2004 Chrysler Sebring 2.7L V6 OBDII Error P0137: O2 Sensor Bank 1 Sensor 2 Low Voltage - Mode $06 On-Board Monitoring Fail
My 2004 Chrysler Sebring convertible (2.7L V6, automatic transmission, VIN R) has a persistent check engine light with fault code P0137: 'O2 Sensor Bank 1 Sensor 2 Circuit Low Voltage'. I initially replaced the upstream O2 sensor (Bank 1 Sensor 1), as it was showing 0V readings. However, after replacement, the MIL light returned and the same P0137 error persists. The OBDII report shows a failure in Mode $06 - On-Board Monitoring: Component ID $00, Test ID $72 (Manufacturer Defined), with value 0 instead of expected minimum 40. This indicates a monitoring failure for an unknown component or test. I'm unsure what this specific TID ($72) represents and whether it relates to the O2 sensor or another system. I've confirmed that Bank 1 Sensor 2 is downstream (post-catalyst), as per standard OBDII nomenclature, but I'm still unclear on how to interpret the voltage readings from both sensors. The live data shows approximately 1.27V for both Bank 1 and Bank 2 Sensor 2 — below the expected range for a healthy downstream sensor. I've replaced both upstream and downstream O2 sensors with new units, but the issue remains. I'm seeking clarification on: - What Test ID $72 specifically measures in Mode $06 - How to interpret 'Bank 1 vs Bank 2' and 'Sensor 1 vs Sensor 2' - Whether a wiring fault or ground short could be causing low voltage readings - If the failure is due to sensor malfunction, signal circuit issues, or a PCM problem Any insight into this specific OBDII monitoring failure on a 2004 Sebring would be greatly appreciated.
This is a 2.7L V6 engine, not Mitsubishi — the VIN R indicates Chrysler. P0137 refers to Bank 1 Sensor 2 (downstream of catalytic converter). The failure in Mode $06 suggests an incomplete or failed on-board monitoring test for this component. Check if there's a pending code — it may be related to EVAP system testing. Live data from all O2 sensors is essential. Look at voltage readings across both banks and sensors to determine if the issue is sensor-related or wiring-based.