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Here's a look at the most crucial components in your car's fuel injection system and what role each plays in keeping your engine turning.
The name is so simple and descriptive, but it doesn't explain where the fuel is being injected or why. Fuel injection systems rely on projecting carefully metered bursts of fuel into the engine's cylinders, and it's the fuel injector that's charged with this task. These components are basically valves that open to spray a fine mist of fuel on command and then close until they are needed again. The longer they stay open, the more fuel they provide.
In order to keep fuel flowing from the tank to the injectors, a fuel injection system relies on one ' or more ' fuel pumps. Pumps not only move fuel from the tank to the front of the car, but also keep the fuel system pressurized, so that, when the injectors open, gasoline sprays out instead of dribbling out.
How much fuel your engine needs is linked to how much air is entering the motor via the throttle. In order to know that the throttle valve is open, a fuel injection system needs a sensor to tell it that the valve has been triggered by the gas pedal. The amount of air that's flowing into the engine is measured by another sensor (mass airflow), so that the motor's air'fuel ratio is kept within optimal parameters. A further batch of sensors (oxygen sensors) keep an eye on downstream emissions in the exhaust to give the system another peek at the actual air'fuel ratio that's burning in the motor.
Other sensors that play a key role include the manifold absolute pressure sensor, which measures the amount of air pressure in the intake manifold (and, as a result, how much power is being produced), as well as the engine speed sensor, which measures how many revolutions per minute the motor is turning.
Your car's ECU, or electronic control unit, is a computer that handles all the calculations required to make use of the sensor data. It decides when to activate the fuel injectors, how long to keep them open and what adjustments have to be made in real time to address driver demands and environmental conditions, such as temperature.
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