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P0118 on a 2017 Toyota Tacoma

Coolant Temp Sensor High Input

P0118 on a 2017 Toyota Tacoma indicates coolant temp sensor high input. It usually stays drivable short-term but should be diagnosed promptly. The most common cause is disconnected or unlatched ect sensor connector (typically $0–$50). Confirm the root cause before replacing parts.

Severity: moderate Safe to drive (short term) Mid-size Pickup 2015-2019 Toyota Tacoma

Reviewed by MECH AI Editorial · Last verified

What does P0118 mean on a 2017 Toyota Tacoma?

P0118 is set when the engine control module reads the engine coolant temperature sensor signal voltage above the calibrated maximum — typically a reading that would represent an unrealistically cold coolant temperature (often −40 °F / −40 °C). This is the open-circuit fingerprint for the ECT sensor: a disconnected sensor, a broken signal wire, or a sensor failed open internally.

This guide covers P0118 across the 2015-2019 Toyota Tacoma generation — the symptoms, causes, and diagnostic steps below apply to every model year from 2015 through 2019.

Is it safe to drive a 2017 Toyota Tacoma with P0118?

In most cases a 2017 Toyota Tacoma stays drivable for short trips with P0118 active, but diagnose and repair it promptly. This is a moderate-severity code — ignoring it can lead to further damage or a failed emissions test.

What are the symptoms of P0118 on a 2017 Toyota Tacoma?

What causes P0118 on a 2017 Toyota Tacoma?

Cause Likelihood Estimated repair (USD)
Disconnected or unlatched ECT sensor connector Most common $0–$50
Broken or chafed ECT signal wire (open circuit) Common $80–$350
Internally failed ECT sensor (element opened) Common $30–$200
Corroded sensor connector pins Common $30–$200
Damaged sensor body from coolant leak or freeze Occasional $50–$250
Failed PCM signal input (rare) Rare $400–$1,500

How to diagnose this on a 2017 Toyota Tacoma

  1. Read ECT temperature with a scan tool

    A working ECT reads close to ambient air temperature when the engine has been off long enough to cool. A reading of "−40 °F" or "−40 °C" is the classic open-circuit fingerprint.

    Tools: Scan tool with ECT PID

  2. Inspect the connector and visible wiring

    Locate the ECT sensor (usually threaded into the intake manifold or thermostat housing). Unplug, inspect for corrosion, water, bent pins. Re-seat and clear the code — if it stays clear, the connector was the problem.

    Tools: Electrical contact cleaner, Flashlight

  3. Bench-test the ECT sensor resistance

    Remove the sensor (place a rag — coolant will drip). Measure resistance across its terminals at room temperature. Compare to the service manual — most NTC ECTs read 2.0–4.5 kΩ at 68 °F (20 °C). Infinite resistance means the sensor is open and needs replacement.

    Tools: Multimeter, Service spec sheet, Coolant catch and replacement

  4. Verify signal-wire continuity to the PCM

    With the ECT disconnected, check continuity from the sensor's signal wire to the corresponding PCM pin. Open circuit confirms a broken wire somewhere along the path. Visual inspection of the harness — particularly where it routes near hot exhaust or moving accessories — often reveals the chafe point.

    Tools: Multimeter, Wiring diagram

  5. Jumper-test the signal wire

    With the ECT disconnected, briefly jumper the signal wire to ground and observe the scan tool — the reading should swing from "very cold" to "very hot." No swing points at the wiring or PCM input rather than the sensor.

    Tools: Jumper wire, Scan tool

NHTSA complaints & recalls for the 2017 Toyota Tacoma

Owner-reported safety complaints and official recalls filed with the U.S. National Highway Traffic Safety Administration for the 2017 Toyota Tacoma. Use these to gauge how common a problem is on your specific vehicle before you start chasing Toyota Tacoma diagnostics.

234 owner complaints
12 involved a crash
6 involved a fire
9 reported injuries
  • POWER TRAIN 67
  • ENGINE 35
  • UNKNOWN OR OTHER 35
  • SERVICE BRAKES 30
  • STRUCTURE 25

5 active recalls

  • EQUIPMENT:OTHER:LABELS Dec 2017

    Toyota Motor Engineering & Manufacturing (Toyota) is recalling certain 2017-2018 Toyota 4Runner and Tundra, 2018 Toyota Highlander, RAV4 and Lexus GX460 and 2017 Toyota Sienna and Tacoma vehicles. These vehicles may have incorrect load carrying capacity modification labels. As…

    NHTSA campaign 17V831000
  • ENGINE Jun 2017

    Toyota Motor Engineering & Manufacturing (Toyota) is recalling certain 2016-2017 Tacoma vehicles equipped with a six-cylinder engine. The affected vehicles have a crank position sensor that may malfunction, potentially resulting in an engine stall.…

    NHTSA campaign 17V356000
  • POWER TRAIN:DRIVELINE:DIFFERENTIAL UNIT Apr 2017

    Toyota Motor Engineering & Manufacturing (Toyota) is recalling certain 2016-2017 Tacoma vehicles. Oil may leak from the area where the rear differential carrier is assembled to rear axle housing.…

    NHTSA campaign 17V285000
  • SERVICE BRAKES, HYDRAULIC:POWER ASSIST:VACUUM Apr 2018

    Toyota Motor Engineering & Manufacturing (Toyota) is recalling certain 2018 Toyota Camry and Highlander vehicles, 2017 Toyota Sienna and Tacoma vehicles and 2017 Lexus RX350 vehicles. During the manufacturing process, the oil galley in the rotor for the brake booster vacuum pump…

    NHTSA campaign 18V211000

How do I fix P0118 on a 2017 Toyota Tacoma?

About the 2015-2019 Toyota Tacoma

The 2015-2019 Toyota Tacoma was commonly sold with the following powertrains: 2.7L I4, 3.5L V6, 4.0L V6. Common trims include SR, SR5, TRD Sport, TRD Off-Road, Limited.

P0118 vs P0117

These are the two ends of the same circuit:

Why P0118 causes a hot engine to run rich

When the ECT signal goes missing or reads “very cold,” the ECM commands cold-start enrichment continuously — even on a hot engine. The result: fouled spark plugs, rich-running symptoms, possibly a hard start when the engine is actually warm because flooding occurs. This is why P0118 is worth fixing promptly even though it doesn’t look like a serious code.

Multi-sensor confusion: ECT vs IAT vs CHT

Modern engines may have multiple temperature sensors:

Their codes are similar — P0118 (ECT high), P0113 (IAT high), P0119 (ECT erratic). Make sure the connector you are pulling is for the sensor referenced in the code.

P0118 on a 2017 Toyota Tacoma: frequently asked questions

What does diagnostic trouble code P0118 mean on a 2017 Toyota Tacoma?

P0118 is set when the engine control module reads the engine coolant temperature sensor signal voltage above the calibrated maximum — typically a reading that would represent an unrealistically cold coolant temperature (often −40 °F / −40 °C). This is the open-circuit fingerprint for the ECT sensor: a disconnected sensor, a broken signal wire, or a sensor failed open internally.

What are the symptoms of P0118 on a 2017 Toyota Tacoma?

Check Engine Light is illuminated. Temperature gauge reads zero or stays cold. Difficult cold start with rich-running symptoms. Cooling fans may run constantly (ECM thinks coolant is dangerously cold). Slightly reduced fuel economy. Cold-running engine doesn't warm up properly per the gauge. Possible hard start when the engine is hot (ECM commands cold-start enrichment)

What causes P0118 on a 2017 Toyota Tacoma?

Disconnected or unlatched ECT sensor connector (most-common). Broken or chafed ECT signal wire (open circuit) (common). Internally failed ECT sensor (element opened) (common). Corroded sensor connector pins (common). Damaged sensor body from coolant leak or freeze (occasional). Failed PCM signal input (rare) (rare)

Is it safe to drive a 2017 Toyota Tacoma with P0118?

In most cases a 2017 Toyota Tacoma stays drivable for short trips with P0118 active, but it should be diagnosed and repaired promptly — this is a moderate-severity code. Ignoring it can lead to further damage or a failed emissions test.

Related diagnostic codes

P0118 on other Toyota Tacoma model years