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P061B Internal Control Module Torque Calculation Performance (obd-codes.com)
P061B Internal Control Module Torque Calculation Performance OBD-II Trouble Code Technical Description Article by Stephen Darby ASE Certified Technician
Internal Control Module Torque Calculation Performance What does that mean?
This generic powertrain diagnostic trouble code (DTC) typically applies to many OBD-II vehicles.
That may include but is not limited to vehicles from Mazda, Ford, Mercedes Benz, Chevy, etc.
When a code P061B is stored, it means that the powertrain control module (PCM) has detected an internal performance error in the engine torque monitoring system.
Other controllers may also detect an internal PCM performance error (with the engine torque monitoring system) and contribute to a P061B being stored.
Internal control module monitoring processors are responsible for various controller self-test duties and overall internal control module accountability. Engine torque calculation system input and output signals are subject to self-test and are monitored constantly by the PCM and other related controllers. The transmission control module (TCM), traction control module (TCSM), and other controllers are subject to interaction with the engine torque monitoring system.
Engine torque is monitored (by the PCM and other controllers) using input signals from the mass air flow (MAF) sensor and the accelerator pedal position (APP) sensor (also called the pedal position sensor).
Desired or approximate required engine torque is calculated using the APP sensor and actual engine torque is calculated using data from the MAF sensor. Whenever the ignition is on and the PCM is energized, internal engine torque monitoring self-tests are initiated.
In addition to running internal controller self-tests, the controller area network (CAN) also compares signals from each individual module to ensure that all controllers are functioning properly. These tests are performed simultaneously. If the PCM detects a discrepancy in desired torque and actual torque (more than 50-Newton meters for more than 1-second) with the engine RPM above 5,000 RPM and volumetric efficiency greater than 16-percent, a code P061B will be stored and a malfunction indicator lamp (MIL) may be illuminated.
Multiple failure cycles may be necessary for MIL illumination, depending upon the perceived severity of the malfunction.
Photo of a PCM with the cover removed:
What is the severity of this DTC?
Internal control module processor codes should be categorized as severe.
A stored code P061B could result in serious drivability and fuel efficiency issues, suddenly and without warning.
What are some of the symptoms of the code?
Symptoms of a P061B trouble code may include:
Hesitation or stumble upon acceleration
Acceleration becomes unresponsive
Diminished fuel efficiency
MAF or throttle actuator codes are also present
What are some of the common causes of the code?
Causes for this code may include:
Bad throttle valve control servo
Open or shorted circuit in the throttle valve control servo circuit
Clogged air filter element
Debris on the MAF sensor hot wire
Defective APP/MAF sensor
Corroded electrical MAF sensor connector
Defective PCM or PCM programming error
Open or shorted circuit or connectors in the CAN harness
Insufficient control module ground
Open or shorted circuits between the APP/MAF sensor and the PCM
What are some P061B troubleshooting steps?
Even to the most experienced and well-equipped professional technician, diagnosing a code P061B can prove to be quite a challenge. There is also the issue of reprogramming. Without the necessary reprogramming equipment, it will be impossible to replace a defective controller and complete a successful repair.
If there are ECM/PCM power supply codes present, they will obviously need to be rectified before attempting to diagnose a P061B.
Also, if there are MAF/APP sensor or throttle position sensor (TPS) codes present, these must be diagnosed and repaired first. Follow manufacturer's recommendations for testing MAF, APP, and TPS sensors. The oscilloscope can be particularly helpful when testing APP and TPS sensors. Replace failed components as required.
There are several preliminary tests that can be performed prior to declaring an individual controller defective. A diagnostic scanner, a digital volt/ohmmeter (DVOM), and a source of reliable vehicle information will be required. An oscilloscope may also prove to be helpful. Connect the scanner to the vehicle diagnostic port and retrieve all stored codes and freeze frame data.
You will want to write this information down, just in case the code proves to be an intermittent one. After recording all pertinent information, clear the codes and test drive the vehicle until the code is reset or the PCM enters readiness mode. If the PCM enters readiness mode, the code is intermittent and will be more difficult to diagnose. The condition, which caused the P061B to be stored, may even need to worsen before a diagnosis can be made. If the code is reset, continue with this short list of preliminary tests. When attempting to diagnose a P061B, information may be your greatest tool. Search you vehicle information source for technical service bulletins (TSB) that parallel the code stored, vehicle (year, make, model, and engine), and symptoms exhibited. If you find the right TSB, it may yield diagnostic information that will aid you in a major way. Use your source of vehicle information to obtain connector face views, connector pin-out charts, component locators, wiring diagrams, and diagnostic flow charts related to the code and vehicle in question.
Use the DVOM to test controller power supply fuses and relays.
Test and replace blown fuses as required.
Fuses should be tested with the circuit loaded. If all fuses and relays appear to be functioning as intended, a visual inspection of controller related wiring and harnesses is in order.
You will also want to check chassis and engine ground junctions. Use your vehicle information source to obtain ground locations for related circuits. Use the DVOM to test ground integrity.
Visually inspect system controllers for signs of water, heat, or collision damage. Any controller that is damaged, especially by water, should be considered defective. If controller power and ground circuits are intact, suspect a defective controller or a controller programming error. Controller replacement will require reprogramming.
In some cases, you may purchase reprogrammed controllers through aftermarket sources. Other vehicles/controllers will require on-board reprogramming that may only be done through a dealership or other qualified source. Unlike most other codes, the P061B is likely caused by a defective controller or a controller programming error Test system ground integrity by connecting the negative test lead of the DVOM to ground and the positive test lead to battery voltage
Read more at:
https://www.obd-codes.com/p061b
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