Patent application number | Description | Published |
20080215201 | Method for Controlling a Hybrid Electric Vehicle Powertrain with Divided Power Flow Paths - A method is disclosed for enhancing reverse driving torque in a hybrid electric vehicle powertrain in which an electric motor is used for providing forward driving torque as well as reverse driving torque. An electric generator, functioning as a motor, supplies an added reverse driving torque using a gearset in which the engine provides a reverse driving reaction torque for the gearset. | 09-04-2008 |
20090105037 | METHOD AND SYSTEM FOR CONTROLLING A PROPULSION SYSTEM OF AN ALTERNATIVELY POWERED VEHICLE - Inverters of a hybrid electric vehicle are cooled by a coolant. Expected temperature differences between the inverters and the coolant are determined based on vehicle parameters. Actual temperature differences between the inverters and the coolant are compared to the expected temperature differences. A maximum output torque is reduced if the actual temperature differences exceed the expected temperature differences. | 04-23-2009 |
20090140521 | GENERATOR POWER-BASED COLD START STRATEGY - The method of the invention controls engine speed during engine starting for a hybrid electric vehicle that includes a battery, an engine and a generator, acting as a motor, whereby generator torque assists the engine to develop a stable running speed throughout an engine start event, particularly a cold engine start event, without violating battery power limits. | 06-04-2009 |
20090150015 | Charge Depleting Energy Management Strategy for Plug-In Hybrid Electric Vehicles - A method for managing power distribution from an engine and a battery in a plug-in hybrid electric vehicle whereby battery power is used to meet a driver demand for power and engine power complements battery power when either battery state-of-charge limit or battery discharge power limit would be exceeded, an external power grid being used to restore battery power following battery charge depletion. | 06-11-2009 |
20090210108 | Engine Speed Control for an Engine in a Hybrid Electric Vehicle Powertrain for Improved Noise, Vibration and Harshness - A control strategy is disclosed for regulating speed of an engine in a hybrid electric vehicle powertrain that includes an electric motor and gearing. An electrical power flow path and a mechanical power flow path are established. Electrical power is coordinated with mechanical power to effect an arbitrated engine speed for a given power demand that will result in an acceptable noise, vibration and harshness (NVH) characteristic for the powertrain and an acceptable powertrain efficiency. | 08-20-2009 |
20100063704 | HYBRID ELECTRIC VEHICLE POWERTRAIN WITH ENHANCED REVERSE DRIVE PERFORMANCE - A method for controlling a hybrid electrical vehicle powertrain having an engine that is a source of power during forward drive and an electric motor that is a source of reverse driving power. A desired engine power during reverse drive is achieved by operating the engine at an increased speed that is greater than an optimum speed for a given engine power. | 03-11-2010 |
20100323844 | MOTOR 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. A method of controlling the vehicle includes determining a desired motor torque, and calculating a desired total motor power based on the desired motor torque, current motor speed, and a loss map indicating motor losses as a function of motor torque and motor speed. The desired total motor power is limited to system limits based on traction battery charge and discharge power limits. A motor torque command which will achieve the limited total motor power is calculated. The motor is controlled based on the motor torque command. | 12-23-2010 |
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 |
20110307137 | GENERATOR POWER-BASED COLD START STRATEGY - A system and method for controlling engine starting in a hybrid electric vehicle that includes a battery, an engine and a generator acting as a motor control generator power during engine starting so that generator torque complements or assists the engine to develop a stable running speed throughout an engine start event, particularly a cold engine start event, without violating battery power limits. | 12-15-2011 |
20120116626 | Method for Increasing Fuel Economy of Plug-In Hybrid Electric Vehicles - A method for increasing fuel economy of a vehicle such as a plug-in hybrid electric vehicle (PHEV) having an engine and a battery each configured to supply power to propel the vehicle includes supplying power from the battery and operating the engine below peak efficiency to supply from the engine only the difference in power between a demanded power and the power which the battery can deliver when the demanded power exceeds the power which the battery can deliver. | 05-10-2012 |
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 |
20150025721 | HYBRID VEHICLE ENGINE WARM-UP - A hybrid powertrain system includes an engine, an electric machine, a battery pack, and at least one controller. If the controller detects that a temperature associated with the engine is less than a predefined value, it may request power output by the engine to increase such that the temperature increases to a threshold temperature if a state of charge of the battery pack is less than one hundred percent. | 01-22-2015 |
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 |