Abstract: An engine control for a motor vehicle powertrain coordinates engine speed and torque limiting during automatic transmission range changing so as to provide both vehicle rocking capability and adequate protection for the transmission. A transmission controller temporarily limits the engine speed to a predetermined value on each transition to or from the forward or reverse ranges, and superimposes continuous engine speed and torque limitations when an abusive rocking maneuver is detected. An abusive rocking maneuver is detected when the driver commands at least a specified number of successive range shifts during a predetermined time interval, and the speed and torque limitations are imposed until range shifting is discontinued for at least a calibrated period of time.

Abstract: An engine control for a motor vehicle powertrain coordinates engine speed and torque limiting during automatic transmission range changing so as to provide both vehicle rocking capability and adequate protection for the transmission. A transmission controller temporarily limits the engine speed to a predetermined value on each transition to or from the forward or reverse ranges, and superimposes continuous engine speed and torque limitations when an abusive rocking maneuver is detected. An abusive rocking maneuver is detected when the driver commands at least a specified number of successive range shifts during a predetermined time interval, and the speed and torque limitations are imposed until range shifting is discontinued for at least a calibrated period of time.

Abstract: An improved downshift control for an automatic transmission optimized for sequential shifting achieves skip-downshifting to a target gear by shifting the transmission to neutral and controlling the engine output torque while the transmission is reconfigured to establish the target speed ratio. The engine torque control is designed to allow the transmission input speed to reach the synchronization speed for the target speed ratio at a desired time, and the shift is completed when the transmission input speed actually reaches the synchronization speed. The engine torque control is predicated on a modeled engine torque parameter, and the torque control includes an adaptive parameter for adaptively adjusting the torque control to ensure that the input speed reaches the synchronization speed at the desired time.

Abstract: An improved downshift control for an automatic transmission optimized for sequential shifting achieves skip-downshifting to a target gear by shifting the transmission to neutral and controlling the engine output torque while the transmission is reconfigured to establish the target speed ratio. The engine torque control is designed to allow the transmission input speed to reach the synchronization speed for the target speed ratio at a desired time, and the shift is completed when the transmission input speed actually reaches the synchronization speed. The engine torque control is predicated on a modeled engine torque parameter, and the torque control includes an adaptive parameter for adaptively adjusting the torque control to ensure that the input speed reaches the synchronization speed at the desired time.

Abstract: A transmission control method comprises the steps of determining whether a shift requiring an output shaft lock-up is commanded, wherein such a shift involves a first torque transmitting mechanism either being applied or released while a second torque transmitting mechanism is held engaged. The control determines whether the vehicle is stopped by one or all of the following: verifying the vehicle service brakes are applied, the transmission output speed is near zero, the engine speed is low, the oil sump temperature is greater than a calibration temperature, and the turbine speed is near zero if the vehicle is in forward drive. If the vehicle is stopped, a lock-up torque transmitting mechanism is applied prior to the shift operable to prevent torque transmission to the output shaft. When the lock-up mechanism reaches capacity, the shift proceeds by one of applying and releasing the first mechanism, while maintaining the second mechanism engaged.

Abstract: A transmission control method comprises the steps of determining whether a shift requiring an output shaft lock-up is commanded, wherein such a shift involves a first torque transmitting mechanism either being applied or released while a second torque transmitting mechanism is held engaged. The control determines whether the vehicle is stopped by one or all of the following: verifying the vehicle service brakes are applied, the transmission output speed is near zero, the engine speed is low, the oil sump temperature is greater than a calibration temperature, and the turbine speed is near zero if the vehicle is in forward drive. If the vehicle is stopped, a lock-up torque transmitting mechanism is applied prior to the shift operable to prevent torque transmission to the output shaft. When the lock-up mechanism reaches capacity, the shift proceeds by one of applying and releasing the first mechanism, while maintaining the second mechanism engaged.