Factory Direct Sales Gas Lambda Oxygen Sensor Suitable for The Automotive Industry

OXYGEN SENSOR

Automatic oxygen sensors can be referred to as oxygen sensors. The output signal of the sensor allows the ECU to adjust the air-fuel mixture, ensuring that the fuel is burned efficiently and that exhaust emissions are minimized. By monitoring the oxygen content of the exhaust gas, the sensor can indicate whether the combustion process is too rich (too much fuel) or too lean (too much air). This information helps the ECU adjust fuel delivery in real time to optimize engine performance, fuel efficiency, and emissions control.

THE TYPES OF AUTOMATIC OXYGEN SENSORS ARE AS FOLLOWS:

Narrowband O2 sensor: This is the most common type of oxygen sensor in automotive applications. It produces a voltage signal between 0 and 1.0 volts, which corresponds to the oxygen level in the exhaust. Narrowband O2 sensors are mainly used to monitor and adjust the air-fuel ratio near the stoichiometric point (ideal combustion). Although they are reliable and cost-effective, narrowband sensors have limited accuracy in measuring the exact oxygen content, so they are suitable for general emissions control rather than precise fuel mixture adjustments.

Wideband O2 sensor: Compared with narrowband sensors, wideband O2 sensors provide a wider voltage range (0.2 to 4.9 volts) and more accurate air-fuel ratio measurement. They can accurately detect lean or rich mixtures and provide real-time feedback to the engine control unit (ECU). This allows for finer adjustments to fuel delivery, improving engine performance, fuel efficiency, and emissions control under a variety of operating conditions. Wideband O2 sensors are often used in high-performance vehicles and applications where precise air-fuel ratio control is required.

Lambda Sensors: The term "lambda sensor" is often used interchangeably with "oxygen sensor," especially in European environments. Oxygen sensors, narrowband and wideband oxygen sensors, measure and control the air-fuel ratio in internal combustion engines. The oxygen sensor value represents the equivalence ratio of the air-fuel mixture, indicating whether the mixture is rich, lean, or stoichiometric. The oxygen sensor provides feedback to the engine control unit (ECU) to optimize combustion efficiency and reduce emissions.

Ceramic Oxygen Sensors: These oxygen sensors use ceramic materials in the sensing element. Ceramic oxygen sensors offer increased durability, high temperature resistance, and chemical stability in harsh exhaust environments. They are suitable for applications where reliability and service life are critical, such as industrial processes, heavy-duty engines, and emissions monitoring under challenging conditions. Ceramic oxygen sensors effectively measure and control oxygen levels in a variety of environments, ensuring efficient combustion and minimizing environmental impact.

VOLTAGE OUTPUT

The voltage output of the oxygen sensor is very important. This is because the sensor has been designed specifically for use in a vehicle with a specific make and model. Generally, the voltage output ranges between 0.1 and 0.9 volts. However, this value may be slightly different depending on the design of the sensor.

WIRING HARNESS CONNECTION

Oxygen sensors are connected to the vehicle's engine control unit (ECU) through a wiring harness. The wiring harness is very important as it determines the compatibility of the sensor with the vehicle. Make sure to check out the wiring harness configuration for the specific make and model of the Atoz.

HEATING ELEMENT

The heating element in an oxygen sensor is used to heat the sensor to a specific temperature. This is important as it ensures the sensor works optimally. The heating element is generally powered by a 12-volt source from the vehicle's electrical system. However, this value may differ slightly depending on the design of the sensor.

SENSOR CONSTRUCTION MATERIAL

The materials used in constructing an oxygen sensor affect its performance and durability. Most sensors are constructed using aluminum oxide, zirconia, and platinum. These materials are used because they are durable and can withstand the harsh environment in the engine exhaust stream.

Q1: Are you a factory or a trader?
A: We are a manufacturer integrating industry and trade, welcome to visit our company.

Q2: Can I add my LOGO to the product?
A: We support on-demand customization, including LOGO customization, color customization, appearance size customization, etc.

Q3: What payment methods do you support?
A: We support T/T, Western Union, Paypal, cash, etc. The details can be negotiated.

Q4: What are your modes of transportation?
A: We usually choose the appropriate mode of transportation (sea, air, land) according to the conditions of the goods, or we can choose the mode of transportation according to your requirements.

Q5: How can I get an accurate quotation?
A: You can first send your specific demand information and product pictures, and we will customize a solution for you according to your needs and inform you of the specific price.