Express 1 Ton Van V8-5.7L VIN R (1999)
Oxygen Sensor: Description and Operation
Heated Oxygen Sensors (HO2S)
Due to emissions regulations, the vehicle must enter closed loop as soon as possible. By heating the individual oxygen sensors, they reach their activation
temperature sooner than those without heaters. Once an oxygen sensor reaches the activation temperature, the sensor is able to monitor the oxygen
content of the exhaust more accurately. The vehicle operates in closed loop status once activation temperature is reached. Thus, the VCMs fuel trim
corrections reduce the vehicle's total emissions. Vehicles produce less emissions when they are in closed loop than in open loop.
The heated oxygen sensors are mounted in the exhaust system where they can monitor the oxygen content of the exhaust gas stream. The oxygen present
in the exhaust gas reacts with the sensor to produce a voltage output. This voltage should constantly fluctuate from approximately 100 mV (high oxygen
content - lean mixture) to 900 mV (low oxygen content - rich mixture).
The VCM calculates what fuel mixture command to give to the injectors based upon voltage output of the oxygen sensor, (lean mixture - low HO2S
voltage = rich command, rich mixture - high HO2S voltage = lean command). The heated oxygen sensor voltage can be monitored with a scan tool.
Depending upon the configuration of the vehicle's exhaust system, the number of oxygen sensors may vary. The pre-catalyst (HO2S Bank 1 Sensor 1 and
Bank 2 Sensor 1) oxygen sensors are positioned between the exhaust manifold and catalytic converter. The post-catalyst (HO2S Bank 1 Sensor 2, Bank 1
Sensor 3, and Bank 2 Sensor 2) oxygen sensors are positioned between the catalytic converter and the muffler.
When the VCM detects an HO2S signal circuit that is low, the VCM will set one of the following DTCs:
^
DTC P0131 Bank 1 Sensor 1 HO2S
^
DTC P0137 Bank 1 Sensor 2 HO2S
^
DTC P0143 Bank 1 Sensor 3 HO2S
^
DTC P0151 Bank 2 Sensor 1 HO2S
^
DTC P0157 Bank 2 Sensor 2 HO2S
When the VCM detects an HO2S signal circuit that is high, the VCM will set one of the following DTCs:
^
DTC P0132 Bank 1 Sensor 1 HO2S
^
DTC P0138 Bank 1 Sensor 2 HO2S
^
DTC P0144 Bank 1 Sensor 3 HO2S
^
DTC P0152 Bank 2 Sensor 1 HO2S
^
DTC P0158 Bank 2 Sensor 2 HO2S
The VCM has the ability to monitor HO2S switching, transition time, and incorrect voltage ratio problems. When the VCM detects sluggish HO2S
activity, the VCM will set one of the following DTCs:
^
DTC P0133 Bank 1 Sensor 1 HO2S
^
DTC P0153 Bank 1 Sensor 2 HO2S
When the VCM detects no HO2S activity, the VCM will set one of the following DTCs:
^
DTC P0134 Bank 1 Sensor 1 HO2S
^
DTC P0140 Bank 1 Sensor 2 HO2S
^
DTC P0146 Bank 1 Sensor 3 HO2S
^
DTC P0154 Bank 2 Sensor 1 HO2S
^
DTC P0160 Bank 2 Sensor 2 HO2S
A fault in the heated oxygen sensor heater element, ignition voltage, or ground will result in an increase in time to closed loop fuel control. This may
cause increased emissions, especially during start-up. When the VCM detects a malfunction in the HO2S heater circuits, one of the following DTCs will
set:
^
DTC P0135 Bank 1 Sensor 1 HO2S heater
^
DTC P0141 Bank 1 Sensor 2 HO2S heater
^
DTC P0147 Bank 1 Sensor 3 HO2S heater
^
DTC P0155 Bank 2 Sensor 1 HO2S heater
^
DTC P0161 Bank 2 Sensor 2 HO2S heater
