P033C Knock Sensor 4 Circuit Low (Bank 2)
Description and meaning of DTC p033c
This diagnostic trouble code (DTC) is a generic powertrain code, which means that it applies to OBD-II equipped vehicles (Dodge, Ram, Ford, GMC, Chevrolet, VW, Toyota, etc. ). Although generic, the specific repair steps may vary depending on make/model. A P033C trouble code means that the powertrain control module (PCM) has detected a lower than expected sensor reading from the knock sensor #4 on bank 2. Bank 2 is always the bank of engine cylinders that does not contain the #1 cylinder. Refer to a vehicle specific repair source to determine which sensor is knock sensor #4. Typically threaded directly into the engine block, the knock sensor is a piezoelectric sensor. The location of the sensors in a multi-sensor system may vary between manufacturers but most are in the sides of the block (between water jacket freeze plugs). Knock sensors that are in the sides of the engine block are often threaded directly into engine coolant passages. When the engine is warm and the engine cooling system is under pressure, removal of these sensors could result in severe burns from hot coolant. Before removing a knock sensor, allow the engine to cool and always dispose of coolant properly. A piezoelectric sensing crystal is at the heart of the knock sensor. When shaken or vibrated, the piezoelectric crystal produces a small amount of voltage. Since the knock sensor control circuit is normally a one-wire ground circuit, the voltage generated by the vibration is recognized by the PCM as engine noise or vibration. The severity of the vibration encountered by the piezoelectric crystal (inside the knock sensor) determines the level of voltage produced in the circuit. If the PCM detects a degree of knock sensor voltage indicative of a spark detonation it may retard ignition timing and no knock sensor control code may be stored. If the PCM detects a level of knock sensor voltage that indicates a more severe engine noise (such as a connecting rod contacting the inside of the engine block), it may discontinue fuel delivery and ignition spark to the affected cylinder and a knock sensor code will be stored.
p033c diagnostic trouble code symptoms
A stored code P033C should be considered severe because it could indicate internal engine failure. Symptoms of this code may include:Hesitation when acceleratingBelow normal engine performanceAbnormal noises from the engine areaIncreased fuel consumption
DTC p033c - possible causes
Potential causes for this code to set are:Ignition misfireFaulty knock sensorInternal engine problemContaminated or subpar fuel usedDefective knock sensor control wiring and/or connectorsBad PCM or a PCM programing error
How to fix OBD-II diagnostic trouble code p033c
To diagnose a code P033C, a diagnostic scanner, a digital volt/ohmmeter (DVOM), and a reliable vehicle specific repair resource will be necessary. If the engine sounds like it is knocking, or excessively noisy, address that issue before attempting a diagnosis for any knock sensor codes. Check for technical service bulletins (TSBs) that may apply to your year/make/model. If the issue is a known issue there may exist a bulletin to help with diagnosis and repair specific to your exact problem. That can save you time and money. Start with a visual inspection of all system related wiring harnesses and connectors. Look for corroded, burnt, or otherwise damaged wiring and connectors that may create an open or shorted circuit. Knock sensors are often in the lower part of the engine block. This makes them susceptible to damage when heavy parts (like starters and engine mounts) are replaced. System connectors, wiring, and fragile knock sensors are frequently broken during repairs in the vicinity. Connect the OBD-II scanner to the vehicle diagnostic connector and retrieve all stored diagnostic codes and freeze frame data. Write this information down for use in the diagnostic process. Clear the codes and test drive the vehicle to see if any are reset. If the P033C is reset, start the engine and use the scanner to observe knock sensor data. If the scanner indicates that knock sensor voltage is not within manufacturer’s specifications, use the DVOM to test live data at the knock sensor connector. If the signal at the connector is within specs, suspect a wiring issue between the sensor and the PCM. If voltage at the knock sensor connector is not within specifications, suspect a defective knock sensor. If replacement of the sensor is the next step, be sure to ensure you don't come in contact with hot coolant. Wait for the engine to cool before removing the old sensor.