Adaptive Damper Circuit Front Right
2017-2017 Chrysler 300 3.6L V6 Pentastar
The 2017 Chrysler 300 is equipped with a 3.6L V6 engine. Below you'll find detailed c0331 diagnostic code information including labor time estimates, cost ranges, and technician notes specific to this engine configuration.
Description
Malfunction in the front right adaptive damper.
Symptoms
- Ride quality uneven
- Suspension warning
- Front right corner feels different
- Handling asymmetry
Common Causes
- Damper solenoid failure
- Fluid leak
- Wiring damage
- Module output fault
Diagnostic Steps
- Test solenoid resistance
- Command damper mode change
- Inspect for leaks
- Check wiring
Repair Notes
Replace front right adaptive damper assembly.
Related Codes
Other Chassis Codes
- C0021LF Wheel Speed Sensor Range/Performance
- C0022RF Wheel Speed Sensor Range/Performance
- C0023LR Wheel Speed Sensor Range/Performance
- C0024RR Wheel Speed Sensor Range/Performance
- C0025LF Wheel Speed Sensor Circuit Intermittent
- C0026RF Wheel Speed Sensor Circuit Intermittent
- C0027LR Wheel Speed Sensor Circuit Intermittent
- C0028RR Wheel Speed Sensor Circuit Intermittent
- C0035Left Front Wheel Speed Sensor Circuit
- C0036Left Front Wheel Speed Signal Erratic
C0331 on Other Vehicles
Chrysler 200
2011-2011 2.4L I4 Tigershark
Chrysler 200
2011-2011 3.6L V6 Pentastar
Chrysler 200
2012-2012 2.4L I4 Tigershark
Chrysler 200
2012-2012 3.6L V6 Pentastar
Chrysler 200
2013-2013 2.4L I4 Tigershark
Chrysler 200
2013-2013 3.6L V6 Pentastar
Chrysler 200
2014-2014 2.4L I4 Tigershark
Chrysler 200
2014-2014 3.6L V6 Pentastar
Common Questions
What does code C0331 mean on a 2017-2017 Chrysler 300?
C0331 stands for "Adaptive Damper Circuit Front Right". Malfunction in the front right adaptive damper.
What are the symptoms of C0331 on a Chrysler 300?
Common symptoms of C0331 include: Ride quality uneven, Suspension warning, Front right corner feels different, Handling asymmetry.
What causes C0331 on a 2017-2017 Chrysler 300?
Common causes of C0331 include: Damper solenoid failure, Fluid leak, Wiring damage, Module output fault.
Last updated: March 2026