P2162 Vehicle Speed Sensor “A”/”B” Correlation

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P2162 Vehicle Speed Sensor “A”/”B” Correlation

OBD-II Trouble Code Technical Description

Output Speed Sensor A/B Correlation

What does that mean?

This is a generic diagnostic trouble code (DTC) and typically applies to OBD-II vehicles. Vehicle makes may include but aren’t limited to Ford, Chevy / Chevrolet, etc.

If your OBD-II equipped vehicle has stored a code P2162, it means that the powertrain control module (PCM) has detected a discrepancy between two separate vehicle (output) speed sensors.

The individual vehicle (output) sped sensors have been designated as A and B. The sensor designated as A is normally the forward most sensor in the network but check specifications for the vehicle in question before reaching any diagnostic conclusions.

In the type of system intended to exhibit a code P2162, multiple vehicle (output) speed sensors are used. It is likely that one is located in the differential and the other is situated near the output shaft housing of the transmission (2WD) or transfer case (4WD).

The vehicle (output) speed sensor is an electromagnetic sensor which is mounted in close proximity to some type of toothed reluctor ring wheel or gear. The reluctor ring is mechanically affixed to an axle, transmission/transfer case output shaft, ring gear, or driveshaft. The reluctor ring spins in conjunction with the axle. As the reluctor ring teeth pass within thousandths-of-an-inch of the output shaft speed sensor, the magnetic field completes the sensor input circuit. The notches between the reluctor ring teeth create interruptions in the same circuit. These completions/interruptions occur in rapid succession as the vehicle rolls forward. These circuit completions and interruptions create wave form patterns that are received by the PCM (and other controllers) as vehicle speed or output shaft speed. As wave form pattern speed increases, estimated vehicle and output shaft speed increases. Likewise, as the input speed of the wave form slows, estimated vehicle or output shaft speed decreases.

The PCM is constantly monitoring vehicle (output) speed when the vehicle is moving forward. If the PCM detects a variation between the individual vehicle (output) speed sensors that exceeds the maximum threshold (for a set amount of time) a code P2162 will be stored and a malfunction indicator lamp (MIL) may be illuminated.

A transmission speed sensor:

What is the severity of this DTC?

The conditions which contribute to a code P2162 being stored may cause incorrect speedometer calibration and erratic transmission shifting patterns. The code should be considered severe and addressed as quickly as possible.

What are some of the symptoms of the code?

Symptoms of a P2162 diagnostic code may include:

  • Erratic speedometer operation
  • Irregular transmission shift patterns
  • Inadvertent ABS or traction control system (TCS) activation
  • ABS codes may be stored
  • The ABS may be disabled
  • What are some of the common causes of the code?

    Causes for this P2162 code may include:

  • Incorrect final drive gear ratio (differential ring gear and pinion)
  • Transmission slippage
  • Excessive metallic debris on vehicle (output)/output shaft speed sensor magnet
  • Defective vehicle (output)/output shaft speed sensor
  • Cut or damaged wiring or connectors
  • Broken, damaged, or worn reluctor ring teeth
  • Faulty PCM or PCM programming error
  • What are some P2162 diagnostic and troubleshooting steps?

    A diagnostic scanner with a built-in oscilloscope, a digital volt/ohmmeter (DVOM), and a source of reliable vehicle information will be needed to diagnose a code P2162.

    With a stored P2162, I would make sure that my automatic transmission was full of clean fluid that did not smell burnt. If the transmission was leaking, I would repair the leak and fill it with fluid, then drive it to make sure that it had not undergone mechanical failure.

    You will need the vehicle information resource for wiring diagrams, connector face views, connector pin-out charts, diagnostic flow charts, and component testing procedures/specifications. Without this information, a successful diagnosis is impossible.

    After performing a visual inspection of system related wiring and connectors, I would continue by connecting the scanner to the vehicle diagnostic port and retrieving all stored codes and freeze frame data. I like to write this information down as it may be helpful as the diagnostic process unfolds. After that, I clear the codes and test-drive the vehicle to see if the code is reset.

    The easiest and most efficient method for testing live vehicle (output) speed sensor data is with an oscilloscope. If you have access to an oscilloscope:

  • Connect the positive test lead of the scope to the signal circuit of the sensor being tested
  • Select the appropriate voltage setting on the scope (sensor reference is typically 5-voolts)
  • Connect the negative test lead to a ground (sensor ground or battery ground)
  • With the drive wheels off the ground and the vehicle secured, run up the drive train while observing the wave form on the scope display
  • You are looking for an even waveform pattern with no voltage spikes or glitches as you smoothly accelerate/decelerate through all the gears
  • If inconsistencies are discovered, suspect a defective sensor or a poor electrical connection
  • Test the vehicle (output) speed sensors, independently:

  • Place the DVOM on the ohms setting and unplug the sensor being tested
  • Use the test leads to probe the pins of the connector and compare your findings with sensor testing specifications
  • Sensors which do not comply with specs should be considered faulty
  • Test vehicle (output) speed sensor reference voltage:

  • With the key on/engine off (KOEO) and the sensor being tested disconnected, probe the reference circuit pin of the sensor connector with the positive test lead of the DVOM
  • At the same time, the negative test lead of the DVOM should be used to probe the ground pin of the same connector
  • Reference voltage must be within the specifications provided in your vehicle information resource (usually 5-volts)
  • Test vehicle (output) speed sensor signal voltage:

  • Reconnect the sensor and probe the signal circuit of the sensor being tested with the positive test lead of the DVOM (negative test lead to sensor ground or known good engine ground)
  • With the key on and engine running (KOER) and the drive wheels safely secured off the ground, run up the driveline while observing the voltage display on the DVOM
  • A speed to voltage chart may be found within the vehicle information source. You can use it to determine if the sensor is functioning properly at a variety of speeds
  • If either of the sensors being tested fail to reflect the appropriate degree of voltage (according to speed) suspect that it is defective.
  • If the signal circuit reflected the correct degree of voltage at the sensor connector, use the DVOM to test the individual vehicle (output) speed sensor signal circuits at the PCM connector:

  • Use the positive test lead of the DVOM to probe the appropriate signal circuit at the PCM
  • The negative test lead should again be grounded
  • If there is an acceptable sensor signal at the sensor connector that is not at the PCM connector, you have an open circuit between the PCM and the sensor being tested.

    Suspect PCM failure or a programing error only after exhausting all other possibilities.

  • Use the vehicle information source to garner technical service bulletins (TSB) which match the vehicle, symptoms, and stored codes in question. A code which applies to your circumstances may help to develop an accurate diagnosis
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