DTC Descriptors
DTC B111A: Passenger Thermal Electronic Device Control Current Above ThresholdDTC B1113: Passenger Thermal Electronic Device Circuit
Diagnostic Fault Information
Perform the Diagnostic System Check - Vehicle prior to using this diagnostic procedure.
Circuit | Short to Ground | Open/High Resistance | Short to Voltage | Signal Performance |
|---|---|---|---|---|
Battery Positive Voltage | 1 | 1 | -- | -- |
Ignition 3 Voltage | 1 | 1 | -- | -- |
Passenger Seat Blower Supply Voltage | B111D | B272F | B272F | -- |
Passenger Seat Back Blower Supply Voltage | B111D | B272D, B727B, B272F | B272F | -- |
Passenger Seat Cushion Blower Supply Voltage | B111D | B272A, B272D | B272F | -- |
Passenger Heated Seat Back Only Mode Switch Signal | 5 | 5 | 5 | -- |
Passenger Heated Seat Cool Switch Signal | 4 | 4 | 4 | -- |
Passenger Seat Back Cushion Switch Signal | 3 | 3 | 3 | -- |
Passenger Seat Back Temperature Sensor Signal | B272B, B272D | B1AA3, B272D | B1AA3, B272D | -- |
Passenger Seat Cushion Temperature Sensor Signal | B272A, B272D | B1AA2, B272D | B1AA2, B272D | -- |
Right Heated/Cooled Seat Mode Signal | 2 | 2 | 2 | -- |
Passenger Seat Back Heated/Cool Ventilation Module Cool Control | B111A | B272D, 4 | -- | -- |
Passenger Seat Back Heated/Cool Ventilation Module Heat Control | B111A, 4 | B272D, 4, 5 | -- | -- |
Passenger Seat Cushion Heated/Cool Ventilation Module Cool Control | B111A | B272D, 4 | -- | -- |
Passenger Seat Cushion Heated/Cool Ventilation Module Heat Control | B111A, 4 | B272D | 4 | -- |
Passenger Seat Back Blower Speed Control | B19A6 | B272B, B272D, B272F | B19A2 | -- |
Passenger Seat Cushion Blower Speed Control | B19A5 | B272A, B272D | B19A1 | -- |
Low Reference - Passenger Heated Seat Switch | -- | 2 | -- | -- |
Low Reference - Passenger Seat Back Blower | -- | B272B, B272D, B272F | -- | -- |
Low Reference - Passenger Seat Back and Cushion Blower | -- | B272F | -- | -- |
Low Reference - Passenger Seat Cushion Blower | -- | B272A, B272D | -- | -- |
Low Reference - Passenger Seat Back Temperature Sensor | -- | B1AA3, B272D | -- | -- |
Low Reference - Passenger Seat Cushion Temperature Sensor | -- | B1AA2, B272D | -- | -- |
Ground - Climate Control Seat Module | -- | 1 | -- | -- |
1. Driver and passenger heated/cooled seats are inoperative 2. Driver seat heat and cool modes are inoperative 3. Seat heat mode is inoperative 4. Seat cool mode is inoperative 5. Heated/cooled seat back only mode inoperative | ||||
Circuit/System Description
The heat and cool seat functions for the driver and passenger seats are controlled by the climate control seat module (CCSM) that is located under the passenger seat cushion. When a driver or passenger heat or cool seat switch is pressed, a low reference signal is applied through the switch signal circuit to the door control module. In response to the switch input, the door module sends a GMLAN message to the memory seat module (MSM) indicating the heat/cool seat request. The MSM then sends a pulse width modulation (PWM) signal through the heated/cooled seat mode signal circuit to the CCSM. The CCSM then applies battery positive voltage to the seat cushion and seat back thermal electronic devices (TEDs) and a pre-determined voltage to the blower motors. To determine seat temperature, the CCSM supplies a 5-volt signal and a low reference to the temperature sensors that are attached to each TED. The temperature sensors are variable resistors. Their resistance changes as the temperature of the seat changes. Then based on the seat temperature, the CCSM controls the voltage level that it applies to the TEDs and blower motors.
Conditions for Running the DTC
Ignition ON and the passenger heat or cool seat is commanded On.
Conditions for Setting the DTC
The CCSM detects a short to ground on one of the ventilation modules heat or cool control circuits.
Action Taken When the DTC Sets
The CCSM will disable the heat or cool seat function for the current ignition cycle.
Conditions for Clearing the DTC
The current DTC clears when the malfunction is no longer present and the power mode changes to OFF then back to ACC or RUN.
Diagnostic Aids
| • | In order to perform valid tests when diagnosing the climate control seat (CCS) system, the ignition must be cycled OFF then ON between each test in order to reset the CCSM. |
| • | A short to battery voltage on a temperature sensor signal circuit will open the sensor. |
Reference Information
Schematic Reference
Connector End View Reference
Power Seat Connector End Views
Electrical Information Reference
Scan Tool Reference
Circuit System Verification
Ignition ON, press the passenger heated seat cushion/back heat mode switch. The heated seat switch temperature indicators should illuminate and the seat should operate in the high heat mode. Press the heated seat back only mode switch, the heated seat switch temperature indicators should illuminate and the seat should operate in the back only heat mode. Press the heated seat cool mode switch, the heated seat switch temperature indicators should illuminate and the seat should operate in the cool mode.
Circuit/System Testing
- Ignition OFF, disconnect the C1 harness connector at the CCSM.
- Test for infinite resistance between the control circuits listed below and ground.
- Ignition OFF, disconnect the harness connectors at the seat cushion and seat back ventilation heat and cool modules.
- From the seat cushion ventilation module side of the harness connector, test for 0.9-10.0 ohms between the heat control circuit terminal 1 and the cool control circuit terminal 3.
- From the seat back ventilation module side of the harness connector, test for 0.9-10.0 ohms between the heat control circuit terminal 1 and the cool control circuit terminal 3.
- If all circuits test normal, replace the CCSM.
| • | Seat cushion heat control circuit terminal A |
| • | Seat cushion cool control circuit terminal B |
| • | Seat back heat control circuit terminal C |
| • | Seat back cool control circuit terminal D |
| ⇒ | If less than infinite, test the appropriate control circuit for a short to ground. |
Important: The test leads must be connected in the correct polarity, otherwise lower out of range values will appear. Use the Positive Lead for the COOL control circuit and the Negative Lead for the HEAT control circuit. If the
resistance is measured with the seat still warm or cool, the resistance values will vary even if the system was powered up for just a few seconds. The TED must be allowed to stabilize to room temperature prior to a measurement. The following conditions will
change the resistance to out of range values:
• The test leads are incorrectly connected • Air blowing across the TED • Measuring the resistance at other than room temperature of 70°F • Holding the TED portion of the heated and cool ventilation module in your hand
| ⇒ | If not within the specified range, replace the seat cushion ventilation heat and cool module. |
| ⇒ | If not within the specified range, replace the seat back ventilation heat and cool module. |
Component Testing
Ventilation Heat and Cool Module
- Ignition OFF, disconnect the harness connectors at the seat cushion and seat back ventilation heat and cool modules.
- Test for 300 ohms-18K ohms between the temperature sensor signal circuit terminal 5 and the low reference circuit terminal 8.
- Test for 0.9-10.0 ohms between the heat control circuit terminal 1 and the cool control circuit terminal 3.
- Test for 6-9K ohms between blower motor supply voltage circuit terminal 2 and the low reference circuit terminal 4.
- Test for 290-420K ohms between blower motor speed control circuit terminal 7 and the low reference circuit terminal 4.
Important: If the resistance is measured with the seat still warm or cool, the resistance values will vary. At 68°F (20°C), the nominal resistance value is 1200 ohms ±5 percent. For hotter or colder ambient temperatures, refer to the Temperature vs Resistance table below. The delta resistance values between the seat cushion and seat back temperature sensors should not be greater than 2000 ohms.
| ⇒ | If not within the specified range, replace the ventilation heat and cool module. |
Important: The test leads must be connected in the correct polarity, otherwise lower out of range values will appear. Use the Positive Lead for the COOL control circuit and the Negative Lead for the HEAT control circuit. If the
resistance is measured with the seat still warm or cool, the resistance values will vary even if the system was powered up for just a few seconds. The TED must be allowed to stabilize to room temperature prior to a measurement. The following conditions will
change the resistance to out of range values:
• The test leads are incorrectly connected. • Air blowing across the TED • Measuring the resistance at other than room temperature of 70°F • Holding the TED portion of the heated and cool ventilation module in your hand
| ⇒ | If not within the specified range, replace the ventilation heat and cool module. |
Important: The test leads must be connected in the correct polarity, otherwise higher out of range values will appear. Use the Positive Lead for the supply voltage circuit and the Negative Lead for the ground circuit.
| ⇒ | If not within the specified range, replace the ventilation heat and cool module. |
Important: The test leads need to be connected in the correct polarity, otherwise higher out of range values will appear. Use the Positive Lead for the speed control circuit and the Negative Lead for the ground circuit.
| ⇒ | If not within the specified range, replace the ventilation heat and cool module. |
°C | °F | OHMS |
|---|---|---|
Temperature vs Resistance Values (Approximate) | ||
60° | 140° | 319.9 |
50° | 122° | 433.1 |
40° | 104° | 596.6 |
30° | 86° | 837.5 |
20° | 68° | 1200 |
10° | 50° | 1757 |
0° | 32° | 2633 |
-10° | 14° | 4047 |
-20° | -4° | 6401 |
-30° | -22° | 10,450 |
-40° | -40° | 17,670 |
Repair Instructions
Perform the Diagnostic Repair Verification after completing the diagnostic procedure.
| • | Control Module References for CCSM replacement, setup, and programming |
