Method for determining a preferred engine operation in a hybrid powertrain system during blended braking
First Claim
1. Method for controlling a powertrain system including an engine, a transmission and a torque machine connected to an energy storage device, the transmission operative to transfer power between the engine and the torque machine and an output member coupled to a driveline coupled to a wheel including an actuable friction brake, the torque machine operative to react torque transferred from the wheel through the driveline to the output member of the transmission, the engine selectively operative in an all-cylinder state and a cylinder deactivation state and selectively operative in a fueled state and a fuel cutoff state, the method comprising:
- monitoring operator torque requests comprising operator inputs to a brake pedal and an accelerator pedal;
detecting a braking event based upon the operator torque requests;
determining a net predicted output torque corresponding to the operator inputs to the brake pedal and the accelerator pedal and determining a predicted accelerator output torque corresponding to the operator input to the accelerator pedal;
determining a range of permissible output torques, said range defined by the net predicted output torque and the predicted accelerator output torque, said range further limited based upon a minimum output torque as a function of a minimum input torque;
evaluating candidate input torques from the engine for each of the engine states and determining corresponding candidate output torques reactable through the output member of the transmission to the driveline, the candidate output torques limited within the range of permissible output torques;
determining power costs for operating the transmission for the candidate input torques; and
identifying a preferred engine state and a preferred input torque comprising the candidate input torque and the corresponding engine state having a minimum power cost for operating the transmission during the braking event.
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Accused Products
Abstract
A hybrid transmission is operative to transfer power between an input member and a torque machine and an output member. A method for controlling the powertrain system during a braking event includes evaluating candidate input torques. An output torque reactable through the transmission to the driveline and limited within the range of permissible output torques is determined for the candidate engine input torque. A preferred input torque is determined.
209 Citations
14 Claims
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1. Method for controlling a powertrain system including an engine, a transmission and a torque machine connected to an energy storage device, the transmission operative to transfer power between the engine and the torque machine and an output member coupled to a driveline coupled to a wheel including an actuable friction brake, the torque machine operative to react torque transferred from the wheel through the driveline to the output member of the transmission, the engine selectively operative in an all-cylinder state and a cylinder deactivation state and selectively operative in a fueled state and a fuel cutoff state, the method comprising:
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monitoring operator torque requests comprising operator inputs to a brake pedal and an accelerator pedal; detecting a braking event based upon the operator torque requests; determining a net predicted output torque corresponding to the operator inputs to the brake pedal and the accelerator pedal and determining a predicted accelerator output torque corresponding to the operator input to the accelerator pedal; determining a range of permissible output torques, said range defined by the net predicted output torque and the predicted accelerator output torque, said range further limited based upon a minimum output torque as a function of a minimum input torque; evaluating candidate input torques from the engine for each of the engine states and determining corresponding candidate output torques reactable through the output member of the transmission to the driveline, the candidate output torques limited within the range of permissible output torques; determining power costs for operating the transmission for the candidate input torques; and identifying a preferred engine state and a preferred input torque comprising the candidate input torque and the corresponding engine state having a minimum power cost for operating the transmission during the braking event. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. Method for controlling a powertrain system including an engine, a transmission and a torque machine connected to an energy storage device, the transmission operative to transfer power between the engine and the torque machine and an output member coupled to a driveline coupled to a wheel including an actuable friction brake, the torque machine operative to react torque transferred from the wheel through the driveline to the output member of the transmission, the method comprising:
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detecting a braking event based upon operator torque requests comprising operator inputs to a brake pedal and an accelerator pedal; determining a net predicted output torque corresponding to the operator inputs to the brake pedal and the accelerator pedal and determining a predicted accelerator output torque corresponding to the operator input to the accelerator pedal; determining a range of permissible output torques, said range defined by the net predicted output torque and the predicted accelerator output torque said range further limited based upon a minimum output torque as a function of a minimum input torque; evaluating candidate input torques from the engine and determining corresponding candidate output torques limited by the range of permissible output torques and reactable through the output member of the transmission to the driveline; determining corresponding power costs for operating the powertrain to achieve the candidate output torque at the candidate input torque; and identifying a preferred input torque comprising the candidate input torque that minimizes the power costs. - View Dependent Claims (9, 10, 11, 12, 13)
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14. Method for controlling a transmission for a hybrid powertrain system, said transmission operative to transfer power between an input member and a torque machine and an output member, the method comprising:
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monitoring operator torque requests associated with braking and acceleration; detecting a braking event based upon the operator torque requests; determining a net predicted output torque corresponding to the operator torque requests associated with braking and acceleration and determining a predicted accelerator output torque corresponding to the operator torque request associated with acceleration; determining a range of permissible output torques, said range defined by the net predicted output torque and the predicted accelerator output torque said range further limited based upon a minimum output torque as a function of a minimum input torque; evaluating candidate input torques to the input member and determining corresponding candidate output torques reactable through the output member of the transmission, the candidate output torques limited within the range of permissible output torques; determining power costs for operating the transmission at each of the candidate input torques; and identifying a preferred input torque comprising the candidate input torque having a minimum power cost for operating the transmission during the braking event to achieve the operator torque requests.
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Specification