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 |
20100250039 | Method And System For Initiating Starting Of An Engine In A Hybrid Electric Vehicle - A system and method is provided for initiating starting of an engine in a hybrid electric vehicle (HEV) for a first time since a vehicle drive start request. Based on a predetermined fluid temperature and a powertrain fluid temperature from at least one of the powertrain elements in the HEV, it is determined whether energy from the engine is demanded. When the energy from the engine is demanded, the engine is started to provide energy for at least one of heating of a cabin compartment in the HEV and lubrication of a portion of powertrain elements in the HEV. | 09-30-2010 |
20110164993 | AUTOMOTIVE VEHICLE AND METHOD FOR CONTROLLING POWER CONSUMPTION OF A COMPRESSOR THEREIN - A method for controlling power consumption of a compressor of an automotive vehicle climate system may include identifying an energy source providing energy to power the compressor and selecting an operating parameter of the climate system based on the identified energy source to control power consumption of the compressor. | 07-07-2011 |
20120091959 | VEHICLE GUIDANCE SYSTEM WITH INTERFACE - A vehicle guidance system is provided with a controller configured to receive input signals indicative of an instantaneous charging port position relative to an external charging pad and a charging status. The controller is further configured to transmit a vehicle status signal in response to the input signals. An interface communicates with the controller, and is configured to display a vehicle position indicator and a charging status message in response to the vehicle status signal. | 04-19-2012 |
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 |
20130066525 | VEHICLE SHUT-DOWN FUNCTIONALITY FOR PEPS-EQUIPPED VEHICLES - A vehicle comprises a plurality of control module structures. A first control module structure is configured for determining a current motive mode of the vehicle. A second control module structure is configured for determining information indicating that a driver of the vehicle has left the vehicle unattended while the vehicle is in a motive-enabled mode. A third control module structure is configured for causing a secure idle mode to be implemented as a function of determining the information indicating that the driver of the vehicle has left the vehicle unattended while the vehicle is in the motive-enabled mode. Implementing the secure idle mode can include inhibiting the vehicle from being driveable until a driver access code is successfully received and authenticated by the vehicle. | 03-14-2013 |
20130187590 | SYSTEM AND METHOD FOR VEHICLE POWER MANAGEMENT - A power management system for a vehicle having wheels and an electric machine operable to provide torque to drive at least one of the wheels includes a first energy storage system capable of supplying power to operate the electric machine. The system also includes a second energy storage system capable of supplying power directly to at least one vehicle load at a lower voltage than the first energy storage system. A voltage conversion device is operable to reduce a voltage of the power supplied by the first energy storage system to the lower voltage to charge the second energy storage system when the vehicle is in a key-off state. | 07-25-2013 |
20130221741 | LIMITED OPERATING STRATEGY FOR AN ELECTRIC VEHICLE - A vehicle is provided with a climate control system and a battery that is connected to the climate control system for supplying power. The vehicle also includes at least one controller that is configured to receive input indicative of a battery power limit and a battery state of charge (BSOC). The at least one controller is also configured to disable the climate control system and reduce the battery power limit to an intermediate power limit, when the BSOC is less than a discharge limit. | 08-29-2013 |
20130226377 | CONTROLLED SHUTDOWN OF AN ELECTRIC VEHICLE - A vehicle is provided with a motor that is configured to provide drive torque and to facilitate regenerative braking. The vehicle also includes a controller that is configured to receive input that is indicative of a vehicle speed and a battery state of charge (BSOC), and to disable the drive torque when the BSOC is less than a maximum discharge limit. The controller is also configured to activate regenerative braking when the BSOC is less than the maximum discharge limit and the vehicle speed is greater than a predetermined speed. | 08-29-2013 |
20130249470 | AUTOMOTIVE VEHICLE CHARGE SYSTEM - A vehicle charging system includes a base plate having an inclined surface defining at least a portion of a recess, and an arm arrangement having a base end portion movably attached to the base plate, a vehicle end portion, a spring-loaded element attached to the base end portion and in contact with the base plate, and a primary charge pad attached to the vehicle end portion. The arm arrangement has a retracted position in which at least a portion of the primary charge pad is disposed within the recess and an extended position in which the primary charge pad is spaced away from the base plate. The spring-loaded element is arranged to move along the inclined surface as the arm arrangement moves between the retracted and extended positions. | 09-26-2013 |
20130268182 | ENGINE OPERATION FOR PLUG-IN HYBRID ELECTRIC VEHICLE - A method, comprising propelling a vehicle with an engine and a motor starting the engine if energy stored in an energy storage device is greater than an upper threshold level when a contaminant amount in the engine oil is greater than a threshold amount. In this way, it is possible to harmonize fuel degradation along with oil degradation, while still providing efficient vehicle and engine operation | 10-10-2013 |
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 |
20140021913 | VEHICLE BATTERY CHARGING SYSTEM AND METHOD - In at least one embodiment, a vehicle includes a battery and an inductive charge plate electrically connected with the battery. The vehicle further includes at least one controller configured to, in response to detecting an authenticated charge system, cause an initiation signal to be transmitted such that the charge system initiates charging of the battery via the charge plate and cause an association signal to be intermittently or continuously transmitted such that charging of the battery via the charge plate is maintained. | 01-23-2014 |
20140021914 | VEHICLE CHARGING SYSTEM - A vehicle is provided comprising a battery, a charge plate electrically connected to the battery, and a thermal sensor configured to output a signal indicative of a sensed temperature. The thermal sensor can be positioned to determine temperature in the area proximate to the charge plate. The vehicle further includes at least one controller configured to (a) cause an association signal to be repeatedly transmitted during a battery charge procedure such that charging of the battery via the charge plate is maintained, and (b) in response to the sensed temperature exceeding a primary threshold, cause the repeated transmission of the association signal to be interrupted such that charging of the battery ceases. | 01-23-2014 |
20140067237 | METHOD TO LIMIT TEMPERATURE INCREASE IN A CATALYST AND DETECT A RESTRICTED EXHAUST PATH IN A VEHICLE - A vehicle has an engine, an exhaust aftertreatment system, an electric machine, and a controller configured to, in response to an actual engine torque output being less than an inferred engine torque, shut down the engine. A vehicle has an engine, an exhaust aftertreatment system, an electric machine, and a controller configured to, in response to an actual engine torque output being less than a first threshold and a torque request to the engine being greater than a second threshold, set a diagnostic code. A method includes receiving an actual engine torque output, receiving an engine torque request, and shutting down the engine when the actual engine torque output is less than a first threshold and the engine torque request is greater than a second threshold for a predetermined time period to limit temperature increase of a catalyst. | 03-06-2014 |
20140109872 | PHEV Heating Modes to Provide Cabin Comfort - A vehicle is disclosed that has multiple coolant paths selected by control of a valve. A valve system is configured to direct coolant from an engine to a heat exchanger according to a difference between a temperature associated with the engine and a temperature associated with the heat exchanger. The valve system is also configured to direct coolant from the engine to an electric heater and to, in response to a heat demanded from the heat exchanger being greater than a heat capability of the electric heater, request the engine to run. A method is disclosed for controlling a valve to change from an isolation position in which the valve isolates coolant circulating through an electric heater and the valve from coolant circulating through an engine to a non-isolation position in which the valve directs coolant from the engine to the electric heater. | 04-24-2014 |
20140114511 | FUEL MAINTENANCE MONITOR FOR A PLUG-IN HYBRID VEHICLE - A vehicle has an engine, a fuel tank, and a controller configured to selectively operate the engine, during one or more drive cycles, until a specified fraction of fuel from the tank has been consumed in response to expiration of a predefined time period to limit fuel degradation. A powertrain system has a traction battery, an engine, a fuel tank, and a controller configured to selectively operate the engine in response to a quality of fuel in the tank being below a threshold until a specified fraction of fuel has been consumed, thereby limiting fuel degradation. A method of controlling a vehicle includes, in response to expiration of a predefined time period, selectively operating an engine, during one or more vehicle drive cycles, such that state of charge of a traction battery is generally maintained until a specified fraction of fuel in a fuel tank has been consumed to limit degradation of the fuel. | 04-24-2014 |
20140114512 | USER OVERRIDE FOR ELECTRIC-ONLY OPERATION OF A HYBRID VEHICLE - A vehicle and a method of controlling the vehicle are provided. The vehicle controller is configured to (i) in response to the user interface receiving input selecting an electric-only operating (EV) mode, disable the engine such that the vehicle is propelled by the electric machine, (ii) in response to the user interface receiving input overriding EV mode, re-enabling the engine for a predetermined time period. A vehicle is provided with a controller. In response to input selecting an electric-only operating (EV) mode, an engine is disabled such that the vehicle is propelled by an electric machine. In response to user power demand being greater than power available during the EV mode, a prompt is generated inquiring whether to override the EV mode. In response to user confirmation to override the EV mode, the engine is re-enabled to satisfy the user power demand. | 04-24-2014 |
20140114513 | SYSTEM OVERRIDE FOR USER SELECTED ELECTRIC-ONLY OPERATION OF A HYBRID VEHICLE - A vehicle, a control system for a vehicle having a user interface, and a method of controlling a vehicle are provided. In response to input selecting an electric-only operating mode, an engine is disabled such that the vehicle is propelled by an electric machine. In response to detecting a predefined vehicle state while the electric-only operating mode is selected, the engine is re-enabled such that the vehicle is propelled by at least one of the engine and electric machine. In response to detecting an absence of the predefined vehicle state while the electric-only operating mode is selected, the engine is disabled such that the vehicle is propelled by the electric machine. | 04-24-2014 |
20140114514 | DELAYED ELECTRIC-ONLY OPERATION OF A HYBRID VEHICLE - A vehicle and a method for controlling the vehicle include a controller configured to, in response to a user command to delay electric-only operation of the vehicle, selectively operate an electric machine and an engine to propel the vehicle such that a state of charge of a traction battery electrically connected with the electric machine is generally maintained at a target value within a predefined range of states of charge. A vehicle includes a powertrain and a controller. The controller is configured to (i) operate the powertrain in a charge deplete mode and a charge sustain mode, and (ii) in response to a user request, operate the powertrain in the charge sustain mode if the state of charge is within a predefined range of states of charge when the request is received. | 04-24-2014 |
20140114515 | SYSTEM AND METHOD FOR CONTROLLING A VEHICLE HAVING AN ELECTRIC HEATER - A system and method for operating an electric heater to determine heater functionality is based on actual heater power consumption relative to expected heater power consumption during operating conditions where electrical power consumption by other system components can be accurately estimated. One or more components, including a second heating source, may be controlled based on the heater functionality. The system may include a hybrid vehicle having an engine, an electric heater and heater core, a valve positioned to route coolant through the engine and/or the electric heater, and a controller configured to store a diagnostic code and/or start the engine when the electric heater is commanded on and when the actual energy consumption of the electric heater is below a corresponding threshold. | 04-24-2014 |
20140350825 | VEHICLE SHUT-DOWN FUNCTIONALITY FOR PEPS-EQUIPPED VEHICLES - A vehicle comprises a plurality of control module structures. A first control module structure is configured for determining a current motive mode of the vehicle. A second control module structure is configured for determining information indicating that a driver of the vehicle has left the vehicle unattended while the vehicle is in a motive-enabled mode. A third control module structure is configured for causing a secure idle mode to be implemented as a function of determining the information indicating that the driver of the vehicle has left the vehicle unattended while the vehicle is in the motive-enabled mode. Implementing the secure idle mode can include inhibiting the vehicle from being driveable until a driver access code is successfully received and authenticated by the vehicle. | 11-27-2014 |
20150032307 | FUEL TANK ISOLATION VALVE CONTROL - Methods and systems for controlling a fuel tank isolation valve coupled to a fuel tank in a vehicle are disclosed. In one example approach, a method comprises, in response to a refuel request, actuating a fuel tank isolation valve to vent a fuel tank for refueling; and, in response to a pressure in the fuel tank below a threshold pressure after a predetermined time duration, discontinuing actuation of the fuel tank isolation valve to seal the fuel tank. | 01-29-2015 |