18613/P2181/008577: Difference between revisions
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== 18613/P2181/008577 - Performance Malfunction in Cooling System == | == 18613/P2181/008577 - Performance Malfunction in Cooling System == | ||
==== Possible Symptoms ==== | |||
* Malfunction Indicator Light (MIL) ON | |||
* Reduced Heater Output - Cold toes | |||
* Incorrect Temperature Gauge Readings | |||
* Increased Emissions | |||
==== Possible Causes ==== | |||
* Faulty Coolant Sensor | |||
* Faulty Coolant Thermostat | |||
* Faulty Wiring, Connections | |||
''Note'': This fault code sets when engine coolant temperature mapping is lower and out of expected range based on operating conditions of the engine. | |||
* For example: Engine warms up, thermostat opens and stays open, coolant temperature drops below normal operating range. The ECM knows the coolant temperature should stay within 80.0...110.0 °C typically after warm up. Thus a drop in coolant temperature below normal operating temperature is not possible without a '''Malfunction in Cooling System'''. | |||
==== Possible Solutions ==== | ==== Possible Solutions ==== | ||
* Check Engine Coolant Temperature Sender ( | * Check G62 - Engine Coolant Temperature Sender <br> | ||
** Inspect wiring for G62 (Coolant Migration, damage, corrosion, etc) | |||
* Check (if applicable) G83 - Radiator Outlet, Coolant Temperature Sender <br> | |||
** Inspect wiring for G83 (Coolant Migration, damage, corrosion, etc) | |||
* Check Coolant Thermostat | * Check Coolant Thermostat | ||
* | ** Use Graph function in VCDS, Measuring Value Blocks - MVB | ||
** | ** Start Engine cold, graph Coolant Temperature Sender (G62) Typically MVB Group-001 | ||
* | ** Hold RPM around 1,500rpm and watch coolant temp increase in Graph until thermostat opens, indicated by a slight drop in coolant temp | ||
*** | ** If coolant temp drops below minimum operating temperature (80°C) or never reaches operating temperature, (verified by external thermometer) suspect failed thermostat | ||
*** | |||
* Vehicles with both G62-Engine Outlet, Coolant Temperature Sensor and G83-Radiator Outlet, Coolant Temperature Sensor | |||
** Use Measuring Value Block group MVB-130 instead on MVB-001 | |||
** G62 should increase in Temperature before G83 increase when engine coolant is cold | |||
** G83 will increase when the thermostat opens and after G62 reaches operating temperature (80°C) | |||
** If G62 and G83 both increase while engine warms up, suspect failed thermostat | |||
==== Special Notes ==== | |||
* Check the stored Freeze Frame data with this fault code. Freeze Frame information will be found in the fault code description (if the module supports it) or in Generic OBD-II if the vehicle complies with those regulations. | |||
** Freeze Frame data stored at -40*C is generally an indication of a faulty ECT or wiring. | |||
** Freeze Frame data stored at +140*C is generally an indication of a faulty ECT or wiring. | |||
** Freeze Frame data stored with in the 68*C ~ 80*C range is an indication that the vehicle was close to, but not within, the cooling systems normal operation range. The Thermostat itself or Cooling system components may be at fault. | |||
[[Category:Fault Codes]] | [[Category:Fault Codes]] | ||
Latest revision as of 15:55, 24 October 2013
18613/P2181/008577 - Performance Malfunction in Cooling System
Possible Symptoms
- Malfunction Indicator Light (MIL) ON
- Reduced Heater Output - Cold toes
- Incorrect Temperature Gauge Readings
- Increased Emissions
Possible Causes
- Faulty Coolant Sensor
- Faulty Coolant Thermostat
- Faulty Wiring, Connections
Note: This fault code sets when engine coolant temperature mapping is lower and out of expected range based on operating conditions of the engine.
- For example: Engine warms up, thermostat opens and stays open, coolant temperature drops below normal operating range. The ECM knows the coolant temperature should stay within 80.0...110.0 °C typically after warm up. Thus a drop in coolant temperature below normal operating temperature is not possible without a Malfunction in Cooling System.
Possible Solutions
- Check G62 - Engine Coolant Temperature Sender
- Inspect wiring for G62 (Coolant Migration, damage, corrosion, etc)
- Check (if applicable) G83 - Radiator Outlet, Coolant Temperature Sender
- Inspect wiring for G83 (Coolant Migration, damage, corrosion, etc)
- Check Coolant Thermostat
- Use Graph function in VCDS, Measuring Value Blocks - MVB
- Start Engine cold, graph Coolant Temperature Sender (G62) Typically MVB Group-001
- Hold RPM around 1,500rpm and watch coolant temp increase in Graph until thermostat opens, indicated by a slight drop in coolant temp
- If coolant temp drops below minimum operating temperature (80°C) or never reaches operating temperature, (verified by external thermometer) suspect failed thermostat
- Vehicles with both G62-Engine Outlet, Coolant Temperature Sensor and G83-Radiator Outlet, Coolant Temperature Sensor
- Use Measuring Value Block group MVB-130 instead on MVB-001
- G62 should increase in Temperature before G83 increase when engine coolant is cold
- G83 will increase when the thermostat opens and after G62 reaches operating temperature (80°C)
- If G62 and G83 both increase while engine warms up, suspect failed thermostat
Special Notes
- Check the stored Freeze Frame data with this fault code. Freeze Frame information will be found in the fault code description (if the module supports it) or in Generic OBD-II if the vehicle complies with those regulations.
- Freeze Frame data stored at -40*C is generally an indication of a faulty ECT or wiring.
- Freeze Frame data stored at +140*C is generally an indication of a faulty ECT or wiring.
- Freeze Frame data stored with in the 68*C ~ 80*C range is an indication that the vehicle was close to, but not within, the cooling systems normal operation range. The Thermostat itself or Cooling system components may be at fault.