What Are Automotive Sensors?

Gone are the days when you could turn a screw on a carburetor to tune up an engine. Today's engines contain sensors to tell the vehicle's computer what's going on. Car sensors check for fuel-air mixture, incoming air temperature, wheel speed, and manifold pressure. They then tell your vehicle's computer what to do, based on that information.

car engine

Source | Andrew Taylor

Reading check engine light codes

Like anything else, sensors wear out, corrode, or become dirty. This essentially blinds the computer and triggers the dreaded check engine light. An Advance Auto Parts Team Member can read your OBD codes at your local store for free. Or you can purchase a code reader and do it yourself.

Either way, you should always consult a repair manual before attempting any procedure involving car sensors. If you’re servicing a vehicle built before 1996, you'll need a code reader that reads OBD I information. Post 1996, you'll need a code reader capable of OBD II diagnostics. Check with an Advance Auto Parts Team Member to determine your code reader needs. Click for more information on specific OBD II and OBD I codes.

Pro Tip

If you run across a trouble code indicating a bad reading from a given sensor, that may not tell the whole story. Something is usually making that sensor register a trouble code, other than just the sensor itself failing; often, a problem can be enough to trigger trouble codes in a chain of several sensors. Before you just replace the sensor itself and hope for the best, you may need to do a little deduction and connect the dots first.

Common automotive sensors

When sensors fail, your engine may experience poor gas mileage and performance. In severe cases your engine may fail. So it pays to replace worn automotive sensors right away.

Here are a few common sensors you may encounter in your vehicle:

  • The idle air control valve (IAC) helps regulate the amount of air entering the engine at idle. The idle air control valve is usually located on the throttle body. It helps in the engine warm up process much like the choke on a carburetor.
  • The manifold absolute pressure sensor (MAP) checks for variations in air pressure coming into your engine. The computer senses these variations and delivers the right amount of fuel and spark.
  • The intake air temperature sensor (IAT) helps the computer regulate exhaust gas recirculation for cleaner tailpipe emissions. The intake air temperature sensor is usually located in the air cleaner housing.'
  • The O2 sensor is located in the exhaust stream and monitors the content of the exhaust gases leaving the engine. It's a key part of the emissions control chain and helps the engine computer calculate fuel mixture and fuel delivery. A failing O2 sensor often results in a rich-running condition and black tailpipe smoke.
  • The mass air flow (MAF) sensor monitors the volume and density of air entering the engine; it works with the O2 sensor to calculate fuel delivery on the front end, as the O2 sensor monitors gases on the back end.
  • The crank position sensor monitors the rotational speed of the crankshaft and uses this information to help govern fuel mixture and spark advance. It may be located on the flywheel, the main crank pulley, the camshaft or the crank itself. If the crank position sensor fails, the engine may not start at all.
  • Anti-lock brake systems (ABS) work by sensing and comparing wheel rotation speed. If wheel speed is unequal, the anti-lock brake system computer senses impending lockup; through a network of valves and pumps, it then proportions braking pressure to prevent wheel lock.

Replaced a sensor on your vehicle recently? Tell us about your experience. Leave a comment.

Last updated June 19, 2017

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