C 230 (203.040) L4-1.8L SC (271.948) (2005)
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Component Identification
The signal voltage hat has a steep voltage jump (=1) at the transition from a rich to a lean mixture ( lambda=1). This property is utilized for the lambda
closed-loop control.
Function of the discreet oxygen sensor (schematic)
Component Identification
The sensor ceramic is conductive for oxygen ions from approx. 300 °C. If the oxygen concentration on both sides of the sensor ceramic differs, a voltage
is produced at the boundary surfaces as a result of the particular properties of the sensor ceramic (Nernst voltage). This voltage (signal voltage) is the
measure for the residual oxygen content in the exhaust.
The electronics in the ME control unit give a so-called sensor back voltage of about ca. 450 mV at the oxygen sensor.
When the oxygen sensor the internal resistance of the sensor is so high that the sensor voltage is initially equal to the back voltage irrespective of the
mixture composition (lambda).
The sensor back voltage at the ME control unit can be measured to the sensor ground if the oxygen sensor is disconnected.
Sensor heater for a discrete oxygen sensor
The oxygen sensor is heated in order to bring the ceramic probe body rapidly up to operating temperature. The sensor heater is actuated by the ME
control unit through a ground signal. The heater current in the cold state is increased approximately by the factor 4.
The sensor heater is switched off at coolant temperatures below approx. 20 °C and at high engine speeds in order to avoid overheating (thermo shock).
