Oxygen sensor classificationOxygen sensors can be classified into various types based on their primary components and working principles, including but not limited to:
Zirconia Oxygen Sensor: This is currently the most widely used oxygen sensor, with zirconia (ZrO₂) as its main component. It converts the concentration difference between oxygen ions and oxygen molecules into a voltage signal, enabling control over the air-fuel mixture ratio in the engine. It operates within a broad temperature range, making it suitable for most automobiles.
Titania Oxygen Sensor: This type of oxygen sensor primarily comprises titania (TiO₂), and its working principle is similar to that of the zirconia sensor. However, it boasts an even wider operating temperature range, accommodating both high and low-temperature environments. Compared to the zirconia sensor, it responds more quickly, enabling more accurate monitoring of oxygen content.
Air-Fuel Ratio Sensor (AFR Sensor): The AFR sensor continuously detects the air-fuel ratio across the entire range from rich to lean mixtures. Unlike conventional oxygen sensors, it enables feedback control of the air-fuel ratio throughout the entire operating range of the engine, thereby optimizing fuel consumption, emissions, and overall engine performance in various regions. This sensor has a broad range of applications, primarily in diesel engines and hybrid vehicles.
Nitrogen Oxides Sensor (NOx Sensor): The NOx sensor is primarily used to detect the functionality of the three-way catalytic converter. When the NOx sensor detects a failure in the catalytic converter, it triggers an alarm, prompting the driver to carry out timely repairs. This sensor plays a vital role in environmental protection and emission control.
What is a Zirconia Oxygen Sensor?Zirconia oxygen sensors do not measure oxygen concentration %Vol directly, but rather measure the partial pressure of oxygen in a single oxygen gas or a mixed gas. This oxygen sensor uses a well-proven small zirconium dioxide element and its core. due to its innovative design, no need to require a reference gas. This feature enables the sensor to operate stably under high temperature, humidity and oxygen pressure fluctuations. The British SST Zirconia Oxygen Sensor System - O2S-FR-T2-18BM-C uses both principles.