[ad_1]
A Mass Air Flow (MAF) sensor determines the air mass entering a fuel-injected engine, allowing the engine control module (ECM) to provide the correct amount of fuel for efficient combustion and reduced emissions. The two main types are hot and cold wire and vane meter sensors. They work in conjunction with other sensors to improve combustion efficiency and reduce emissions. A faulty MAF sensor can cause engine problems.
A Mass Air Flow (MAF) sensor is an electrical component designed to determine the mass of air entering a modern fuel-injected engine. This information can allow the engine control module (ECM) to provide the correct amount of fuel to the fuel-air mixture. By strictly controlling the fuel-air mixture ratio, combustion can be more efficient while reducing emissions. A faulty mass air flow sensor can cause the engine to run poorly or even not to run at all.
The two main types of mass air flow sensor are known as the hot and cold wire types and the vane meter variety. Although they differ in design and operation, both attempt to determine the mass of the air passing through the sensor. Since the air intake system is hermetically sealed, this can effectively tell the ECM the mass of the air that is actually entering the system. If air is introduced into the system at a location downstream of the sensor, it can lead to a lean running condition due to more air being present than the ECM expects.
Vanemeter sensors use a spring-loaded vane to estimate the mass of the air flowing through them. The vane can obstruct some or all of the airflow, and the mass is estimated based on how far it moves. This can have the undesirable effect of restricting airflow to the engine, which is addressed by other mass airflow sensor designs.
As their names suggest, hot and cold wire sensors have a wire that runs horizontally through the airflow. The hot wire variety uses an electrical current to heat the wire and then measures the electrical resistance of the wire to determine the mass of the airflow. The wire gets colder as more air flows over it, allowing for a fairly accurate estimate. This solves the clogging problem, while being particularly susceptible to oil contamination. The cold wire type uses a similar idea, although it has an oscillating electrical circuit to determine airflow.
Mass air flow sensors are typically used in concert with a variety of other sensors to improve combustion efficiency and reduce emissions. Most modern engines will use one or more exhaust oxygen sensors. While the mass air flow sensor usually provides a good estimate of air mass, exhaust gas monitoring can allow the ECU to make minor adjustments as needed.
[ad_2]