General Information

The Throttle Actuator Control (TAC) system is used to improve emissions, fuel economy and driveability. The TAC system eliminates the mechanical link between the accelerator pedal and throttle plate as well as replaces the need for a cruise control module and idle air control motor. The TAC system components include:
^ Accelerator pedal assembly [this contains the accelerator pedal, Accelerator Pedal Position (APP) sensor 1 and APP sensor 2, NOTE: the APP sensors may not be serviced separately from the pedal/bracket assembly]
^ Throttle body assembly [this contains the TP sensor 1, TP sensor 2, throttle actuator motor and throttle plate]
^ Engine Control Module (ECM)

The ECM reads the driver's demand for acceleration through two APP sensors. APP sensor 1 signal voltage is scaled from 0.98 to 4.16 (+/-0.1) volts as the accelerator pedal is moved from the rest to full travel position. APP sensor 2, however, is scaled from 0.49 to 2.08 (+/-0.1) volts in the same fashion. The ECM processes this information along with other sensor inputs to command the throttle plate to a certain position.

The throttle plate is controlled with a direct current motor called a throttle actuator control motor. The ECM can move this motor in the forward or reverse direction by controlling battery voltage and/or ground to four internal drivers. The throttle plate is held at a 7% rest position to a mechanical stop by a constant force return spring. This spring will hold the throttle plate to the stop when there is no current flowing to the actuator motor. There is another return spring, which creates constant force on the throttle plate only when the throttle plate is moved towards the full closed position.

The ECM reads the throttle plate angle through two TP sensors. TP sensor 1 signal voltage is scaled from 0.50 to 4.25 (+/-0.1) volts as the throttle plate is moved from 0% to wide open throttle. TP sensor 2, however, decreases from 4.45 to 0.70 (+/-0.1) volts as the throttle plate is moved from 0% to wide open throttle.

The ECM performs diagnostics that monitor the voltage levels of both APP sensors, both TP sensors and the throttle actuator control motor circuit. It also monitors the spring return rate of both return springs that are housed internal to the throttle body assembly. These diagnostics are performed at different times based on whether the engine is running/not running or whether the ECM is currently in a throttle body relearn procedure.

Every key-up, the ECM will run a quick throttle return spring check to make sure the throttle plate can return to the 7% rest position from the 0% position. This is to ensure that the throttle plate can be brought to the rest position in case of an actuator motor circuit failure.

IMPORTANT: Under cold conditions, the ECM will command the throttle plate to 14% with ignition On, engine Off to prevent ice from building up on the throttle plate.