2003 GM Tracker P0102 Fault: MAF Sensor Issue with Black Smoke and No Signal

Replacing an ECM/PCM is generally a last resort and should only be done after thorough diagnosis. Let's clarify a few key points: 1) Is the Check Engine Light (CEL) on continuously, even after clearing codes? 2) Do you have access to a diagnostic scanner capable of reading all PIDs and testing individual components? 3) What evidence leads you to believe the MAF sensor is faulty? 4) Have you tested fuel pressure using a gauge? This could be critical in diagnosing misfires or poor combustion.

Yes, the Check Engine Light remains on constantly even after clearing codes. I do have a full-function diagnostic scanner that can read all PIDs and test components. When I pull data from the system, most parameters show normal values — except for MAF, which reads zero. The connector shows power when the engine is running, but no ground or signal voltage. I’ve confirmed the connection integrity; however, there’s still no signal output. Any suggestions on next steps?

Fuel pressure and leakdown rate are important to check — these can point to fuel delivery issues that may mimic MAF problems. You mentioned having power but no ground or signal from the MAF. Let’s confirm: is there a complete absence of voltage on the sensor ground wire? A common issue in this setup is poor grounding, especially when shared grounds are involved (e.g., EGR, IAC, injectors). The scanner shows no MAF signal — could this be due to an open circuit or broken ground path? Testing the integrity of the ground and signal circuits to the PCM should be a priority.

No — the MAF sensor shows zero signal. The yellow/grey ground wire runs directly from the sensor to the PCM with no visible splice in between. It appears worn, and I cannot locate the expected grounding junction that should connect EGR, IAC, and injectors. This may explain why the ground is unstable or missing entirely. Thanks for your help, Kev2.

There's a splice labeled S115 in the main engine harness — this is a three-wire MAF sensor with power (blue/b), ground (grey/yellow), and signal (purple/white). To test: - Use a multimeter: connect the negative probe to battery negative. - Test for voltage by touching the positive probe to the battery terminal — should read full battery voltage. - Backprobe each terminal of the MAF connector using T-pins. Keep the meter negative connected to battery negative. - Terminal 3 (power): should show near battery voltage when key is on. - Terminal 2 (ground, grey/yellow): should show less than 0.1 volts under idle conditions with throttle closed. - Terminal 1 (signal, purple/white): should read between 1.5–1.8 volts at idle with throttle closed. Does your scan tool display grams per second (g/s)? At idle and throttle closed, it should show values between 2.5–4.6 g/s. Have you tried disconnecting the MAF sensor to see if the vehicle runs better? The ground wire is shared by multiple sensors — disconnecting the connector and probing the signal wire may reveal a bias voltage (should be around 5 volts).

Yes, Joe — my scanner does show grams per second. I’ve already tested all three wires with the multimeter: only the power wire shows consistent voltage. The ground and signal wires read zero regardless of whether the key is on or at idle. When I test the ground wire from the IAC sensor, I see intermittent voltage — sometimes present, sometimes not. This inconsistency makes me suspect a shared grounding issue or poor connection in the harness. Your guidance has been incredibly helpful. Any additional diagnostics you recommend would be much appreciated.

With the MAF sensor disconnected, how does the vehicle perform? Does black smoke still come from the tailpipe? What are your short-term (STFT) and long-term fuel trims at idle and at 1500/2500 RPM? What is the ground-to-ground voltage drop across the MAF sensor’s ground wire? These readings will help determine whether the issue lies in signal generation or grounding.

Also, on the scan tool — key PIDs to check: STFT and LTFT. Are all other sensor values (e.g., intake air temp, coolant temperature, MAP) within normal ranges? Any additional DTCs present? Ensure that engine cold start conditions match (koeo), and verify that intake air temperature and coolant temperature are accurate. Is the voltage test being performed using the battery negative terminal as reference? This is critical for consistent readings.