The engine coolant temperature sensor (ECT) is one of the most important engine management sensors in your vehicle.
A sensor that is shorted or reading out of range obviously can’t provide a reliable signal and must be replaced.
Consequently, Engine Coolant Temperature Sensor (ECT) Replacements usually happen only after they have failed.
While, Its function is vital, All it really does is keep track of the changing temperatures of your engine coolant.
First, The vehicle’s (PCM/ECM) sends a 5 volt reference signal to the engine coolant temperature sensor (ECT). Next, The resistance of that signal changes based on the temperature of your engine coolant. It is this resistance that the vehicle’s (PCM/ECM) monitors to get an accurate reading of the coolant temperature.
As a result, When the engine coolant temperature is high (hotter), the resistance is low.
Consequently, When the engine coolant temperature is low (cooler) the resistance is high.
Finally, the vehicle’s (PCM/ECM) used this information for any or all of the following control functions:
- Start up fuel enrichment on fuel injected engines.
- Spark advance and retard.
- Exhaust gas recirculation (EGR) during warm-up.
- Evaporative emissions control canister purge.
- Open/closed loop feedback control of the air/fuel mixture.
- Idle speed during warm-up.
- Transmission torque converter clutch lockup during warm-up.
- Operation of the electric cooling fan.
Hopefully, The above list makes you realize the importance of this basic sensor.
Now that you know its importance, we hope you have confirmed that it is or is not working properly. If you need to do any testing please read our blog, (ECT) – Engine Coolant Temperature Sensor – Function, Failure And Testing. If your test was good at least now you know what to look for in the future. A failed test confirms Engine Coolant Temperature Sensor (ECT) Replacement is the next step.
Engine Coolant Temperature Sensor (ECT) Replacement is easier that you think.
Some steps and sensor locations may vary depending on year, make and model of your vehicle. So, If you need more info get a manual for your vehicle, as they are easy to find. You already know you need a new sensor and you should get that first.
Almost every parts store has them but, I recommend you get a factory replacement from your local dealer. The biggest reason is you get what you pay for and I would not skimp on something this important.
How to Replace a Engine Coolant Temperature Sensor (Step By Step)
- Park your vehicle in a safe place where you can work comfortably and let the engine cool.
- Locate and slowly remove the cooling system pressure cap to relieve the system of any residual pressure.
- Place a clean drain pan under the radiator to catch engine coolant.
- Open the radiator valve and drain about two to three quarts of coolant.
- You only need to remove enough to drop the level below the sensor.
- Then close the drain valve. This will minimize coolant waste when you remove the sensor.
- The next step is to disconnect the battery but, before you do read our post on Car Battery – Before You Disconnect It – What Can Go Wrong.
- You most likely know where the sensor is because you already tested it.
- But, If not, Locate and get access to it.
- You may need to remove the fan shroud or plastic engine covers in order to get access.
- Depending on the engine, you may have to remove part of the plastic air intake tubing.
- Disconnect the engine wiring harness from the sensor.
- A coolant sensor will be held in place by one of two methods.
- The most common method is similar to installing a spark plug. Use a deep socket and ratchet wrench to loosen the sensor.
- The less common method is being held in by a large C-clip. Use a pick to pull the clip upward and away from the sensor. This will enable the sensor to be removed from the coolant access port.
- Clean the hole where the sensor is located before you reinstall the new sensor.
- In some cases, dirt, debris, and other particles will impact the function of the sensor.
- Compare the new sensor to the old one; both should have the same configuration.
- Time to install the new sensor (Reverse Of Step-4).
- If the sensor uses threads apply a small amount of (sensor safe) thread sealer to help stop coolant leaks.
- Note: Some sensors have sealer already applied.
- Check your manual for proper torque specs.
- Do not over tighten the sensor or you will crack the porcelain and damage it.
- Some sensors are sealed by an O-ring which requires no sealer.
- Install the sensor by inserting it back into the coolant access port and reinstalling the clip.
- After the sensor has been successfully tightened, reattach the wiring harness.
- Once the sensor installation is complete install any other parts you had to disassemble (Reverse Of Step-3).
- Close the radiator drain valve and refill the system with coolant.
- Reconnect the battery, start the engine and make sure the “check engine” light is out.
- Allow the engine to heat up while adding coolant as needed.
- Reinstall the radiator cap once the engine is at operating temperature and recheck the system for leaks.
- Make sure the system is blead properly to avoid air pockets.
- Take a test drive while monitoring the temperature gauge to verify a completed repair.
- Make sure to drive the vehicle until you hear the radiator fan come on.
- We recommend rechecking the coolant level after a few days of driving.
So, Today’s engines monitor virtually every function to ensure your vehicle runs strongly and efficiently every day.
One of the most important systems to monitor is the cooling system.
And, When the sensor is functioning properly, it will tell your on board computer if the temperature is too high.
Finally, Alerting the driver that a problem exists by illuminating a warning light on the dashboard.
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