P0325 on a 2017 Toyota Camry
Knock Sensor 1 Circuit Fault
What does P0325 mean on a 2017 Toyota Camry?
P0325 is set when the engine control module does not receive a valid signal from the Bank 1 knock sensor — or the only knock sensor on engines that use one. The knock sensor is a piezoelectric vibration sensor that listens for the characteristic frequency of pre-ignition (detonation) so the ECM can pull timing to protect the engine. With no usable knock signal, the ECM defaults to conservative timing maps, which reduces power and fuel economy.
Symptoms on a 2017 Toyota Camry
- Check Engine Light is illuminated
- Reduced power and slower throttle response
- Slight reduction in fuel economy
- Engine may run cooler than normal under load
- Possible audible engine ping or knock under hard acceleration
- No drivability issue in normal driving
Likely causes on a 2017 Toyota Camry
- Failed knock sensor element Most commonEstimated repair: $150– $600
Most common at 100k+ miles. Some engines bury the sensor under the intake.
- Damaged or corroded knock sensor wiring or connector CommonEstimated repair: $80– $350
- Loose knock sensor mounting (sensor must be torqued correctly to "hear") CommonEstimated repair: $20– $100
- Rodent damage to knock sensor harness (parked vehicles) OccasionalEstimated repair: $80– $350
- Failed knock sensor sub-harness on GM L83/L86 truck V8s OccasionalEstimated repair: $200– $600
Specific to GM 5.3 / 6.2 truck V8s — well-documented sub-harness failure.
- Internal engine damage producing noise outside the knock sensor band RareEstimated repair: $2,000– $6,000
How to diagnose this on a 2017 Toyota Camry
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Locate the knock sensor — often under the intake manifold
On many engines (notably GM V6 + V8 truck engines, Toyota 2GR-FE, and most modern Hondas) the knock sensor sits in the engine valley under the intake manifold. Knowing this before starting saves a wasted hour of looking. Consult the service manual.
Tools: Vehicle-specific service information
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Test knock sensor resistance
Unplug the sensor and measure resistance with a multimeter. Most knock sensors read approximately 90 kΩ to 2.5 MΩ depending on style. Infinite resistance (open) or near-zero (short) confirms a failed sensor.
Tools: Multimeter, Service spec sheet
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Inspect the wiring and connector
Knock sensor harnesses run close to hot exhaust components and are common chafing victims. Inspect every inch of the harness from the sensor to the PCM connector. Repair any visible damage before replacing the sensor.
Tools: Inspection mirror, Flashlight, Wire repair supplies
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Verify torque specification on the existing sensor
A knock sensor mounted with the wrong torque cannot transmit vibration efficiently. Spec is typically 15–25 ft-lb. Use a torque wrench, not "tight by feel." Over-torque can crack the housing; under-torque produces false knock-sensor codes.
Tools: Torque wrench, Service spec sheet
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Check for GM-specific sub-harness failure
On GM L83 (5.3 V8) and L86 (6.2 V8) truck engines, the knock sensor sub-harness running under the intake manifold is a documented failure point — the harness chafes and shorts. Replacement requires intake manifold removal. The sub-harness itself is inexpensive but the labor is significant.
Tools: Intake manifold gasket, Common hand tools
Known Technical Service Bulletins for the 2015-2019 Toyota Camry
Manufacturers publish Technical Service Bulletins (TSBs) when a known issue affects a specific vehicle. These bulletins come from the NHTSA database for your Toyota Camry.
- ENGINE Feb 12, 2026
This bulletin includes basic procedures for performing a rescue charge on Ni-MH high voltage (HV) batteries. This bulletin should be used in conjunction with the applicable model and model year Repair Manual while performing a rescue charge. The GRX-5100 should be used wherever the Repair Manual references the Toyota Hybrid System (THS) charger.
NHTSA #11029893 - ENGINE Feb 12, 2026
OBSOLETE NOTICE February 13, 2026: This bulletin is now obsolete. Please see T-SB-0009-26.
NHTSA #11029892 - UNKNOWN OR OTHER Jan 6, 2026
Some 2005 – 2026 Toyota vehicles that have undergone water intrusion may exhibit a condition in which a musty odor is present. Follow the procedures in this bulletin to remediate the odor and address this condition. The purpose of this Service Bulletin is to provide general guidelines and procedures for odor remediation. This Service Bulletin provides a guide on how to prepare and treat the interior of the vehicle for odor remediation. Refer to the applicable model and model year Repair Manual and the EPA (Environmental Protection Agency) website for the most up-to-date safety and precautionary guidelines.
NHTSA #11028712 - ELECTRICAL SYSTEM Jun 12, 2025
The air conditioning dye injection tool kit has been developed to aid in identifying the location of air conditioning refrigerant leaks. The procedures outlined in this Service Bulletin aid in locating, inspecting, and repairing refrigerant leaks.
NHTSA #11020657 - STRUCTURE Dec 5, 2024
To prevent brake rotor rust from forming during transportation and storage, wheel film will be used instead of a cardboard type of anti-rust cover. The purpose of the wheel film is to shield the disc brake rotor from weather elements and initial rust before the vehicle is delivered to the customer. Consequently, the film should remain on the wheel for as long as possible.
NHTSA #11012743 - STRUCTURE Dec 5, 2024
The condition known as acid rain is caused by airborne chemicals or particles in the atmosphere, which mix with rainwater, nighttime dew, or high humidity to form acidic compounds. If these contaminants settle and remain on a painted vehicle surface, especially the horizonal areas of the hood, roof, and decklid, significant damage can occur. This damage is the result of actual etching of the paint and appears as pitting or water spots. As acid rain droplets on the vehicle surface evaporate, the concentration strength of the acid increases, causing deeper and more rapid damage. This evaporation and corrosive action also occur more rapidly on dark colored cars as direct sun heat increases. It is the dealer’s responsibility to protect and maintain the quality of the vehicle’s paint finish after receipt at the dealership prior to the first sale. In areas known for high frequency and/or concentration of acid rain, frequent vehicle washing during high heat or humidity periods will minimize the potential for paint damage caused by acid rain. It is further recommended that either reverse osmosis or deionized water be used to prevent water spotting.
NHTSA #11012744
+14 more TSBs available in MECH AI's TSB explorer for this vehicle.
Common fixes
- Replace the knock sensor with an OEM part
- Replace the knock sensor sub-harness (GM L83/L86)
- Repair damaged wiring to the knock sensor
- Re-torque the sensor to OEM specification
About the 2015-2019 Toyota Camry
The 2015-2019 Toyota Camry was commonly sold with the following powertrains: 2.5L I4, 3.5L V6, 2.5L Hybrid I4. Common trims include LE, SE, XLE, XSE.
Why P0325 is a “common” code on GM V8 trucks
GM L83 (5.3L) and L86 (6.2L) Gen V V8 engines — used in 2014+ Silverado, Sierra, Tahoe, Yukon, Suburban, and Escalade — have a well-documented knock sensor sub-harness failure. The harness chafes against the intake valley pan and eventually shorts. P0325 + P0330 setting together on these engines is so common that aftermarket “extended” sub-harnesses are sold specifically to relocate the wiring away from the chafe point.
If you have one of these vehicles, expect this repair around 80–130k miles. Plan it with the next intake manifold service.
What the ECM does without a working knock sensor
The engine still runs — but conservatively. The ECM uses “open-loop” ignition timing maps that pull 3–6 degrees of advance out of every cell, sacrificing power and fuel economy to ensure no detonation. Expect 1–2 MPG lower and noticeably slower throttle response.
Knock sensor diagnostics with a scope
The knock sensor is essentially a microphone. Tapping the cylinder block near the sensor with a screwdriver while watching the scan-tool knock count PID should produce hits. No response to tapping confirms a dead sensor or open wiring even if the multimeter resistance looks correct.