Oxygen Sensor Technologies
With its NTK oxygen sensors launched in the 1980s, Niterra was among the pioneers in this field. Since then, the reduction of harmful emissions has made significant advances, not least thanks to the development of innovative technologies and extensive research.
Today, highly efficient ceramic heaters in lambda sensors ensure, for example, that the sensors start measuring sooner and respond faster. To achieve more accurate measurements in order to meet the ever more stringent Euro standards, huge efforts are being made in the continuous improvement of the ceramic components. In addition, a variety of sensor types have been developed catering to specific applications. They include broadband sensors and lambda sensors whose electric resistance changes depending on the air-fuel ratio.
Oxygen Sensor Requirements
As proper conversion of undesirable gases can only occur at a set air-fuel ratio, an oxygen sensor has the task of precisely measuring the ratio present in exhaust gases and to inform the vehicle's ECU (Electronic Control Unit) in order to adjust the air-fuel ratio. This entire process not only helps effectively reduce harmful emissions, but also optimizes fuel consumption and ensures a long service life of the catalytic converter. Modern cars are normally equipped with at least two lambda sensors, namely a front or regulating sensor installed in front of the catalytic converter and a rear or diagnostic sensor mounted after the catalytic converter.