Patent application number | Description | Published |
20080297136 | SYSTEM AND METHOD TO DETECT, IN A VEHICLE, BLOCKAGE OF AN AIRFLOW PASSAGE TO A POWER STORAGE UNIT - A driver of a vehicle is alerted if an air passage from an air source to a battery becomes blocked. The determination as to whether the air passage is blocked may be based on the temperature of the battery, the airflow through the air passage, and the power to a fan used to move air through the air passage. | 12-04-2008 |
20080306670 | Power Boost System and Method - A power boost system and method. An illustrative embodiment of the power boost system includes an operator interface having a system activation button; a vehicle system controller connected to the operator interface; and at least one of an engine system controller, a battery system controller and an accessory system controller connected to the vehicle system controller. | 12-11-2008 |
20090064696 | AUTOMOTIVE CLIMATE SYSTEM AND METHOD OF CONTROLLING SAME - An alternatively powered vehicle includes electrically powered cabin heaters and coolers. An operator sends a signal to his vehicle instructing the vehicle to bring a cabin temperature to a desired temperature. In response, the vehicle determines whether a battery state of charge exceeds a threshold and if so, activates the appropriate cabin heater or cooler to condition cabin air to the desired temperature. | 03-12-2009 |
20090076696 | SYSTEM AND METHOD FOR MANAGING A POWERTRAIN IN A VEHICLE - A vehicle include a first disconnect disposed between a prime mover of the vehicle and a certain one of the vehicle drive wheels. The first disconnect is operable to connect and disconnect the prime mover to and from the certain one of the drive wheels. A second disconnect is disposed between the powertrain and the certain one of the drive wheels, and is operable to connect and disconnect the certain one of the drive wheels to and from the powertrain when the first disconnect is engaged. A control system and method are configured to control operation of at least the first and second disconnects. Through selective control of the disconnects, the system can be automatically placed in a four-wheel-drive mode based on predetermined criteria, or the desirability of the four-wheel-drive mode can be indicated to the vehicle operator in a passive version of the control system and method. | 03-19-2009 |
20090186734 | VEHICLE HYBRID POWERTRAIN SYSTEM AND METHOD OF OPERATING SAME - A torque-producing machine and planetary gear set biases torque between primary and secondary drivelines of a vehicle. A first element of the planetary gear set is connected to an upstream torque source. A second element of the planetary gear set is connected to the secondary driveline. A third element of the planetary gear set is connected to a torque-producing biasing machine. | 07-23-2009 |
20090321156 | HYBRID AUTOMOTIVE POWERTRAIN SYSTEM AND METHOD OF OPERATING SAME - A hybrid powertrain system for a vehicle includes an electric machine, a gear set mechanically connected with the electric machine, and a clutch mechanically coupled with at least one of a primary and secondary driveline assembly. The electric machine is configured to selectively provide motive power to at least one of the primary and secondary driveline assemblies. The gear set is configured to permit differential rotation between the primary and secondary driveline assemblies. The clutch is configured to selectively transfer torque between the primary and secondary driveline assemblies. | 12-31-2009 |
20100250056 | System and Method for Improving Vehicle Performance on Grade - A system and method for improving vehicle performance on a grade comprises an engine, an acceleration sensors a global positioning system, a controller and a torque transfer device. The controller determines the grade from information obtained from the global positioning system and the accelerator sensor. The controller calculates a dynamic weight shift of the vehicle from a first wheel to a second wheel due to acceleration and a static weight shift of the vehicle from the first set of wheels to the second set of wheels due to gravity and the grade. The controller then determines the maximum amount of torque that can be transmitted to the first wheel before the first wheel slips and avoids slipping by preemptively diverting torque from the first wheel to the second wheels before the first wheel slips. | 09-30-2010 |
20100295391 | Cooling System And Method For An Electric Motor - An electric motor which has a separate end cap heat exchanger, through which a liquid coolant is passed, is disclosed. In one example embodiment, the electric motor is a traction motor or motor-generator in a hybrid electric vehicle having an internal combustion engine. Additionally, in one embodiment, the heat exchanger has a low-temperature coolant loop configured to extract energy from the motor coolant. The electric motor may be installed in a variety of vehicles or other applications having greatly differing cooling requirements. By placing the heat exchanger and control componentry in the end cap, the cooling capability of the electric motor can be changed by selecting an end cap with the appropriate heat transfer characteristics and control componentry to provide the desired cooling. Consequently, a single electric motor, with a variety of end cap choices, can be used in a variety of applications. | 11-25-2010 |
20100312447 | Regenerative Brake Control System and Method - A regenerative brake control system for a vehicle includes a vehicle controller, a driveline torque distribution device interfacing with the vehicle controller, an electric machine interfacing with the driveline torque distribution device, a plurality of wheels coupled to the electric machine and at least one traction condition input indicating traction of the plurality of wheels provided to the vehicle controller. The vehicle controller engages the driveline torque distribution device and the electric machine apportions regenerative brake torque to the wheels in proportion to the traction of the wheels. A regenerative brake control method for a vehicle is also disclosed. | 12-09-2010 |
20110015844 | AUTOMOTIVE VEHICLE - An automotive vehicle may include one or more controllers, a braking system and an electric machine. The one or more controllers may be configured to determine whether the vehicle is about to roll over. The braking system may be configured to apply a braking torque for a time period, under the command of the one or more controllers, to a front traction wheel to cause the front traction wheel to skid or slide relative to a road if the vehicle is about to roll over. The electric machine may be configured to generate a propulsion torque, under the command of the one or more controllers, during the time period. | 01-20-2011 |
20110165829 | AUTOMOTIVE VEHICLE AND METHOD FOR OPERATING CLIMATE SYSTEM OF SAME - An automotive vehicle may include a container, a battery disposed within the container and configured to provide motive power for the vehicle, and a battery climate system configured to move air from the cabin to the container. The vehicle may also include at least one controller configured to, while the vehicle is in a non-propulsion mode, receive a request to activate the battery climate system and, in response to the request, activate the battery climate system. | 07-07-2011 |
20110168463 | System And Method For Electrostatic Air Filtering In An Automotive Vehicle - A system and method is provided for electrostatic air filtering in automotive vehicles, such as electric and hybrid electric vehicles. The system includes an electrical distribution system and an electrostatic filtering system having discharge electrodes and an accumulation electrode. The distribution system is in high-voltage electrical communication with the filtering system as well as an electric motor and a high-voltage energy storage device in the vehicle. In operation, the distribution system distributes high-voltage electric power to the filtering system. The filtering system receives the high-voltage electric power to generate a high-voltage electrostatic potential between the accumulation electrode and the discharge electrodes to remove particulates from air flowing through a region of the electrostatic filtering system. | 07-14-2011 |
20110178670 | System And Method For Indicating An Efficiency Level of Energy Usage By An Automotive Vehicle - A system and method is provided for indicating an efficiency level of energy usage by an automotive vehicle to a passenger in the vehicle. The system includes a computer-readable storage medium, a controller, an interior-lighting system, and a display unit. The controller processes energy usage signals to obtain the given operating mode of the vehicle as well as indications of energy usage amounts that the passenger can control. The controller determines the efficiency level of energy usage by the vehicle based on the energy usage amounts and the given operating mode. The interior-lighting system illuminates at least a portion of the passenger compartment with ambient light having defined characteristics including a luminance and a color, the ambient light indicating the efficiency level. The display unit displays a graphical representation of the efficiency level. | 07-21-2011 |
20110199199 | Pedestrian Alert System And Method - A pedestrian warning or alert system and method are disclosed. The warning system is mounted on an electric vehicle. The warning system includes a front speaker system, a rear speaker system, a front pedestrian detector, a rear pedestrian detector, and an electronic control unit (ECU) electronically coupled to the front speaker system, the rear speaker system, the front pedestrian detector, and the rear pedestrian detector. The ECU commands the front speaker system to emit a warning sound based on the front pedestrian detector detecting a pedestrian-shaped object and commands the rear speaker system to emit a warning sound based on the rear pedestrian detector detecting a pedestrian-shaped object. The ECU is coupled to a microphone, the signal of which is used to estimate an ambient noise level. The intensity and frequency of the warning sound commanded from the front and/or rear speaker system is based on the ambient noise level. | 08-18-2011 |
20110202223 | VEHICLE BATTERY STATE OF CHARGE HOLD FUNCTION AND ENERGY MANAGEMENT - A method and a system for controlling a vehicle is provided. The vehicle has first and second propulsion devices. The vehicle determines a calculated decline in state of charge (SOC) for a charge depleting mode for a battery coupled to the first propulsion device. The vehicle is operated to achieve the calculated decline in SOC. The vehicle operates the second propulsion device for at least a predetermined time after the second propulsion device is turned on during the charge depleting mode. | 08-18-2011 |
20110251782 | Method for Forecasting Vehicle Fuel Economy - A method for determining and comparing vehicle fuel economy for several different preselected vehicles. The method includes selecting a plurality of vehicles to compare. The user inputs a driving route and a driving style through a user interface into the system. The system utilizes predetermined vehicle fuel economy information along with the driving route and driving style to calculate fuel economy values for each of the selected vehicle models. The system then displays the fuel economy values for each of the selected vehicles to provide a comparison between the selected vehicles over the predetermined driving route using the selected driving style. | 10-13-2011 |
20110276205 | VEHICLE AND METHOD FOR CONTROLLING AN ELECTRIC MACHINE AND/OR ENGINE THEREIN - A total power demand including a wheel power demand may be observed. The wheel power demand may be modified to determine a modified total power demand including a modified wheel power demand if the total power demand falls within a target range of power values defined by upper and lower threshold power values such that the modified total power demand is generally equal to the lower threshold power value. | 11-10-2011 |
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 |
20120306412 | VEHICLE ELECTRIC DRIVE AND POWER SYSTEMS - An automotive electric drive system may include an electric power source, an electric machine, and a DC-DC power converter electrically connected between the electric power source and the electric machine. The DC-DC power converter may include an inductor and a first switch each disposed in a different current path connecting the electric power source and the electric machine. The currents paths may be electrically in parallel. | 12-06-2012 |
20130073113 | VEHICLE AND METHOD FOR ESTIMATING A RANGE FOR THE VEHICLE - A method to control a vehicle includes assigning a predicted driving pattern to a predicted path for the vehicle, and providing a range for the vehicle using the predicted energy efficiency and an amount of energy available to the vehicle. The predicted driving pattern has an associated predicted energy efficiency. A vehicle includes a propulsion device coupled to wheels of the vehicle via a transmission, and a controller electronically coupled to the propulsion device. The controller is configured to: (i) assign a predicted driving pattern to a predicted path for the vehicle, the predicted driving pattern having a predicted energy efficiency, and (ii) provide a range for the vehicle using the predicted energy efficiency and an amount of energy available to the vehicle. | 03-21-2013 |
20130116866 | METHOD AND SYSTEM FOR VALVE OPERATION CONTROL - Methods and systems are provided for raising the speed of a hybrid electric vehicle operating in an electric-only mode. During conditions when the vehicle is driven only by an electric motor, vehicle speed may be raised by spinning the engine unfueled using power from a system battery, while adjusting valve operation to reduce engine pumping losses. In this way, vehicle speed may be raised more efficiently and without damaging rotating transmission components. | 05-09-2013 |
20130281257 | METHOD AND SYSTEM FOR VALVE OPERATION CONTROL - Methods and systems are provided for raising the speed of a hybrid electric vehicle operating in an electric-only mode. During conditions when the vehicle is driven only by an electric motor, vehicle speed may be raised by spinning the engine unfueled using power from a system battery, while adjusting valve operation to reduce engine pumping losses. In this way, vehicle speed may be raised more efficiently and without damaging rotating transmission components. | 10-24-2013 |
20140277874 | Information Display System And Method - A user interface for conveying tips on driving behaviors or vehicle settings that will improve vehicle efficiency may be provided. The tips may be listed on an information display along with an efficiency impact value associated with each tip. The efficiency impact values may be conveyed in terms of fuel economy, vehicle range, emissions or some other value. Accordingly, the user interface may communicate ways to improve a vehicle's efficiency, as well as quantify the potential improvement in meaningful terms. | 09-18-2014 |