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GMC Chevy P0332 P0327 Knock Sensor Circuit Low Input “TSB”

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GMC Chevy P0332 P0327 Knock Sensor Circuit Low Input

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Troubleshooting Knock Sensor Codes P0332 and P0327 on a Chevrolet Truck

If you’re working on a Chevrolet truck and you’ve encountered diagnostic trouble codes P0332 and P0327, there’s a good chance you’re dealing with a problem related to the knock sensors. These sensors are responsible for detecting engine knock or detonation and sending signals to the engine control module (ECM) so that the ignition timing can be adjusted accordingly. In this article, we’ll explain what can cause these codes to set, what the repair entails, and what the service bulletin is recommending to prevent future failures of the knock sensors.

What Causes Knock Sensor Codes P0332 and P0327 to Set?

There are several reasons why the knock sensors on a Chevrolet truck may fail, but the most common cause is a problem with the wiring or connections. Over time, the wires that connect the knock sensors to the ECM can become corroded or damaged, which can cause the resistance in the circuit to change. This can cause the ECM to receive incorrect signals from the sensors, resulting in the engine running poorly or setting diagnostic trouble codes.

Another common cause of knock sensor failure is a problem with the sensors themselves. The sensors can become damaged or worn out over time, which can cause them to lose their ability to detect engine knock. This can also result in the ECM receiving incorrect signals and setting diagnostic trouble codes.

What Does the Repair Entail?

The repair for knock sensor codes P0332 and P0327 will vary depending on the specific problem you’re dealing with. However, in most cases, the first step will be to disconnect the blue powertrain control module (PCM) connector and check the resistance value on the light blue wire at pin 11 for sensor two and the dark blue wire at pin 51. Both should be on the blue PCM connector, and the value should be between 93K and 107K ohms.

If the resistance is low, the next step will be to check the circuit for a shorted wire or a shorted sensor. This typically involves checking the wires for damage or corrosion and testing the sensors for continuity.

If the resistance is high, the next step will be to check for a corroded wire or a poor connection at the knock sensor. This will typically involve checking the wires for damage or corrosion and inspecting the connections for signs of wear or damage.

The next step is to use an AC voltmeter and check the Hz on each wire listed above while tapping on the engine block. You should be careful not to tap on any plastic engine components. While tapping on the block, the frequency on the meter should go over 125 hz.

Finally, if the problem is a faulty sensor or damaged wiring, the repair will typically involve replacing the knock sensors and/or repairing the damaged wiring.

What Does the Service Bulletin Recommend to Prevent Future Failures?

The service bulletin for knock sensor codes P0332 and P0327 recommends that technicians use a specifically designed harness with the knock sensors. This harness is designed to provide a secure and reliable connection between the sensors and the ECM, which can help to prevent problems with resistance and continuity.

In addition to using the correct harness, the service bulletin recommends that technicians use dielectric grease on the connectors to help prevent corrosion and damage. This grease can help to protect the connectors from the elements and prevent damage from moisture, dust, and other contaminants.

Average Reported Mileage: 338036
Tests/Procedures: 1. Disconnect the Blue Powertrain Control Module (PCM) connector and check the resistance value on the Light Blue wire at pin 11 for sensor two and the Dark Blue wire at pin 51. Both of these should be on the Blue PCM connector. The value should be 93K to 107K ohms.

2. If resistance is low, check the circuit for shorted wire or shorted sensor.

3. If resistance is high, check for corroded wire or poor connection at the knock sensor.

4. Use an AC voltmeter and check the Hz on each wire listed above while tapping on the engine block.

5. While tapping on the block, the frequency on the meter should go over 125 hz.

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How to Diagnose a Bad Hydraulic Lifter Chevy GMC Trucks

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How to Diagnose a Bad Hydraulic Lifter

In this video, I will show you how to diagnose a bad lifter or a hydraulic lifter noise or tick on Chevy and GMC trucks with a 5.3l, 6.0l, or 6.2l.

First I will identify what cylinder is affected by using the factory GM scan tool. Once we know that we will be pulling the valve cover of to check the lifter on this Chevy truck.

How to Fix a U1000 Code In Your Car

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U1000 Fix

In this video, I will show you how to fix a u1000 code in your car. In many instances, if you have communication errors in your car there’s a good chance that it will not start and the scan tool will not communicate with the modules, therefore, making it very hard to diagnose.

In this video, I will show you ways around that and how to find out which model is are not communicating. I will be using the factory GM scan tool in this video. #U1000 #FlatRateMechanic #HowTo

The class 2 communication Data Network is very sensitive and anytime you have a module failure on that circuit you have to run the possibility of Bringing Down the whole network. Which in turn can cause many problems for you as a car owner and an auto repair technician. Communication error codes can be very tricky to diagnose sometimes.

Thanks for watching hope this video was helpful, Be glad to answer any questions or comments please leave them Below in the video description and be sure to subscribe to my channel this video was helpful.

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