Automatic Temperature Control

B1032-Evaporator Temperature Sensor Circuit High






For a complete wiring diagram, refer to.

Theory of Operation

The Evaporator Temperature Sensor is a variable resistor that changes in conjunction with temperature, or otherwise known as a thermistor. The Evaporator Temperature Sensor is located in the HVAC housing downstream of the A/C evaporator. The A/C Heater Control module monitors the evaporator temperature by monitoring the voltage change of the Evaporator Temperature Sensor Signal circuit. If the monitored voltage drops below or rises above a predetermined voltage, a DTC will set.

Theory of Operation

The Evaporator Temperature Sensor resistance changes in conjunction to temperature. The sensor thermistor forms the lower half of a voltage divider and the upper half of the voltage divider is provided by a pull up resistor to 5.0 volts.

• When Monitored: With the ignition on.

• Set Condition: The Evaporator Temperature Sensor voltage input to the A/C Heater Control is equal to or above 4.9 volts for a continuous period of 60 seconds. If the A/C Heater Control detects a valid voltage, the Diagnostic trouble Code (DTC) will change from Active to Stored and will stay in the controllers memory for 100 ignition cycles.






Always perform the HVAC Pre-Diagnostic Troubleshooting procedure before proceeding. Refer to => Non-DTC Based
Diagnostics. HVAC Pre-Diagnostic Troubleshooting Procedure

Test Step 1 - CHECK (C21) EVAPORATOR TEMPERATURE SENSOR SIGNAL CIRCUIT VOLTAGE

• Ignition on, engine not running.

• Using the scan tool, read HVAC DTCs after 60 seconds.

Is this DTC active?

Yes

• Go to Test Step 2 => [ Test Step 2 - CHECK THE (C21) EVAPORATOR TEMPERATURE SENSOR SIGNAL
CIRCUIT VOLTAGE ]

No

• Go to Test Step 7 => [ Test Step 7 - CHECK THE WIRING AND CONNECTORS ]

Test Step 2 - CHECK THE (C21) EVAPORATOR TEMPERATURE SENSOR SIGNAL CIRCUIT VOLTAGE







• Turn the ignition off to the lock position.

• Disconnect the Evaporator Temperature Sensor harness connector.

• Due to the small terminal and pin size of the Evaporator Temperature Sensor and harness connector, make sure to not damage the terminals in this process.

• Connect a jumper wire between the (C21) Evaporator Temperature Sensor Signal circuit and the (C121) Sensor Ground circuit in the Evaporator Temperature Sensor harness connector.

• Ignition on, engine not running.

• Using the scan tool, read the Evaporator Temperature Sensor voltage.

Is the voltage below 0.1 of a volt?

Yes

• Replace the Evaporator Temperature Sensor.

• Perform the HVAC Verification Test. Refer to => Non-DTC Based Diagnostics. HVAC Verification Test

No

• Go to Test Step 3 => [ Test Step 3 - CHECK THE (C21) EVAPORATOR TEMPERATURE SENSOR SIGNAL
CIRCUIT FOR A SHORT TO VOLTAGE ]

Test Step 3 - CHECK THE (C21) EVAPORATOR TEMPERATURE SENSOR SIGNAL CIRCUIT FOR A SHORT TO VOLTAGE







• Turn the ignition off to the lock position.

• Disconnect the jumper wire from the Evaporator Temperature Sensor harness connector.

• Disconnect the A/C Heater Control harness connector.

• Ignition on, engine not running.

• Measure the voltage of the (C21) Evaporator Temperature Sensor Signal circuit

Is there any voltage present?

Yes

• Repair the (C21) Evaporator Temperature Sensor Signal circuit for a short to voltage.

• Perform the HVAC Verification Test. Refer to => Non-DTC Based Diagnostics. HVAC Verification Test

No

• Go to Test Step 4 => [ Test Step 4 - CHECK THE (C21) EVAPORATOR TEMPERATURE SENSOR SIGNAL
CIRCUIT FOR AN OPEN ]

Test Step 4 - CHECK THE (C21) EVAPORATOR TEMPERATURE SENSOR SIGNAL CIRCUIT FOR AN OPEN







• Turn the ignition off to the lock position.

• Measure the resistance of the (C21) Evaporator Temperature Sensor Signal circuit between the A/C Heater Control harness connector and the Evaporator Temperature Sensor harness connector.

Is the resistance above 1.0 Ohm?

Yes

• Repair the (C21) Evaporator Temperature Sensor Signal circuit for an open or high resistance.

• Perform the HVAC Verification Test. Refer to => Non-DTC Based Diagnostics. HVAC Verification Test

No

• Go to Test Step 5 => [ Test Step 5 - CHECK THE (C121) SENSOR GROUND CIRCUIT FOR AN OPEN ]

Test Step 5 - CHECK THE (C121) SENSOR GROUND CIRCUIT FOR AN OPEN







• Measure the resistance of the (C121) Sensor Ground circuit between the A/C Heater Control harness connector and the Evaporator Temperature Sensor harness connector.

Is the resistance above 1.0 Ohm?

Yes

• Repair the (C121) Sensor Ground circuit for an open or high resistance.

• Perform the HVAC Verification Test. Refer to => Non-DTC Based Diagnostics. HVAC Verification Test

No

• Go to Test Step 6 => [ Test Step 6 - CHECK THE EVAPORATOR TEMPERATURE SENSOR ]

Test Step 6 - CHECK THE EVAPORATOR TEMPERATURE SENSOR

• Replace the Evaporator Temperature Sensor in Accordance with the Service Information.

• Perform the HVAC Verification Test. Refer to => Non-DTC Based Diagnostics. HVAC Verification Test

• Cycle the ignition off for 30 seconds then back on and wait a minimum of 60 seconds.

• With the Scan tool read HVAC DTCs.

Does this DTC reset?

Yes

• Replace and program the A/C Heater Control.

• Perform the HVAC Verification Test. Refer to => Non-DTC Based Diagnostics. HVAC Verification Test

No

• Test complete.

Test Step 7 - CHECK THE WIRING AND CONNECTORS

• The conditions necessary to set the DTC are not present at this time.

• Using the scan tool, check the Environmental Data to help identify the conditions in which the DTC was set.

• Using the wiring diagrams as a guide, check all related splices and connectors for signs of water intrusion, corrosion, pushed out or bent terminals, and correct pin tension.

• Wiggle the wiring and connectors while checking for shorted and open circuits.

Were there any problems found?

Yes

• Repair as necessary.

• Perform the HVAC Verification Test. Refer to => Non-DTC Based Diagnostics. HVAC Verification Test

No

• Test complete.