P0118
Engine Coolant Temperature Sensor 1 Circuit High
Causes
- Open or high-resistance wiring in the ECT sensor circuit
- Corroded, loose, or damaged sensor connector
- Failed ECT (thermistor) sensor
- Poor or lost ground or reference supply to the sensor
- Faulty PCM/ECM driver or internal circuit fault
- Recent repairs or connector disturbance that damaged wiring
Symptoms
- Illuminated MIL / Check Engine Light
- Hard cold starts, extended warm-up, or rich running after start
- Poor fuel economy and possible rough idle
- Cooling fan inoperative or delayed (fans may not run when needed)
- Possible overheating if fans never engage or thermostat action is affected
What to check
- Retrieve freeze-frame and live data for coolant temperature with a scan tool
- Check for additional related codes (e.g., P0117, P0115, P0119)
- Visual inspection of sensor, connector, and wiring for damage or corrosion
- Backprobe sensor connector with ignition ON (engine OFF) to measure signal voltage and reference
- Measure sensor resistance at two known temps (cold and warm) and compare trend
- Check for proper reference voltage (typically ~5V) and good ground at harness
Signal parameters
- Typical reference voltage to sensor: ~5 V (varies by manufacturer)
- Normal ECT signal voltage: varies with temp (cold → higher voltage; hot → lower voltage)
- High-circuit fault typically: signal voltage near reference (>4.5 V) or open/infinite resistance
- Typical thermistor resistance: several kilo-ohms at ambient (drops as temperature rises) — consult vehicle spec
- Expected change: resistance should decrease as coolant temperature increases (negative temperature coefficient)
Diagnostic algorithm
- Verify presence of P0118 and note freeze-frame/conditions using a scan tool.
- Inspect sensor and harness for corrosion, bent pins, damage, or recent work that could have disturbed wiring.
- With ignition ON (engine OFF) backprobe the sensor signal wire: measure voltage between signal and ground. If voltage is at or near reference (≈ battery/5V) suspect open sensor or open to ground.
- Check reference supply at connector (should be ~5V with ignition ON). If reference missing, trace back to fuse/ECM supply.
- Check sensor ground continuity back to chassis/ECM ground. Repair any poor grounds.
- With sensor removed, measure sensor resistance at ambient and after warming (careful when hot). Resistance should decrease as temperature rises; if open or out of expected trend, replace the sensor.
- If wiring and sensor check good, perform continuity/resistance check between sensor connector and ECM pins to rule out open circuit or short.
- Wiggle test harness while monitoring live data for intermittent changes. Repair any intermittent wiring faults.
- If wiring and sensor are good but problem persists, consider substituting a known-good sensor. If still present, test PCM input circuitry or consult vehicle-specific service info for PCM tests.
- Clear codes and perform road/temperature test to confirm repair and that the code does not return.
Likely causes
- Broken/frayed wire between sensor and ECM (open circuit)
- Connector corrosion/dirty pins causing high resistance or open
- ECT sensor element failed open or out of range
- Blown fuse or interrupted 5V reference or sensor ground
- PCM input circuit failure (less common)
Fault status
Similar codes
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P0118
- High Engine Coolant Temperature Sensor
Causes
- Open or high-resistance wiring in the ECT sensor circuit
- Corroded, loose, or damaged sensor connector
- Failed ECT (thermistor) sensor
- Poor or lost ground or reference supply to the sensor
- Faulty PCM/ECM driver or internal circuit fault
- Recent repairs or connector disturbance that damaged wiring
Symptoms
- Illuminated MIL / Check Engine Light
- Hard cold starts, extended warm-up, or rich running after start
- Poor fuel economy and possible rough idle
- Cooling fan inoperative or delayed (fans may not run when needed)
- Possible overheating if fans never engage or thermostat action is affected
What to check
- Retrieve freeze-frame and live data for coolant temperature with a scan tool
- Check for additional related codes (e.g., P0117, P0115, P0119)
- Visual inspection of sensor, connector, and wiring for damage or corrosion
- Backprobe sensor connector with ignition ON (engine OFF) to measure signal voltage and reference
- Measure sensor resistance at two known temps (cold and warm) and compare trend
- Check for proper reference voltage (typically ~5V) and good ground at harness
Signal parameters
- Typical reference voltage to sensor: ~5 V (varies by manufacturer)
- Normal ECT signal voltage: varies with temp (cold → higher voltage; hot → lower voltage)
- High-circuit fault typically: signal voltage near reference (>4.5 V) or open/infinite resistance
- Typical thermistor resistance: several kilo-ohms at ambient (drops as temperature rises) — consult vehicle spec
- Expected change: resistance should decrease as coolant temperature increases (negative temperature coefficient)
Diagnostic algorithm
- Verify presence of P0118 and note freeze-frame/conditions using a scan tool.
- Inspect sensor and harness for corrosion, bent pins, damage, or recent work that could have disturbed wiring.
- With ignition ON (engine OFF) backprobe the sensor signal wire: measure voltage between signal and ground. If voltage is at or near reference (≈ battery/5V) suspect open sensor or open to ground.
- Check reference supply at connector (should be ~5V with ignition ON). If reference missing, trace back to fuse/ECM supply.
- Check sensor ground continuity back to chassis/ECM ground. Repair any poor grounds.
- With sensor removed, measure sensor resistance at ambient and after warming (careful when hot). Resistance should decrease as temperature rises; if open or out of expected trend, replace the sensor.
- If wiring and sensor check good, perform continuity/resistance check between sensor connector and ECM pins to rule out open circuit or short.
- Wiggle test harness while monitoring live data for intermittent changes. Repair any intermittent wiring faults.
- If wiring and sensor are good but problem persists, consider substituting a known-good sensor. If still present, test PCM input circuitry or consult vehicle-specific service info for PCM tests.
- Clear codes and perform road/temperature test to confirm repair and that the code does not return.
Likely causes
- Broken/frayed wire between sensor and ECM (open circuit)
- Connector corrosion/dirty pins causing high resistance or open
- ECT sensor element failed open or out of range
- Blown fuse or interrupted 5V reference or sensor ground
- PCM input circuit failure (less common)
Fault status
Similar codes
P0118
Engine Coolant Temperature (ECT) Sensor Circuit High Voltage
Causes
- Open or high-resistance wiring in the ECT sensor circuit
- Corroded, loose, or damaged sensor connector
- Failed ECT (thermistor) sensor
- Poor or lost ground or reference supply to the sensor
- Faulty PCM/ECM driver or internal circuit fault
- Recent repairs or connector disturbance that damaged wiring
Symptoms
- Illuminated MIL / Check Engine Light
- Hard cold starts, extended warm-up, or rich running after start
- Poor fuel economy and possible rough idle
- Cooling fan inoperative or delayed (fans may not run when needed)
- Possible overheating if fans never engage or thermostat action is affected
What to check
- Retrieve freeze-frame and live data for coolant temperature with a scan tool
- Check for additional related codes (e.g., P0117, P0115, P0119)
- Visual inspection of sensor, connector, and wiring for damage or corrosion
- Backprobe sensor connector with ignition ON (engine OFF) to measure signal voltage and reference
- Measure sensor resistance at two known temps (cold and warm) and compare trend
- Check for proper reference voltage (typically ~5V) and good ground at harness
Signal parameters
- Typical reference voltage to sensor: ~5 V (varies by manufacturer)
- Normal ECT signal voltage: varies with temp (cold → higher voltage; hot → lower voltage)
- High-circuit fault typically: signal voltage near reference (>4.5 V) or open/infinite resistance
- Typical thermistor resistance: several kilo-ohms at ambient (drops as temperature rises) — consult vehicle spec
- Expected change: resistance should decrease as coolant temperature increases (negative temperature coefficient)
Diagnostic algorithm
- Verify presence of P0118 and note freeze-frame/conditions using a scan tool.
- Inspect sensor and harness for corrosion, bent pins, damage, or recent work that could have disturbed wiring.
- With ignition ON (engine OFF) backprobe the sensor signal wire: measure voltage between signal and ground. If voltage is at or near reference (≈ battery/5V) suspect open sensor or open to ground.
- Check reference supply at connector (should be ~5V with ignition ON). If reference missing, trace back to fuse/ECM supply.
- Check sensor ground continuity back to chassis/ECM ground. Repair any poor grounds.
- With sensor removed, measure sensor resistance at ambient and after warming (careful when hot). Resistance should decrease as temperature rises; if open or out of expected trend, replace the sensor.
- If wiring and sensor check good, perform continuity/resistance check between sensor connector and ECM pins to rule out open circuit or short.
- Wiggle test harness while monitoring live data for intermittent changes. Repair any intermittent wiring faults.
- If wiring and sensor are good but problem persists, consider substituting a known-good sensor. If still present, test PCM input circuitry or consult vehicle-specific service info for PCM tests.
- Clear codes and perform road/temperature test to confirm repair and that the code does not return.
Likely causes
- Broken/frayed wire between sensor and ECM (open circuit)
- Connector corrosion/dirty pins causing high resistance or open
- ECT sensor element failed open or out of range
- Blown fuse or interrupted 5V reference or sensor ground
- PCM input circuit failure (less common)
Fault status
Similar codes
Manual library for HUMMER
Browse 138 HUMMER manuals: repair procedures, diagnostics, wiring diagrams, component locations, service data and Labor Times by year, model and trim.
HUMMER
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HUMMER: 2009
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HUMMER: 2008
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HUMMER: 2007
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HUMMER: 2005
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HUMMER: 2004
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HUMMER: 2000
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HUMMER: 1999
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HUMMER: 1994
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HUMMER: 1993
P0118
Engine Coolant Temperature Sensor Circuit High
Causes
- Open or high-resistance wiring in the ECT sensor circuit
- Corroded, loose, or damaged sensor connector
- Failed ECT (thermistor) sensor
- Poor or lost ground or reference supply to the sensor
- Faulty PCM/ECM driver or internal circuit fault
- Recent repairs or connector disturbance that damaged wiring
Symptoms
- Illuminated MIL / Check Engine Light
- Hard cold starts, extended warm-up, or rich running after start
- Poor fuel economy and possible rough idle
- Cooling fan inoperative or delayed (fans may not run when needed)
- Possible overheating if fans never engage or thermostat action is affected
What to check
- Retrieve freeze-frame and live data for coolant temperature with a scan tool
- Check for additional related codes (e.g., P0117, P0115, P0119)
- Visual inspection of sensor, connector, and wiring for damage or corrosion
- Backprobe sensor connector with ignition ON (engine OFF) to measure signal voltage and reference
- Measure sensor resistance at two known temps (cold and warm) and compare trend
- Check for proper reference voltage (typically ~5V) and good ground at harness
Signal parameters
- Typical reference voltage to sensor: ~5 V (varies by manufacturer)
- Normal ECT signal voltage: varies with temp (cold → higher voltage; hot → lower voltage)
- High-circuit fault typically: signal voltage near reference (>4.5 V) or open/infinite resistance
- Typical thermistor resistance: several kilo-ohms at ambient (drops as temperature rises) — consult vehicle spec
- Expected change: resistance should decrease as coolant temperature increases (negative temperature coefficient)
Diagnostic algorithm
- Verify presence of P0118 and note freeze-frame/conditions using a scan tool.
- Inspect sensor and harness for corrosion, bent pins, damage, or recent work that could have disturbed wiring.
- With ignition ON (engine OFF) backprobe the sensor signal wire: measure voltage between signal and ground. If voltage is at or near reference (≈ battery/5V) suspect open sensor or open to ground.
- Check reference supply at connector (should be ~5V with ignition ON). If reference missing, trace back to fuse/ECM supply.
- Check sensor ground continuity back to chassis/ECM ground. Repair any poor grounds.
- With sensor removed, measure sensor resistance at ambient and after warming (careful when hot). Resistance should decrease as temperature rises; if open or out of expected trend, replace the sensor.
- If wiring and sensor check good, perform continuity/resistance check between sensor connector and ECM pins to rule out open circuit or short.
- Wiggle test harness while monitoring live data for intermittent changes. Repair any intermittent wiring faults.
- If wiring and sensor are good but problem persists, consider substituting a known-good sensor. If still present, test PCM input circuitry or consult vehicle-specific service info for PCM tests.
- Clear codes and perform road/temperature test to confirm repair and that the code does not return.
Likely causes
- Broken/frayed wire between sensor and ECM (open circuit)
- Connector corrosion/dirty pins causing high resistance or open
- ECT sensor element failed open or out of range
- Blown fuse or interrupted 5V reference or sensor ground
- PCM input circuit failure (less common)
Fault status
Similar codes
Manual library for ISUZU
Browse 86 ISUZU manuals: repair procedures, diagnostics, wiring diagrams, component locations, service data and Labor Times by year, model and trim.
ISUZU
-
ISUZU: 2008
-
ISUZU: 2006
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i-350
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ISUZU: 2005
P0118
Engine Coolant Temperature Circuit High Input
Causes
- Open or high-resistance wiring in the ECT sensor circuit
- Corroded, loose, or damaged sensor connector
- Failed ECT (thermistor) sensor
- Poor or lost ground or reference supply to the sensor
- Faulty PCM/ECM driver or internal circuit fault
- Recent repairs or connector disturbance that damaged wiring
Symptoms
- Illuminated MIL / Check Engine Light
- Hard cold starts, extended warm-up, or rich running after start
- Poor fuel economy and possible rough idle
- Cooling fan inoperative or delayed (fans may not run when needed)
- Possible overheating if fans never engage or thermostat action is affected
What to check
- Retrieve freeze-frame and live data for coolant temperature with a scan tool
- Check for additional related codes (e.g., P0117, P0115, P0119)
- Visual inspection of sensor, connector, and wiring for damage or corrosion
- Backprobe sensor connector with ignition ON (engine OFF) to measure signal voltage and reference
- Measure sensor resistance at two known temps (cold and warm) and compare trend
- Check for proper reference voltage (typically ~5V) and good ground at harness
Signal parameters
- Typical reference voltage to sensor: ~5 V (varies by manufacturer)
- Normal ECT signal voltage: varies with temp (cold → higher voltage; hot → lower voltage)
- High-circuit fault typically: signal voltage near reference (>4.5 V) or open/infinite resistance
- Typical thermistor resistance: several kilo-ohms at ambient (drops as temperature rises) — consult vehicle spec
- Expected change: resistance should decrease as coolant temperature increases (negative temperature coefficient)
Diagnostic algorithm
- Verify presence of P0118 and note freeze-frame/conditions using a scan tool.
- Inspect sensor and harness for corrosion, bent pins, damage, or recent work that could have disturbed wiring.
- With ignition ON (engine OFF) backprobe the sensor signal wire: measure voltage between signal and ground. If voltage is at or near reference (≈ battery/5V) suspect open sensor or open to ground.
- Check reference supply at connector (should be ~5V with ignition ON). If reference missing, trace back to fuse/ECM supply.
- Check sensor ground continuity back to chassis/ECM ground. Repair any poor grounds.
- With sensor removed, measure sensor resistance at ambient and after warming (careful when hot). Resistance should decrease as temperature rises; if open or out of expected trend, replace the sensor.
- If wiring and sensor check good, perform continuity/resistance check between sensor connector and ECM pins to rule out open circuit or short.
- Wiggle test harness while monitoring live data for intermittent changes. Repair any intermittent wiring faults.
- If wiring and sensor are good but problem persists, consider substituting a known-good sensor. If still present, test PCM input circuitry or consult vehicle-specific service info for PCM tests.
- Clear codes and perform road/temperature test to confirm repair and that the code does not return.
Likely causes
- Broken/frayed wire between sensor and ECM (open circuit)
- Connector corrosion/dirty pins causing high resistance or open
- ECT sensor element failed open or out of range
- Blown fuse or interrupted 5V reference or sensor ground
- PCM input circuit failure (less common)
Fault status
Similar codes
Manual library for LAND ROVER
Browse 320 LAND ROVER manuals: repair procedures, diagnostics, wiring diagrams, component locations, service data and Labor Times by year, model and trim.
LAND ROVER
-
LAND ROVER: 2022
-
Defender
- 90
- 90
- 90 S
- 90 S
- 90 V8
- 90 V8
- 90 V8 Carpathian Edition
- 90 V8 Carpathian Edition
- 90 X
- 90 X
- 90 X-Dynamic HSE
- 90 X-Dynamic HSE
- 90 X-Dynamic S
- 90 X-Dynamic S
- 90 X-Dynamic SE
- 90 X-Dynamic SE
- 110
- 110
- 110 S
- 110 S
- 110 SE
- 110 SE
- 110 V8
- 110 V8
- 110 V8 Carpathian Edition
- 110 V8 Carpathian Edition
- 110 X
- 110 X
- 110 X-Dynamic SE
- 110 X-Dynamic SE
- 110 XS Edition
- 110 XS Edition
-
Discovery
- R-Dynamic HSE
- R-Dynamic HSE
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2022: Discovery R-Dynamic S
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2022: Discovery R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Discovery R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Discovery R-Dynamic S
- S
- S
-
Discovery Sport
-
Range Rover
- Autobiography, 4.4L Eng VIN 7 · 4.4L Eng VIN 72022: Range Rover Autobiography
- Autobiography, 4.4L Eng VIN 7 · 4.4L Eng VIN 72022: Range Rover Autobiography
- Autobiography, 5.0L Eng VIN E · 5.0L Eng VIN E2022: Range Rover Autobiography
- Autobiography, 5.0L Eng VIN E · 5.0L Eng VIN E2022: Range Rover Autobiography
- 2022 Range Rover Base
- 2022 Range Rover Base
- First Edition
- First Edition
- HSE Westminster, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Range Rover HSE Westminster
- HSE Westminster, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Range Rover HSE Westminster
- HSE Westminster, 5.0L Eng VIN E · 5.0L Eng VIN E2022: Range Rover HSE Westminster
- HSE Westminster, 5.0L Eng VIN E · 5.0L Eng VIN E2022: Range Rover HSE Westminster
- SE, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Range Rover SE
- SE, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Range Rover SE
- SE, 4.4L Eng VIN 7 · 4.4L Eng VIN 72022: Range Rover SE
- SE, 4.4L Eng VIN 7 · 4.4L Eng VIN 72022: Range Rover SE
- SV
- SV
- SVAutobiography
- SVAutobiography
- SVAutobiography Dynamic
- SVAutobiography Dynamic
- SVAutobiography Dynamic Blk.
- SVAutobiography Dynamic Blk.
-
Range Rover Evoque
-
Range Rover Velar
- R-Dynamic HSE
- R-Dynamic HSE
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2022: Range Rover Velar R-Dynamic S
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2022: Range Rover Velar R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Range Rover Velar R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Range Rover Velar R-Dynamic S
- S, 2.0L Eng VIN X · 2.0L Eng VIN X2022: Range Rover Velar S
- S, 2.0L Eng VIN X · 2.0L Eng VIN X2022: Range Rover Velar S
- S, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Range Rover Velar S
- S, 3.0L Eng VIN U · 3.0L Eng VIN U2022: Range Rover Velar S
-
-
LAND ROVER: 2021
-
Discovery
- R-Dynamic HSE
- R-Dynamic HSE
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2021: Discovery R-Dynamic S
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2021: Discovery R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Discovery R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Discovery R-Dynamic S
- S
- S
-
Discovery Sport
-
Range Rover
- Autobiography, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover Autobiography
- Autobiography, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover Autobiography
- Autobiography Fifty Edition
- Autobiography Fifty Edition
- 2021 Range Rover Base
- 2021 Range Rover Base
- HSE, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover HSE
- HSE, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover HSE
- HSE, 3.0L Eng VIN K · 3.0L Eng VIN K2021: Range Rover HSE
- HSE, 3.0L Eng VIN K · 3.0L Eng VIN K2021: Range Rover HSE
- HSE Westminster, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Range Rover HSE Westminster
- HSE Westminster, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Range Rover HSE Westminster
- HSE Westminster, 5.0L Eng VIN E · 5.0L Eng VIN E2021: Range Rover HSE Westminster
- HSE Westminster, 5.0L Eng VIN E · 5.0L Eng VIN E2021: Range Rover HSE Westminster
- SVAutobiography
- SVAutobiography
- SVAutobiography Dynamic
- SVAutobiography Dynamic
- SVAutobiography Dynamic Blk.
- SVAutobiography Dynamic Blk.
-
Range Rover Evoque
-
Range Rover Sport
- Autobiography, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover Sport Autobiography
- Autobiography, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover Sport Autobiography
- Autobiography, 5.0L Eng VIN E · 5.0L Eng VIN E2021: Range Rover Sport Autobiography
- Autobiography, 5.0L Eng VIN E · 5.0L Eng VIN E2021: Range Rover Sport Autobiography
- Autobiography Dynamic, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover Sport Autobiography Dynamic
- Autobiography Dynamic, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover Sport Autobiography Dynamic
- Autobiography Dynamic, 5.0L Eng VIN E · 5.0L Eng VIN E2021: Range Rover Sport Autobiography Dynamic
- Autobiography Dynamic, 5.0L Eng VIN E · 5.0L Eng VIN E2021: Range Rover Sport Autobiography Dynamic
- HSE Dynamic
- HSE Dynamic
- HSE Silver Edition, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover Sport HSE Silver Edition
- HSE Silver Edition, 2.0L Eng VIN Y · 2.0L Eng VIN Y2021: Range Rover Sport HSE Silver Edition
- HSE Silver Edition, 3.0L Eng VIN K · 3.0L Eng VIN K2021: Range Rover Sport HSE Silver Edition
- HSE Silver Edition, 3.0L Eng VIN K · 3.0L Eng VIN K2021: Range Rover Sport HSE Silver Edition
- HSE Silver Edition, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Range Rover Sport HSE Silver Edition
- HSE Silver Edition, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Range Rover Sport HSE Silver Edition
- HST
- HST
- SE
- SE
- SVR
- SVR
- SVR Carbon Edition
- SVR Carbon Edition
-
Range Rover Velar
- R-Dynamic HSE
- R-Dynamic HSE
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2021: Range Rover Velar R-Dynamic S
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2021: Range Rover Velar R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Range Rover Velar R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Range Rover Velar R-Dynamic S
- S, 2.0L Eng VIN X · 2.0L Eng VIN X2021: Range Rover Velar S
- S, 2.0L Eng VIN X · 2.0L Eng VIN X2021: Range Rover Velar S
- S, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Range Rover Velar S
- S, 3.0L Eng VIN U · 3.0L Eng VIN U2021: Range Rover Velar S
-
LAND ROVER: 2020
-
Defender
- 90 First Edition
- 90 First Edition
- 110 First Edition
- 110 First Edition
- 110 HSE
- 110 HSE
- 110 S
- 110 S
- 110 SE
- 110 SE
- 110 X
- 110 X
- 110, 2.0L Eng VIN X · 2.0L Eng VIN X2020: Defender 110
- 110, 2.0L Eng VIN X · 2.0L Eng VIN X2020: Defender 110
- 110, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Defender 110
- 110, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Defender 110
-
Discovery
- HSE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Discovery HSE
- HSE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Discovery HSE
- HSE, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Discovery HSE
- HSE, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Discovery HSE
- HSE Luxury, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Discovery HSE Luxury
- HSE Luxury, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Discovery HSE Luxury
- HSE Luxury, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Discovery HSE Luxury
- HSE Luxury, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Discovery HSE Luxury
- Landmark
- Landmark
- SE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Discovery SE
- SE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Discovery SE
- SE, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Discovery SE
- SE, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Discovery SE
-
Range Rover
- Autobiography
- Autobiography
- Base, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Range Rover Base
- Base, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Range Rover Base
- Base, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Range Rover Base
- Base, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Range Rover Base
- HSE, 2.0L Eng VIN Y · 2.0L Eng VIN Y2020: Range Rover HSE
- HSE, 2.0L Eng VIN Y · 2.0L Eng VIN Y2020: Range Rover HSE
- HSE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Range Rover HSE
- HSE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Range Rover HSE
- HSE, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Range Rover HSE
- HSE, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Range Rover HSE
- HSE, 5.0L Eng VIN E · 5.0L Eng VIN E2020: Range Rover HSE
- HSE, 5.0L Eng VIN E · 5.0L Eng VIN E2020: Range Rover HSE
- SVAutobiography
- SVAutobiography
- SVAutobiography Dynamic
- SVAutobiography Dynamic
-
Range Rover Evoque
-
Range Rover Sport
- Autobiography Dynamic, 2.0L Eng VIN Y · 2.0L Eng VIN Y2020: Range Rover Sport Autobiography Dynamic
- Autobiography Dynamic, 2.0L Eng VIN Y · 2.0L Eng VIN Y2020: Range Rover Sport Autobiography Dynamic
- Autobiography Dynamic, 5.0L Eng VIN E · 5.0L Eng VIN E2020: Range Rover Sport Autobiography Dynamic
- Autobiography Dynamic, 5.0L Eng VIN E · 5.0L Eng VIN E2020: Range Rover Sport Autobiography Dynamic
- HSE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Range Rover Sport HSE
- HSE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Range Rover Sport HSE
- HSE, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Range Rover Sport HSE
- HSE, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Range Rover Sport HSE
- HSE, 5.0L Eng VIN E · 5.0L Eng VIN E2020: Range Rover Sport HSE
- HSE, 5.0L Eng VIN E · 5.0L Eng VIN E2020: Range Rover Sport HSE
- HSE Dynamic
- HSE Dynamic
- HSE PHEV
- HSE PHEV
- HST
- HST
- SE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Range Rover Sport SE
- SE, 3.0L Eng VIN K · 3.0L Eng VIN K2020: Range Rover Sport SE
- SE, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Range Rover Sport SE
- SE, 3.0L Eng VIN U · 3.0L Eng VIN U2020: Range Rover Sport SE
- SVR
- SVR
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Range Rover Velar
- R-Dynamic HSE
- R-Dynamic HSE
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2020: Range Rover Velar R-Dynamic S
- R-Dynamic S, 2.0L Eng VIN X · 2.0L Eng VIN X2020: Range Rover Velar R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Range Rover Velar R-Dynamic S
- R-Dynamic S, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Range Rover Velar R-Dynamic S
- S, 2.0L Eng VIN X · 2.0L Eng VIN X2020: Range Rover Velar S
- S, 2.0L Eng VIN X · 2.0L Eng VIN X2020: Range Rover Velar S
- S, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Range Rover Velar S
- S, 3.0L Eng VIN V · 3.0L Eng VIN V2020: Range Rover Velar S
- SVAutobiography Dyn.
- SVAutobiography Dyn.
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P0118
Engine coolant TEMP.sensor high
Causes
- Open or high-resistance wiring in the ECT sensor circuit
- Corroded, loose, or damaged sensor connector
- Failed ECT (thermistor) sensor
- Poor or lost ground or reference supply to the sensor
- Faulty PCM/ECM driver or internal circuit fault
- Recent repairs or connector disturbance that damaged wiring
Symptoms
- Illuminated MIL / Check Engine Light
- Hard cold starts, extended warm-up, or rich running after start
- Poor fuel economy and possible rough idle
- Cooling fan inoperative or delayed (fans may not run when needed)
- Possible overheating if fans never engage or thermostat action is affected
What to check
- Retrieve freeze-frame and live data for coolant temperature with a scan tool
- Check for additional related codes (e.g., P0117, P0115, P0119)
- Visual inspection of sensor, connector, and wiring for damage or corrosion
- Backprobe sensor connector with ignition ON (engine OFF) to measure signal voltage and reference
- Measure sensor resistance at two known temps (cold and warm) and compare trend
- Check for proper reference voltage (typically ~5V) and good ground at harness
Signal parameters
- Typical reference voltage to sensor: ~5 V (varies by manufacturer)
- Normal ECT signal voltage: varies with temp (cold → higher voltage; hot → lower voltage)
- High-circuit fault typically: signal voltage near reference (>4.5 V) or open/infinite resistance
- Typical thermistor resistance: several kilo-ohms at ambient (drops as temperature rises) — consult vehicle spec
- Expected change: resistance should decrease as coolant temperature increases (negative temperature coefficient)
Diagnostic algorithm
- Verify presence of P0118 and note freeze-frame/conditions using a scan tool.
- Inspect sensor and harness for corrosion, bent pins, damage, or recent work that could have disturbed wiring.
- With ignition ON (engine OFF) backprobe the sensor signal wire: measure voltage between signal and ground. If voltage is at or near reference (≈ battery/5V) suspect open sensor or open to ground.
- Check reference supply at connector (should be ~5V with ignition ON). If reference missing, trace back to fuse/ECM supply.
- Check sensor ground continuity back to chassis/ECM ground. Repair any poor grounds.
- With sensor removed, measure sensor resistance at ambient and after warming (careful when hot). Resistance should decrease as temperature rises; if open or out of expected trend, replace the sensor.
- If wiring and sensor check good, perform continuity/resistance check between sensor connector and ECM pins to rule out open circuit or short.
- Wiggle test harness while monitoring live data for intermittent changes. Repair any intermittent wiring faults.
- If wiring and sensor are good but problem persists, consider substituting a known-good sensor. If still present, test PCM input circuitry or consult vehicle-specific service info for PCM tests.
- Clear codes and perform road/temperature test to confirm repair and that the code does not return.
Likely causes
- Broken/frayed wire between sensor and ECM (open circuit)
- Connector corrosion/dirty pins causing high resistance or open
- ECT sensor element failed open or out of range
- Blown fuse or interrupted 5V reference or sensor ground
- PCM input circuit failure (less common)
Fault status
Similar codes
Manual library for MITSUBISHI
Browse 406 MITSUBISHI manuals: repair procedures, diagnostics, wiring diagrams, component locations, service data and Labor Times by year, model and trim.
MITSUBISHI
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MITSUBISHI: 2024
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Outlander
- Black Edition, AWD
- Black Edition, AWD
- Black Edition, FWD
- Black Edition, FWD
- ES, AWD
- ES, AWD
- ES, FWD
- ES, FWD
- Platinum Edition
- Platinum Edition
- SE, AWD
- SE, AWD
- SE, FWD
- SE, FWD
- SEL, AWD
- SEL, AWD
- SEL, FWD
- SEL, FWD
- SEL Black Edition, AWD
- SEL Black Edition, AWD
- SEL Black Edition, FWD
- SEL Black Edition, FWD
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Outlander PHEV
-
MITSUBISHI: 2023
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Mirage
-
Mirage G4
-
Outlander
- 40th Anniversary
- 40th Anniversary
- Black Edition, AWD
- Black Edition, AWD
- Black Edition, FWD
- Black Edition, FWD
- ES, AWD
- ES, AWD
- ES, FWD
- ES, FWD
- Ralliart
- Ralliart
- SE, AWD
- SE, AWD
- SE, FWD
- SE, FWD
- SEL, AWD
- SEL, AWD
- SEL, FWD
- SEL, FWD
- SEL Black Edition, AWD
- SEL Black Edition, AWD
- SEL Black Edition, FWD
- SEL Black Edition, FWD
- SE Special Edition, AWD
- SE Special Edition, AWD
- SE Special Edition, FWD
- SE Special Edition, FWD
-
Outlander PHEV
-
MITSUBISHI: 2022
-
Eclipse Cross
- ES, AWD
- ES, AWD
- ES, FWD
- ES, FWD
- LE, AWD
- LE, AWD
- LE, FWD
- LE, FWD
- SE, AWD
- SE, AWD
- SE, FWD
- SE, FWD
- SEL, AWD
- SEL, AWD
- SEL, FWD
- SEL, FWD
- SEL Special Edition, AWD
- SEL Special Edition, AWD
- SEL Special Edition, FWD
- SEL Special Edition, FWD
- SE Special Edition, AWD
- SE Special Edition, AWD
- SE Special Edition, FWD
- SE Special Edition, FWD
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MITSUBISHI: 2021
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MITSUBISHI: 2020
