O2 sensors function - GF07.04-P-4103-01F

Fig 1: Identifying Sensor Ceramic, Electrodes At Boundary Surfaces And Exhaust Pipe

Arrows black: exhaust gases white: outside air

The sensor ceramic is conductive for oxygen ions from approx.

300 °C. If the oxygen share varies greatly on both sides of the ceramic probe body, a voltage (Nernst concentration cell) is generated on the friction planes by means of the particular properties of the ceramic probe body on the friction plane. This is a measure for the residual oxygen content in the exhaust.

Curve of O ₂ sensor voltage, schematic

Fig 2: O2 Sensor Voltage Graph (1 Of 2)

Faults at the O₂ sensor can be detected by means of the O₂ sensor 2 signal.

Defined limit values must be maintained for the O₂ sensor voltage, the duration of the period and for the sensor status change.

The O₂ sensor signal has a steep voltage jump (at λ=1) at the transition from a rich (A) to a lean mixture (B). This property is utilized for the lambda closed-loop control.

Fig 3: O2 Sensor Voltage Graph (2 Of 2)

ME-SFI 1.0

The ground for the sensor signal at the ME 1.0 control unit is raised to approx. +0.71 V compared to the general vehicle ground. In the event of a short circuit of the sensor signal to ground, the ME control unit thus switches the lambda closed-loop control to open-loop mode (average λ value). This prevents a high fuel consumption.

ME 2.0, ME 2.1, ME 2.7, ME 2.8

with engine control unit for EURO 3/4

The ground cable for the sensor signal for each O₂ sensor is routed up to the ME control unit.

The ground for the sensor signal is increased to approx. +0.268 V compared to the general vehicle ground e.g. at the ME 2.1 control unit.

In the event of a short circuit of the sensor signal to ground, the ME control unit thus switches the lambda control to open-loop mode (average a value). This prevents a high fuel consumption.

The analysis circuit for the O₂ sensor signal outputs a so-called sensor back voltage of approx. 0.470 V. If the O₂ sensor is cold, the sensor internal resistance is so high that the O₂ sensor voltage is initially equal to the backvoltage irrespective of the mixture composition.

The backvoltage at the ME control unit can be measured to the sensor ground if the O₂ sensor is disconnected.