11787548961 1618V3 Downstream O2/Oxygen Sensor for BMW Mini Citroen Peugeot

The Downstream 11787548961 1618V3 Oxygen Sensor is a critical component in your vehicle’s exhaust system. Downstream 11787548961 1618V3 o2 sensor is a type of sensor that measures the oxygen content in the exhaust gas of an internal combustion engine.
It plays a vital role in measuring the amount of oxygen in the exhaust gas and helps improve the vehicle’s performance and fuel efficiency.

Downstream 11787548961 1618V3 Oxygen Sensor Applicable car brands

BMW Mini Citroen Peugeot

Downstream 11787548961 1618V3 Oxygen Sensor parameter

OEM NO. : 1618V3 ,1628NY , 1628KY ,1618. V3 , 7548961 , 11787548961 , 11 78 7 548 961, 9636968380 , OZA628-U1 , 0ZA628-U1 , 1628. NY , 1628. KY,DOX1538 1997588 77240,V7548961, V754896180
Type: Heating Type
Linear: 0.5FS
Repeatability: 2%
Downstream 11787548961 1618V3 Oxygen Sensor function
If the Oxygen Sensor fails to function correctly, it can lead to various issues such as misfires, rough idling, and poor acceleration.

Downstream 11787548961 1618V3 Oxygen Sensor

Where is Downstream 11787548961 1618V3 Oxygen Sensor
It is located downstream of the exhaust manifold, and its main function is to monitor the combustion efficiency of the engine by monitoring the amount of oxygen in the exhaust gas.
The1618V3 O2 sensor is used to detect the levels of oxygen in various gases, and it can also be used to measure the concentration of other gases such as nitrogen, argon, and helium.

Downstream 11787548961 1618V3 Oxygen Sensor Size&weight
Sensor is a high-quality sensor designed to withstand the harshest conditions. It measures
18cm * 10cm * 4cm inches and weighs just 130 grams, making it lightweight and compact. The sensor’s flange mount allows for easy installation and integration into a wide range of applications.

The downstream 11787548961 1618V3 o2 sensor plays an important role in monitoring and controlling engine performance.
It can provide information about the combustion efficiency of the engine, allowing operators to adjust engine parameters accordingly to optimize performance and reduce emissions. Additionally, it can provide feedback information to controllers to ensure stable engine operation.