Patent application number | Description | Published |
20100211298 | METHOD FOR STARTING A VEHICLE ENGINE - A method for starting a vehicle engine includes determining a throttle angle command output based on a throttle adjustment parameter. The throttle angle command output may be further adjusted based on a learned compensation adder and may be based on a number of vehicle engine starts. A throttle angle corresponding to the throttle angle command output is provided. | 08-19-2010 |
20110015811 | GENERATOR POWER CONTROL - A hybrid electric vehicle includes an internal combustion engine, a traction battery, and a hybrid electric powertrain including an electric motor powered by the traction battery and an electric generator coupled to the internal combustion engine and the traction battery. A control method includes determining minimum and maximum engine power limits based on desired wheel torque and traction battery charge and discharge power limits. A generator torque command is calculated to track engine speed to the desired engine speed. The generator torque command is limited based on the minimum and maximum engine power limits to limit engine power transmitted to the powertrain. | 01-20-2011 |
20120262102 | Phase Delayed Active Motor Damping to Mitigate Electric Vehicle Driveline Oscillations - An active motor damping system and method for dampening oscillations of a driveline in a vehicle includes generating a commanded torque indicative of an actual torque which would counteract the oscillations if delivered by a motor to the driveline. The commanded torque is adjusted as a function of a phase lag between the commanded torque and an actual torque which the motor would deliver in response to the commanded torque such that in response to the adjusted commanded torque the motor delivers the actual torque which counteracts the oscillations. | 10-18-2012 |
20130289809 | REGENERATIVE BRAKING CONTROL TO MITIGATE POWERTRAIN OSCILLATION - A vehicle is provided with at least one wheel and a motor that is coupled to the wheel. The motor is configured to provide regenerative brake torque. The vehicle also includes at least one controller that is configured to predict future powertrain oscillation based on input indicative of a wheel speed and a total brake torque. The controller is also configured to control the motor to reduce the regenerative brake torque prior to the powertrain oscillation. | 10-31-2013 |
20140031169 | METHOD AND STRATEGY TO DETECT THE LOCK-UP OF PLANETARY GEAR IN POWER SPLIT HYBRID VEHICLES - A system and method for controlling a hybrid electric vehicle powertrain having an engine, a generator, and a motor connected via a planetary gear set to detect lockup in the planetary gear set and control the powertrain in response. When torque is distributed in an electric mode of operation with the engine disabled, the generator is disabled based at least upon a difference between actual generator speed and an expected generator speed exceeding a threshold, indicating a lockup in the planetary gear set. When the engine is activated and distributes torque through the powertrain, the engine and the generator are disabled based at least upon a difference between engine acceleration and an expected engine acceleration exceeding a first threshold, and a difference between engine speed and ring gear speed being less than a second threshold. | 01-30-2014 |
20140062348 | CONTROL STRATEGY FOR AN ELECTRIC MACHINE IN A VEHICLE - A hybrid-electric vehicle method of controlling a hybrid electric vehicle is provided. The vehicle includes a traction battery, at least two electric-machines, and a controller. The controller is configured to, in response to a faulted condition one of the electric-machines during a drive cycle, command the other of the electric-machines to function in a mode in which torque output is restricted to a threshold value that depends on a voltage of the battery to maintain vehicle propulsion during the drive cycle. | 03-06-2014 |
20140067173 | VEHICLE ELECTRIC MACHINE CONTROL STRATEGY - A vehicle includes at least one electric machine and an inverter for selectively transmitting power to the electric machine. The inverter includes a power module. At least one controller controls the electric machine and the inverter. The controller at least temporarily disables the inverter during a power cycle such that power to the electric machine is inhibited. In response to the disabling of the inverter, the controller resets the duty cycle commands for the power module, and re-enables the inverter during the same power cycle. | 03-06-2014 |
20140100726 | CONTROL STRATEGY FOR AN ELECTRIC MACHINE IN A VEHICLE - A vehicle is provided including an electric machine and at least one controller. The controller, or controllers, are configured to, in response to a reset of the at least one controller while a speed of the vehicle is greater than a threshold value, provide a current command to the electric machine in accordance with calibration values calculated prior to the reset such that inoperability of the electric machine due to the reset is less than one second. | 04-10-2014 |
20140277875 | HYBRID ELECTRIC VEHICLE DRIVELINE ACTIVE DAMPING AND TRANSIENT SMOOTHNESS CONTROL - A method and system for controlling a hybrid electric vehicle include controlling torque in a traction motor in response to a provisional motor torque that has been adjusted based on a difference between a measured traction motor speed and a calculated vehicle speed and filtered to attenuate a resonant driveline frequency. | 09-18-2014 |
20140277881 | HYBRID-ELECTRIC VEHICLE ENGINE STARTING METHOD AND SYSTEM - A system or method for controlling an engine in a hybrid vehicle include cranking the engine subject to a first torque limit in response to an engine start request, receiving an engine rotational position signal, and cranking the engine subject to a second torque limit in response to the engine rotational position signal indicating a number of engine revolutions being less than a threshold value. | 09-18-2014 |
20150060173 | SYSTEM AND METHOD FOR HYBRID VEHICLE CONTROL DURING WHEEL SLIP EVENTS TO LIMIT GENERATOR SPEED - A system an method for controlling a hybrid vehicle having a transmission coupled to vehicle wheels, an internal combustion engine, a planetary gearset coupled to the engine and to a differential output shaft to drive the vehicle wheels, a traction motor coupled through gearing to the differential output shaft and the planetary gearset, a generator coupled to the planetary gearset and electrically coupled to the fraction motor, a traction battery coupled to the generator and the traction motor, and at least one controller in communication with the engine, the traction motor, and the generator include limiting engine speed in response to a wheel slip event to an engine speed limit based on motor speed and generator speed to prevent the generator speed from exceeding a corresponding threshold when the wheel slip event terminates. | 03-05-2015 |
20150066260 | METHOD AND SYSTEM TO ENABLE A COAST-DOWN MODE - A vehicle may include at least one electric machine, a traction battery, and a voltage boost converter electrically connecting the at least one electric machine and traction battery. The vehicle may further include at least one controller programmed to, in response to a request for drive mode while in a passive neutral mode, enable the boost converter and drive an output voltage of the boost converter to a predetermined target. The controller may be further programmed to, in response to the output voltage achieving the predetermined target, enable the at least one electric machine and drive a current through the at least one electric machine to zero such that an output torque of the at least one electric machine is approximately zero; and in response to the current achieving approximately zero, increase the current through the at least one electric machine such that the output torque is greater than zero. | 03-05-2015 |
20150066261 | METHOD AND SYSTEM TO ENABLE A COAST-DOWN MODE - A vehicle includes an engine and a non-selectable-gear transmission having an electric machine mechanically coupled to the engine. The vehicle may have one or more controllers programmed to, in response to a request for passive neutral mode, pull-down the engine and inhibit engine pull-up while disabling the electric machine such that the vehicle coasts with minimal rotational inertia and electrical losses. The one or more controllers may be further programmed to, in response to a subsequent request for drive mode during the passive neutral mode, permit engine pull-up while enabling the electric machine such that the vehicle resumes drive. | 03-05-2015 |
20150066333 | CONTROL STRATEGY FOR A HYBRID VEHICLE WITH A DISABLED MOTOR - A method for controlling an engine in a hybrid electric vehicle according to the present disclosure includes, in response to a drive motor being unavailable, commanding an engine power equal to the lesser of a first and a second power. The first power is sufficient to satisfy a driver wheel torque request at the current engine speed, and the second power corresponds to a maximum engine torque available at a target engine speed, where the target engine speed is selected to attain a desired battery state of charge. | 03-05-2015 |