Circuit/System Description
The HVAC control module controls the HVAC door actuators to regulate the airflow through the HVAC system. Each actuator consists of an electric motor and a potentiometer. The module supplies a low reference and 5-volt reference source voltage to the potentiometer. The HVAC control module monitors the voltage drop across the potentiometer on the door position signal circuit. When the actuator shaft rotates, the voltage on the door position signal circuit changes. The control circuit uses either a 0, 2.5 or 5-volt signal to command the actuator movement. When the actuator is at rest, the control circuit value is 2.5 volts. A 0 or 5-volt control signal commands the actuator movement in opposite directions.
- B0228 is for the recirculate actuator.
- B0413 is for the drivers air temperature actuator.
- B0423 is for the passenger air temperature actuator.
- B3779 is for the mode actuator.
This DTC is not associated with any wiring. It is an internal fault inside the HVAC control module for a stuck or shorted control button.
The engine control module (ECM) monitors the high side refrigerant pressure through the A/C refrigerant pressure sensor. The ECM supplies a 5-volt reference and a low reference to the sensor. Changes in the A/C refrigerant pressure cause the sensor signal to the ECM to vary. When the pressure is high, the signal voltage is high. When the pressure is low, the signal voltage is low. When pressure is high, the ECM commands the cooling fans on. When pressure is too high or too low, the ECM will not allow the A/C compressor clutch to engage.
Circuit System Description
Ignition voltage is supplied directly to the A/C compressor clutch relay. The engine control module (ECM) controls the relay by grounding the A/C clutch relay control circuit. When the ECM is commanding a component ON, the voltage of the control circuit should be near 0 volt. When the ECM is commanding the control circuit to a component OFF, the voltage potential of the circuit should be near battery voltage.
The engine control module (ECM)/powertrain control module (PCM) controls the A/C compressor clutch based on an A/C request serial data message from the HVAC control module. The ECM/PCM monitors the A/C refrigerant pressure sensor and if pressure is within a specified range, will engage the A/C compressor by grounding the A/C compressor clutch relay control circuit.
B+ is applied to the A/C relay in the RUN/START position and with the A/C compressor clutch relay control circuit grounded by the ECM/PCM, current flows through the coil side of the A/C relay. With current flowing through the coil side of the relay, a magnetic field is created which pulls the switch side of the relay closed, sending current to the A/C compressor clutch, allowing the A/C compressor to be engaged.
When the A/C switch is pressed, the HVAC control module grounds the A/C request signal circuit. This input will request the ECM to ground the A/C compressor clutch relay control circuit, which will switch the A/C CMPRSR CLUTCH relay on. With the relay contacts closed, battery voltage is supplied to the A/C compressor clutch assembly.
The blower motor control module is an interface between the HVAC control module and the blower motor. The blower motor speed control, battery positive and ground circuits enable the control module to operate. The HVAC control module provides a variable voltage to the blower motor control module to request the selected blower speed. The blower motor control module provides a pulse width modulation (PWM) signal to the blower motor in order to control the blower motor speed. The module supplies 12 volts to the blower motor through the blower motor voltage supply circuit.
Air Delivery Description and Operation
The air delivery description and operation is divided into 7 areas
- HVAC Control Components
- Air Speed
- Auxiliary Air Speed
- Air Delivery
- Auxiliary Air Delivery
- Recirculation Operation
- Automatic Operation
Recirculation Operation
The HVAC control module controls the air intake through the recirculation actuator. The recirculation switch closes the recirculation door in order to circulate the air within the vehicle. The outside air switch opens the recirculation door in order to route outside air into the vehicle. Regardless of the blower motor switch position, recirculation is available only in the panel and bi-level mode switch positions. Including the OFF position. The mode switch must be placed in either the panel or bi-level position before the blower motor switch is placed in the OFF position. In order to reduce windshield fogging, outside air is circulated when the mode switch is in the defrost or defog positions. If the recirculation switch is pressed into the ON position when the mode switch is in an unavailable mode position, then the recirculation switch LED will flash 3 times. If the HVAC control module detects a fault with the recirc door the HVAC control module will try to drive the actuator for a predetermined amount of time, to outside air, which is the defaulted position for the recirculation actuator.
Automatic Operation
In automatic operation, the HVAC control module will maintain the comfort level inside of the vehicle by controlling the A/C compressor clutch, the blower motor, the air temperature actuators, mode actuator and circulation.
To place the HVAC system in Automatic mode, the following is required
- The Auto switch must be activated
- The air temperature switch must be in any other position other than full hot or full cold position
Once the desired temperature is reached, the blower motor, mode, recirculation and temperature actuators will automatically be adjusted to maintain the temperature selected. The HVAC control module performs the following functions to maintain the desired air temperature
Monitor the following sensors
- Inside Air Temperature Sensor
- Ambient Air Temperature Sensor
- Lower Left Air Temperature Sensor
- Lower Right Air Temperature Sensor
- Upper Left Air Temperature Sensor
- Upper Right Air Temperature Sensor Regulate blower motor speed Position the air temperature actuator Position the mode actuator Position the recirculation actuator Request A/C operation
Air Temperature Description and Operation
The air temperature controls are divided into 7 areas
- HVAC Control Components
- Heating and A/C Operation
- Auxiliary Heating and A/C Operation
- Automatic Operation
- Auxiliary Automatic Operation
- Engine Coolant A/C Cycle
Heating and A/C Operation
The purpose of the heating and A/C system is to provide heated and cooled air to the interior of the vehicle. The A/C system will also remove humidity from the interior and reduce windshield fogging. The vehicle operator can determine the passenger compartment temperature by adjusting the air temperature switch. The vehicle passenger can offset the passenger temperature as much as 16.7°C (30°F). Regardless of the temperature setting, the following can affect the rate that the HVAC system can achieve the desired temperature
- Recirculation actuator setting
- Difference between inside and desired temperature
- Difference between ambient and desired temperature
- Blower motor speed setting
- Mode setting
- Auxiliary HVAC settings
The control module makes the following actions when automatic operation is not selected, and an air temperature setting is selected
- When the air temperature switch is placed in the warmest position, the control module commands the air temperature door to divert maximum air past the heater core.
- When the air temperature switch is placed in the coldest position, the control module commands the air temperature door to direct air to bypass the heater core.
When the air temperature switch is placed between the warmest and coldest positions, the control module monitors the following sensor inputs to determine the air temperature door position that diverts the appropriate amount of air past the heater core in order to achieve the desired temperature
- Sunload
- Duct temperatures
- Ambient temperature
- Inside temperature
The A/C system can be engaged by either pressing the A/C switch or during automatic operation. The HVAC control module sends a GMLAN message to the powertrain control module (PCM) for A/C compressor engagement. The PCM will provide a ground for the A/C compressor relay enabling it to close its internal contacts to send battery voltage to the A/C compressor clutch coil. The A/C compressor diode will prevent a voltage spike, resulting from the collapse of the magnetic field of the coil, from entering the vehicle electrical system when the compressor is disengaged.
The following conditions must be met in order for the A/C compressor clutch to turn ON if they are not all met and an A/C request is made the LED on the A/C switch will flash
- Ambient air temperature above 7°C (45°F)
- A/C low pressure switch signal circuit is grounded
- A/C refrigerant pressure sensor parameter is less than 2957 kPa (429 psi)
- PCM receives an A/C request from the HVAC control module
- Engine coolant temperature (ECT) is less than 121°C (250°F)
- The engine RPM is more than 550 RPM
- The throttle position is less than 100 percent
The HVAC control module monitors the A/C low pressure switch signal circuit. If the voltage signal on this circuit has no voltage drop the module will interpret this condition as a low pressure, disabling the A/C request. The A/C low pressure switch will open its internal contacts at 151 kPa (22 psi). Then close the contacts at 275 kPa (40 psi) to resume A/C operation. This switch assists in cycling the A/C compressor and prevents A/C compressor operation if system has a low refrigerant level.
The PCM monitors the A/C refrigerant pressure sensor signal circuit. The voltage signal on this circuit is proportional to the refrigerant pressure inside the A/C high side pressure line. As the pressure inside the line increases, so does the voltage signal. If the pressure is above 2957 kPa (429 psi), the A/C compressor output is disabled. When the pressure lowers to 1578 kPa (229 psi), the PCM enables the compressor to operate.
The sensor information is used by the PCM to determine the following
- The A/C high side pressure
- An A/C system load on the engine
- An excessive A/C high side pressure
- The heat load at the A/C condenser
Once engaged, the compressor clutch will be disengaged for the following conditions
- Ambient air temperature is less than 7°C (45°F)
- Throttle position is 100 percent
- The A/C low pressure switch is open
- A/C high side pressure is more than 2957 kPa (429 psi)
- A/C low side pressure is less than 151 kPa (22 psi)
- ECT is more than 121°C (250°F)
- Engine speed is more than 5500 RPM
- Transmission shift
- PCM detects excessive torque load
- PCM detects insufficient idle quality
- PCM detects a hard launch condition
In automatic operation, the HVAC control module will maintain the comfort level inside of the vehicle by controlling the A/C compressor clutch, the blower motor, the air temperature actuators, mode actuator and recirculation.
To place the HVAC system in Automatic mode, the following is required
- The Auto switch must be activated
- The air temperature switch must be in any other position other than full hot or full cold position
Once the desired temperature is reached, the blower motor, mode, recirculation and temperature actuators will automatically be adjusted to maintain the temperature selected. The HVAC control module performs the following functions to maintain the desired air temperature
Monitor the following sensors
- Inside Air Temperature Sensor
- Ambient Air Temperature Sensor
- Lower Left Air Temperature Sensor
- Lower Right Air Temperature Sensor
- Upper Left Air Temperature Sensor
- Upper Right Air Temperature Sensor
- Regulate blower motor speed.
- Position the air temperature actuator.
- Position the mode actuator.
- Position the recirculation actuator.
- Request A/C operation.
In automatic operation, the auxiliary HVAC control module will maintain the comfort level inside of the vehicle by controlling the auxiliary blower motor, the auxiliary air temperature actuator and the auxiliary mode actuator.
To place the auxiliary HVAC system in Automatic mode, the following is required
- The auxiliary blower motor switch on the auxiliary HVAC control assembly must be in the Auto position.
- The auxiliary mode switch on the auxiliary HVAC control assembly must be in the Auto position.
- The auxiliary air temperature switch must be in any other position other than full hot or full cold position.
Once the desired temperature is reached, the auxiliary blower motor, auxiliary mode and auxiliary temperature actuator will automatically be adjusted to maintain the temperature selected. The auxiliary HVAC control module performs the following functions to maintain the desired air temperature
- Upper Air Temperature Sensor - Auxiliary
- Lower Air Temperature Sensor - Auxiliary
- Regulate auxiliary blower motor speed
- Position the auxiliary air temperature actuator
- Position the auxiliary mode actuator