.


    Clearing EEC-IV Codes:

    1. Disconnect battery (-) terminal for 3-5 minutes.
    2. The above will cause a code 15 (Keep Alive Memory (KAM) Test Failed) to be logged since power was removed from the system memory.
    3. To clear this code (or any other codes) you could also use the alternate/quick procedure.


    Alternate Procedure to Clear Codes:

    1. Setup the system to run a KOEO self-test.
    2. Turn Ignition On.
    3. As soon as the codes start to flash, disconnect the STI jumper wire.
    4. Turn Ignition Off, set the system to run a KOEO self-test again, and confirm code 15 is cleared from memory (CM codes).



    This article was made with the contributions and material provided/available by/at:

    * Joel5.0
    * Neomustangs
    * stang562
    * www.veryuseful.com
    * www.fordfuelinjection.com
    * www.my5oh.com
    * www.sbftech.com
    Last edited by TENGRAM; 03-12-2011, 01:24 AM.

  • #2
    an aside from Joel5.0:

    Every now and then I read or hear customers saying..."there are no failure codes, since the CEL isn't turning on while driving, there shouldn't be any codes".......although that observation is true for most OBD-II systems, it's NOT TRUE for EEC-IV or Ford's OBD-I systems. This means that the possibility of having a failure code present causing driveability problems w/out having the CEL indicator at the instrument panel on, is not only true, but common. This is one of the reasons why the only reliable way to check EEC-IV systems is by running the system self-test routines described in the previous post.

    FYI....the following failures or codes are the only ones that would trigger the CEL/MIL to turn on for the time the failure condition is present, once the failure is not present, the CEL will turn off:

    CIRCUIT CODES
    ACT 54, 64
    ECT 51, 61
    BP/MAP 22
    MAF 26, 56, 66
    TPS 23, 53, 63
    EVP 31, 32, 34, 35
    HEGO(1) 41, 91, 42, 92
    (1) Based on a "lean-rich" switching counter timer function.

    Intermittent codes will only trigger the CEL during the time the failure condition is present. Any other circuit failures may be present, affecting driveability and/or performance, but not cause the CEL to turn on....and can only be identified/retrieved via the self-test routines. Another case are the failures that are not logged in memory, but are present during engine operation.....any failure code that doesn't have a "M" = memory, continuous notation, but any of the others, falls under that category...


    What happens when the CEL is on?........the EEC-IV uses a variant of a Failure Modes Effect Management (FMEM) strategy to compensate for the failures...or as described by Ford.....

    The Failure Mode (FMEM) strategy protects vehicle function from adverse effects of an EEC component failure. The strategy recognizes open or short circuit failure for six sensors: MAF, TP, ECT, ACT EVP/EPT, and BP. In general, if the continuous Self-Test strategy recognizes a failure the FMEM strategy will execute an alternative vehicle strategy. The alternative strategy disables logic which relies on realistic sensor values. Some sensor FMEM strategies also substitute a "safe" value for the bad sensor.

    What are those strategies?.....check the table below, look at the column of the failing sensor, and check the alternative actions it does....



    Bottom line.....

    Just because you don't see the CEL turning on, you may have circuit failures that affect EEC-IV functionality and performance, run the damn self-tests ....it will provide you with the information you need to correct any problems w/out having to replace unnecessary components, and throw away hard earned
    Last edited by TENGRAM; 03-12-2011, 01:28 AM.

    Comment


    • #3
      EEC-IV Self-Test Codes

      Got your codes? Post them up in the garage for help, but first check this list to get an idea about the problem.

      O—Key On, Engine Off code.
      CM—Continuous Memory code.
      R—Engine Running code.


      2-Digit Codes
      - 86-93 Mustangs


      11 - System Pass (O,CM,R)
      12 - RPM Not Within Self Test Lower Limit (R), DC Motor Did Not Move (O,CM,R), Idle Speed Control motor or Air Bypass not controlling idle properly -generally idle too low
      13 - RPM Not Within Self Test Upper Limit (R), Idle Speed Control motor or Air Bypass not controlling idle properly -generally idle too high
      14 - Profile Ignition Pickup Circuit Failure (CM)
      15 - Readout Memory Test Failed (O), Keep Alive Memory Test Failed (CM)
      16 - RPM Too Low To Perform o2 Sensor Test (R)
      17 - RPM below Self-Test limit with Idle Air Control off (R)
      18 - Spark Out (SPOUT) Circuit Open (R), Loss Of Ignition Diagnostic Module Input To PCM/SPOUT Circuit Grounded (CM)
      19 - Failure In PCM Internal Voltage (R), Erratic RPM During Hard Idle Self Test (R), Failure in EEC reference voltage (O)
      21 - Engine Coolant Temperature (ECT) Sensor Out Of Self Test Range. 0.3 to 3.7 volts(O,R)
      22 - Manifold Absolute Pressure/Barometric Pressure Sensor Out Of Self Test Range (O,CM,R)
      23 - Throttle Position Sensor Out Of Self Test Range (O,CM,R)
      24 - Intake Air Temperature/Air Charge Temperature Sensor Out Of Self Test Range. 0.3 to 3.7 volts(O,R)
      25 - Knock Not Sensed During Dynamic Response Test (R)
      26 - Mass Air Flow Sensor was greater than 0.7 volts with engine off (O), MAF sensor was not between 0.2 and 1.5 volts with engine running (R).
      28 - Loss Of Ignition Diagnostic Module RH Side (CM)
      29 - Insufficient Input From Vehicle Speed Sensor -To 1992 (CM), Insufficient Input From Programmable Speedometer/Odometer Module -From 1993 (CM)
      31 - EGR Valve Position/Pressure Feedback EGR Circuit Below Minimum Voltage. 0.24 volts (O,CM,R)
      32 - EGR Valve Position/Pressure Feedback EGR Voltage Below Closed Voltage. 0.24 volts (O,CM,R)
      33 - EGR Valve Opening Not Detected (CM,R)
      34 - EGR Valve Position/Pressure Feedback EGR Voltage Above Closed Limit (O,R), PFE or EVP circuit has intermittently failed above the closed limit of 0.67 volts (CM)
      35 - EGR Valve Position/EGR Pressure Feedback EGR Circuit Above Maximum Voltage of 4.81 volts (O,R), PFE or EVP circuit has intermittently failed above the maximum limit of 4.81 volts (CM)
      36 - System Indicates Lean At Idle (R)
      37 - System Indicates Rich At Idle (R)
      39 - AXOD converter bypass clutch not applying properly (CM)
      41 - System Indicates Lean -passenger side(R), No o2 Sensor Switching Detected. always lean -passenger side(CM)
      42 - System Indicates Rich -passenger side(R), No o2 Sensor Switching Detected. always rich -passenger side(CM)
      43 - o2 Sensors indicate lean at Full Throttle (CM)
      44 - Secondary Air System Inoperative. bank one, passenger side (R)
      45 - Secondary Air Upstream During Self Test (R)
      46 - Secondary Air Not Bypassed During Self Test (R)
      47 - Measured Air Flow Low At Base Idle (R)
      48 - Measured air flow too high at base idle (R)
      49 - 1–2 Shift Error (CM)
      51 - Engine Coolant Temperature Circuit Open (CM,O)
      52 - Power Steering Pressure Switch Circuit Open (O), Power Steering Pressure Switch Circuit Did Not Change States (R)
      53 - Throttle Position Sensor Circuit Above Maximum Voltage (CM,O)
      54 - Intake Air Temperature/Air Charge Temperature Circuit Open (CM,O,R)
      55 - Key Power Check (R)
      56 - Mass Air Flow/Vane Air Flow Sensor Circuit Above Maximum Voltage (O,CM,R), MAF Sensor short to power (CM,R), Transmission Fluid Temperature Circuit Open (CM,O)
      57 - AXOD Neutral pressure switch circuit failed open (CM)
      58 - Idle Tracking Switch Circuit Open Or Grounded -CFI (O,R), Vane Air Temperature Sensor Input Greater Than Self Test Maximum -EFI (CM,O)
      59 - 2–3 Shift Error (CM), AXOD 4/3 Pressure Switch Circuit Failed Closed (O), AXOD 4/3 Pressure Switch Circuit Failed Open (C)
      61 - ECT Sensor Circuit Grounded (O,CM,R)
      62 - Torque Converter Clutch Error (C,M), AXOD 4/3 Or 3/2 Pressure Switch Circuit Grounded (O)
      63 - Throttle Position Sensor Circuit Below Minimum Voltage (O,CM,R)
      64 - Intake Air Temperature/Air Charge Temperature Circuit Grounded (O,CM,R)
      65 - Transmission Control Switch/Overdrive Cancel Switch Circuit Did Not Change States (R)
      66 - , MAF signal below minimum test voltage of .4vdc (O,CM,R), Transmission Fluid Temperature Circuit Grounded (CM,O)
      67 - Park Neutral Position Switch Circuit Open; A/C On -Manual (O), Manual Lever Position Sensor Out Of Range/A/C On (CM,O), Clutch Switch Circuit Failure (CM)
      68 - Transmission recently overheated, or TOT sensor intermittently failed below 0.2 volts (CM)
      69 - 3–4 Shift Error (CM)
      71 - Software re-initialization detected or Cluster Control Assembly circuit failed (CM)
      72 - Insufficient Manifold Absolute Pressure/Mass Air Flow Change During Dynamic Response Test (R)
      73 - Insufficient Throttle Position Change During Dynamic Response Test (O,R)
      74 - Brake On/Off Circuit Open–Not During Self Test (CM,R)
      75 - Brake On/Off Circuit Closed/ECA Input Open (R)
      76 - Insufficient Vane Air Flow Sensor Output Change During Dynamic Response Test (R)
      77 - Operator Error Dynamic Response Test (R)
      78 - Re-Initalization Check (R)
      79 - A/C On/Defrost On During Self Test (O)
      81 - Secondary Air Diverter Circuit Failure (O)
      82 - Secondary Air Bypass Circuit Failure (O)
      83 - EGR Control solenoid circuit failure (O)
      84 - EGR Vacuum Regulator (EVR) Control Circuit Failure (O)
      85 - CANP Circuit Failure (O)
      86 - Adaptive fuel limit reached (CM), 3 – 4 Shift solenoid circuit failure (O)
      87 - Primary Fuel Pump Circuit Failure (CM,O)
      88 - Loss Of Dual Plug Input Control (CM), Throttle Kicker Fault (?)
      89 - Converter clutch solenoid circuit failure (CM)
      91 - o2 Sensor Circuit Indicates Lean -driver side(R), No o2 Sensor Switching Detected. always lean -driver side(CM), Shift Solenoid 1 Circuit Failure (O)
      92 - o2 Sensor Circuit Indicates Rich -driver side(R), No o2 Sensor Switching Detected. always rich -driver side(CM), Shift Solenoid 2 Circuit Failure (O)
      93 - Converter Clutch Solenoid Circuit Failure (O)
      94 - Secondary Air Injection Inoperative. bank two, driver side (R), Torque Converter Clutch Solenoid Circuit Failure (O)
      95 - Fuel Pump Circuit Open-PCM To Motor Ground (CM,O)
      96 - Fuel Pump Circuit Open-Battery To PCM (CM,O)
      97 - Transmission Control Indicator Lamp Circuit Failure (O)
      98 - Hard Fault Present (R)
      99 - Electronic Pressure Control Circuit Failure (CM,O)

      Cylinder Balance Test Codes
      10 - Cylinder #1 Failed Cylinder Balance Test
      20 - Cylinder #2 Failed Cylinder Balance Test
      30 - Cylinder #3 Failed Cylinder Balance Test
      40 - Cylinder #4 Failed Cylinder Balance Test
      50 - Cylinder #5 Failed Cylinder Balance Test
      60 - Cylinder #6 Failed Cylinder Balance Test
      70 - Cylinder #7 Failed Cylinder Balance Test
      80 - Cylinder #8 Failed Cylinder Balance Test
      90 - All cylinders passed Cylinder Balance Test
      Last edited by TENGRAM; 03-13-2011, 02:40 AM.

      Comment


      • #4
        3-Digit Codes - 94/95 Mustangs


        111 - System Pass
        112 - ACT Sensor Circuit Below Minimum Voltage of 0.2 volts (O), ACT circuit has intermittently failed below minimum 0.2 volts (CM)
        113 - ACT Sensor Circuit Above Maximum Voltage of 4.6 volts (O), ACT circuit has intermittently failed above the maximum of 4.6 volts (CM)
        114 - ACT out of self test range 0.3 to 3.7 volts
        116 - ECT out of self test range 0.3 to 3.7 volts
        117 - ECT Sensor Circuit Below Minimum Voltage of 0.2 volts(O), ECT circuit has intermittently failed below minimum 0.2 volts (CM)
        118 - ECT Sensor Circuit Above Maximum Voltage of 4.6 volts (O), ECT sensor circuit has intermittently failed above the maximum of 4.6 volts (CM)
        121 - Closed throttle TPS voltage higher or lower than expected (O,R), TP sensor was inconsistent with the MAF/MAP value in the last 80 drive cycles (CM)
        122 - TPS circuit below minimum 0.6 volts (O), TPS circuit has intermittently failed below minimum 0.6 volts (CM)
        123 - TP circuit above maximum 4.5 volts (O), TPS circuit has intermittently failed above maximum 4.5 volts (CM)
        124 - TP sensor was higher than expected with the MAF/MAP value in the last 80 drive cycles (CM)
        125 - TP sensor was lower than expected with the MAF/MAP value in the last 80 drive cycles (CM)
        126 - MAP/BP sensor out of self test range 1.4 to 1.6 volts
        128 - MAP sensor vacuum was not greater than 2 in-Hg (7 kPa) during normal vehicle operation
        129 - Insufficient MAF/MAP change during Dynamic Response Test
        136 - o2 Sensor circuit indicates system lean (left side)
        137 - o2 Sensor circuit indicates system rich (left side)
        139 - No HEGO sensor switching detected or disconnected (left side)
        141 - o2 Sensor circuit indicates system lean (both sides)
        144 - No o2 Sensor switching detected or disconnected (right side)
        157 - MAF sensor went below 0.4 volts during the last 80 warm-up cycles
        158 - MAF sensor went above 4.5 volts during the last 80 warm-up cycles
        159 - MAF signal was greater than 0.70 volt during KOEO (O), MAF signal was not between 0.20 and 1.50 volts during KOER (R)
        167 - TPS did not exceed 25% rotation during the Dynamic Response Test
        171 - Fuel system at adaptive limit, o2 Sensor unable to switch (right side)
        172 - o2 Sensor sensor circuit indicates system lean (right side)
        173 - o2 Sensor sensor circuit indicates system rich (right side)
        174 - o2 Sensor switching time is slow
        175 - Fuel system at adaptive limit, o2 Sensor unable to switch(left side, (Bank No. 2))
        176 - o2 Sensor circuit indicates system lean (left side)
        177 - o2 Sensor circuit indicates system rich (left side)
        178 - o2 Sensor switching time is slow (Bank No. 1)
        179 - Right side still rich, at leanest adaptive limit, during part throttle
        181 - Right side still lean, at richest adaptive limit, during part throttle
        182 - Right side still rich, at leanest adaptive limit, at idle
        183 - Right side still lean, at richest adaptive limit, at idle
        184 - MAF higher than expected
        185 - MAF lower than expected
        186 - Injector pulse width longer than expected
        187 - Injector pulse width shorter than expected
        188 - Left side still rich, at leanest adaptive limit, during part throttle
        189 - Left side still lean, at richest adaptive limit, during part throttle
        191 - Left side still rich, at leanest adaptive limit, at idle
        192 - Left side still lean, at richest adaptive limit, at idle
        193 - Flexible Fuel sensor circuit failure
        194 - Run cylinder balance diagnostic test
        195 - Run cylinder balance diagnostic test
        211 - Two or more successive erratic Profile Ignition Pickup (PIP) pulses occurred, resulting in a possible engine miss or stall
        212 - Loss of IDM (Ignition Diagnostic Monitor) input to EEC or SPOUT circuit grounded
        213 - SPOUT circuit open
        214 - Cylinder Identification (CID) circuit failure
        215 - EEC detected coil 1 primary circuit failure
        216 - EEC detected coil 2 primary circuit failure
        217 - EEC detected coil 3 primary circuit failure
        218 - Loss of IDM (Ignition Diagnostic Monitor) signal (left side)
        219 - SPOUT failure, spark timing has defaulted to 10 degrees BTDC
        222 - Loss of IDM (Ignition Diagnostic Monitor)signal (right side)
        223 - Loss of Dual Plug Inhibit control
        224 - Erratic IDM (Ignition Diagnostic Monitor)input to processor
        225 - Knock Sensor (KS) signal not sensed during dynamic response test
        226 - IDM (Ignition Diagnostic Monitor)signal not received
        244 - Camshaft Position (CMP) Sensor failure
        311 - Thermactor air system inoperative (right side)
        312 - Thermactor air misdirected upstream during self test
        313 - Thermactor air not bypassed during self test
        314 - Thermactor air system inoperative (left side)
        326 - PFE or DPFE circuit voltage lower than expected with zero EVR duty cycle
        327 - DPFE or EVP circuit below minimum voltage of 0.2 volts
        328 - EVP circuit below minimum voltage of 0.24 volts
        332 - EGR valve opening not detected
        334 - DPFE or EVP circuit above the closed limit of 0.67 volts
        335 - PFE or DPFE sensor voltage out of Self-Test range
        336 - EVP or DPFE circuit voltage above maximum voltage with zero EVR duty cycle
        337 - DPFE or EVP circuit above the maximum limit of 4.81 volts
        338 - ECT lower than expected
        339 - ECT higher than expected
        341 - Octane Adjust shorting bar is not in or the OCT ADJ circuit is open
        381 - Frequent A/C compressor clutch (ACCS) cycling less than 8.5 seconds
        411 - Cannot control rpm during KOER low RPM check
        412 - Cannot control rpm during KOER high RPM check
        452 - Computer detected an error in the VSS or PSOM signal during the last 80 warm-up cycles
        461 - Engine over speed was detected
        Last edited by TENGRAM; 03-13-2011, 02:40 AM.

        Comment


        • #5
          511 - EEC permanent Read Only Memory (ROM) test failed
          512 - EEC battery powered Keep Alive Memory (KAM) test failed
          513 - Failure in EEC processor internal voltage
          519 - Power steering pressure switch circuit open
          521 - Power steering pressure switch did not change state during KOER test
          522 - Vehicle not in PARK or NEUTRAL during KOEO
          524 - When the PCM commanded the fuel pump on, voltage was not detected on FPM
          525 - Vehicle in gear or A/C on during Self-Test
          526 - Neutral Pressure Switch closed or A/C on
          527 - Neutral Drive Switch open or A/C on
          528 - Clutch Switch Circuit failure
          529 - Data Communications Link or Electronic Instrument Cluster circuit failure
          532 - Data Communications Link or Electronic Instrument Cluster circuit failure
          533 - Data Communications Link or Electronic Instrument Cluster circuit failure
          536 - Brake On/Off circuit failure / switch not actuated during KOER test
          538 - Insufficient RPM change during KOER dynamic response test/ Operator error
          539 - A/C or Defroster ON during KOEO test
          542 - Fuel pump circuit failure
          543 - When the PCM commanded the fuel pump on, voltage was not detected on FPM
          551 - Intake Manifold Runner Control (IMRC) circuit failure
          552 - Air management 1 circuit failure (AM1/TAB)
          553 - Air management 2 circuit failure (AM1/TAD)
          554 - Fuel Pressure Regulator Control (FPRC) solenoid circuit failure
          556 - Fuel Pump circuit failure
          557 - Fuel pump relay coil resistance failure
          558 - EGR Vacuum Regulator circuit failure
          559 - Air Conditioning On relay circuit failure
          563 - High Speed Electro-Drive Fan circuit failure
          564 - Electro-Drive Fan circuit failure
          565 - Canister purge circuit failure
          566 - 3 – 4 Shift Solenoid failure
          569 - Canister purge 2 circuit failure
          571 - EGR Atmospheric Regulator circuit failure
          572 - EGR Vacuum Regulator circuit failure
          578 - A/C Pressure (ACP) sensor VREF circuit is short to ground
          579 - A/C Pressure (ACP) sensor circuit is above maximum voltage
          581 - When the cooling fan was activated, the circuit exceeded current draw
          582 - Open or short to power in the power-to-cooling fan circuit
          583 - When the fuel pump was activated, the power-to-pump circuit exceeded the normal current draw
          584 - Variable Control Relay Module circuit grounded
          585 - A/C clutch circuit exceeded the normal current draw
          586 - A/C clutch circuit open or shorted to power
          587 - Data Communications Link (DCL) error
          593 - Oxygen Sensor Heater circuit failure
          617 - 1 - 2 shift error (E4OD)
          618 - 2 - 3 shift error (E4OD)
          619 - 3 - 4 shift error (E4OD)
          621 - Shift solenoid #1 circuit failure
          622 - Shift solenoid #2 circuit failure
          623 - Overdrive light circuit failure
          624 - Electronic Pressure Control solenoid or driver circuit failure
          625 - Electronic Pressure Control driver open in EEC
          626 - Coast clutch solenoid circuit failure (E4OD)
          627 - Converter clutch solenoid circuit failure (E4OD)
          628 - Converter clutch Lock-Up error (E4OD)
          629 - Converter clutch control circuit failure
          631 - Overdrive light circuit failure
          632 - Overdrive cancel switch not changing state (E4OD)
          633 - 4WD switch is closed
          634 - Transmission Manual Lever Position Sensor circuit out of self test
          636 - TOT sensor voltage out of self test range
          637 - TOT sensor circuit above maximum voltage
          638 - TOT sensor circuit below minimum voltage
          639 - Insufficient input from the Transmission Speed Sensor
          641 - Shift solenoid #3 circuit failure
          643 - Converter Clutch Control circuit failure
          645 - Incorrect gear ratio obtained for first gear
          646 - Incorrect gear ratio obtained for second gear
          647 - Incorrect gear ratio obtained for third gear
          648 - Incorrect gear ratio obtained for fourth gear
          649 - Electronic Pressure Control range failure
          651 - Electronic Pressure Control circuit failure
          652 - Modulated Converter Clutch Control solenoid output circuit error
          653 - Transmission Control Switch was not cycled during KOER Self-Test
          654 - MLP sensor not in park position
          656 - Converter Clutch Control continuous slip error detected
          657 - Transmission over temperature condition occurred
          659 - High vehicle speed detected while the vehicle was in PARK
          667 - Transmission Manual Lever Position Sensor circuit shorted
          668 - Transmission Manual Lever Position Sensor circuit open
          675 - MLP circuit voltage was out of the expected range
          691 - 4WD switch circuit failure
          998 - Hard fault present

          Comment


          • #6
            GREAT write-up!
            sigpic 92 GT, 5 Lugged, 306, Vortech V1 S Trim, 42# injectors, Aeromotive Boost Reference Fuel Pressure Regulator, MSD Boost Timing Master, TKO 600, Moser 31 Spline Axles, 3.73's.

            Comment


            • #7
              Does the car have to be running to get the proper codes?

              Or are they stored up from the last time it ran? Car battery removed for charging.

              Thanks for posting, if the car doesn't need to be running this should help me diagnose the issue with my 95'
              WRX

              Comment


              • #8
                Not running, KOEO.

                Comment


                • #9
                  Originally posted by mustang_revival View Post
                  Does the car have to be running to get the proper codes?

                  Or are they stored up from the last time it ran? Car battery removed for charging.

                  Thanks for posting, if the car doesn't need to be running this should help me diagnose the issue with my 95'
                  There are "Continuous Memory" codes which are stored, but if your battery has been out for very long it is likely that the codes have been erased. As JimD pointed out, there is a "Key On Engine Off" mode (discussed in my write-up) that will check various sensor responses with the engine off. The engine running (KOER) test is a bit more thorough though.

                  Comment


                  • #10
                    95 mustang. I got a 322 followed by a 2. What the heck is that?!
                    .....bro....

                    Comment


                    • #11
                      EGL issues

                      I ran the test as indicated by the steps in this post. Everything worked great as I was able to obtain the KOEO and CM codes explained in steps 1-2. However, I was unable to complete the following steps and receive codes and status for both Key On Engine Running (KOER) or Cylinder Balance Test. Following step three, I turned the key back to off, waited 10 seconds, then started the car. According to the instructions I was supposed to notice an increase in idle and four CEL blinks to indicate the 8 cylinders. When I started the car, after about 10 seconds, the car's RPM's dropped/dipped and then came back up to normal. I saw no CEL light activity after this quick dip in RPM's. I tried the test twice and experienced same results and getting the same code readings for both KOEO and CM. Can anyone help me to get a proper test for step three?

                      Also, my tests indicate a EGR issue.

                      My codes read the following:

                      KOEO- 31 (EGR Valve Position/Pressure Feedback EGR Voltage Below Closed Limit... and 67 (Park Neutral Position Sensor Out of Range/A/C On....Clutch Switch circuit failure....

                      CM- 33 (EGR Valve Opening Not Detected...

                      If any one can interpret these codes I would appreciate explanation. I'm not too familiar with EGR's and I don't think my car even has one. I have a 93 Cobra and a 93 Saleen. The Cobra is the car with the EGR issues, but it appears that it does not have an EGR module on the back of the upper intake manifold where the Saleen has one. Therefore, the vacuum line for the unit is not utilized and capped off. Furthermore, in place of where the EGR should be mounted is a metal cap/plate that seems to be used as an EGR delete held on by bolts.

                      I am new to this online mustang forum and still getting used to how things work. I don't know if responses to my questions will be pushed into my inbox or notified in my personal email. If anyone can help with these issues, please email at ryanrjones@hotmail.com

                      Thanks

                      Comment

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