Patent application number | Description | Published |
20080207380 | Wide ratio transmissions with multliple gear ratios - The transmission has a plurality of members that can be utilized in powertrains to provide at least seven forward speed ratios and one reverse speed ratio. The transmission includes three planetary gear sets having seven torque-transmitting mechanisms and two fixed interconnections. The powertrain includes an engine and torque converter that is continuously connected to at least one of the planetary gear members and an output member that is continuously connected with another one of the planetary gear members. The seven torque-transmitting mechanisms provide interconnections between various gear members and with the transmission housing, and are operated in combinations of three to establish at least seven forward speed ratios and at least one reverse speed ratio. | 08-28-2008 |
20080248909 | ELECTRICALLY VARIABLE TRANSMISSIONS HAVING TWO PLANETARY GEAR SETS AND CLUTCHED INPUT - The electrically variable transmission family of the present invention provides low-content, low-cost electrically variable transmission mechanisms including first and second differential gear sets, a battery, two electric machines serving interchangeably as motors or generators, four or five selectable torque transmitting devices, and possibly a dog clutch. The selectable torque transmitting devices are engaged to yield an EVT with a continuously variable range of speeds (including reverse) and at least one mechanically fixed forward speed ratio. The torque transmitting devices and the first and second motor/generators are operable to provide five operating modes in the electrically variable transmission, including battery reverse mode, EVT reverse mode, reverse and forward launch modes, continuously variable transmission range mode, and fixed ratio mode. | 10-09-2008 |
20080257310 | HYBRID POWERTRAIN WITH REVERSING ENGINE AND METHOD OF CONTROL - A powertrain is provided having an engine operable in a reverse direction so that a reverse mode is provided through an electrically variable transmission without relying on pure electric or series electric operation, and without the addition of a dedicated reverse gear. A method of controlling such a powertrain is also provided. | 10-23-2008 |
20080274852 | Wide ratio transmissions having multiple gear ratios - The transmission has a plurality of members that can be utilized in powertrains to provide at least seven forward speed ratios and one reverse speed ratio. The transmission includes three planetary gear sets having six or seven torque-transmitting mechanisms and three fixed interconnections. The powertrain includes an engine and torque converter that is continuously connected to at least one of the planetary gear members and an output member that is continuously connected with another one of the planetary gear members. The six or seven torque-transmitting mechanisms provide interconnections between various gear members and with the transmission housing, and are operated in combinations of two to establish at least seven forward speed ratios and at least one reverse speed ratio. | 11-06-2008 |
20090036246 | Hybrid Powertrain with Efficient Electric-Only Mode - A hybrid powertrain includes a hybrid electromechanical transmission and a power source. A planetary gear set having a first, a second, and a third member connects the power source with a first and a second motor/generator. A battery is operatively connected to the motor/generators for receiving power therefrom and delivering power thereto. An input member rotates with the first member, the first motor/generator rotates with the second member, and the second motor/generator rotates with the output member. A first torque-transmitting mechanism is engagable to connect the second motor/generator for rotation with the third member. The battery and the second motor/generator provide an electric-only operating mode to power the output member when the first torque-transmitting mechanism is not engaged; the power source, planetary gear set and first motor/generator thereby being disconnected from the output member during the electric-only operating mode to prevent parasitic drag. | 02-05-2009 |
20090045042 | Active material based bodies for varying frictional force levels at the interface between two surfaces - A device for selectively controlling and varying a frictional force level at an interface between two bodies, includes a first contact body having at least one surface, a second contact body having at least one surface in physical communication with the first contact body, and an active material in operative communication with a selected one or both of the first contact body and the second contact body, wherein the active material is configured to undergo a change in a property upon receipt of an activation signal wherein the change in a property is effective to change the frictional force level at the interface between the at least one surface of the first contact body and the at least one surface of the second contact body. | 02-19-2009 |
20090047197 | Active material based bodies for varying surface texture and frictional force levels - A device for selectively controlling and varying surface texture includes a body having at least one surface, and an active material in operative communication with the at least one surface, wherein the active material is configured to undergo a change in a property upon receipt of an activation signal, wherein the change in a property is effective to change a texture of the at least one surface. | 02-19-2009 |
20090093332 | ELECTRICALLY VARIABLE TRANSMISSION HAVING THREE PLANETARY GEAR SETS WITH TWO FIXED INTERCONNECTIONS - The electrically variable transmission family of the present invention provides low-content, low-cost electrically variable transmission mechanisms including first, second and third differential gear sets, a battery, two electric machines serving interchangeably as motors or generators, and five selectable torque-transfer devices. The selectable torque transfer devices are engaged in combinations of two or three to yield an EVT with a continuously variable range of speeds (including reverse) and four or five mechanically fixed forward speed ratios. The torque transfer devices and the first and second motor/generators are operable to provide five operating modes in the electrically variable transmission, including battery reverse mode, EVT reverse mode, reverse and forward launch modes, continuously variable transmission range mode, and fixed ratio mode. | 04-09-2009 |
20090210139 | Self-Tuning Active Engine Mount for Vehicles with Active Fuel Management Engine - An active engine mount assembly for counteracting resultant forces in active fuel management systems, wherein resultant forces are transmitted to a frame of a motorized vehicle generated by the deactivation of at least one cylinder in an internal combustion engine. The active engine mount assembly is fluidly connected to a hydraulic circuit. The hydraulic circuit is operatively connected to an engine crankshaft and operable to actively generate pressure pulses having frequencies self-synchronized with the rotational speed of the crankshaft. | 08-20-2009 |
20090288895 | Electric Torque Converter for a Powertrain and Method of Operating a Vehicle - An electric torque converter has a torque converter input member connected to the first node of a differential gear set representable by a lever diagram having first, second, and third nodes. A motor/generator is connected to the second node. The third node is connected to an input member of a transmission gearing arrangement. A brake is selectively engagable to ground the first node to a stationary member. Engagement of the brake provides a regenerative braking mode and an electric-only driving mode, with the motor/generator connected to the transmission gearing arrangement through the differential gear set. Various clutches may be provided for lock-up or selective connection of the engine, including arrangements which reduce motor/generator torque required for engine starting while in electric-only driving. A method of operating a vehicle maintains the engine speed at an optimum level to the extent possible given battery charge levels and operator commands. | 11-26-2009 |
20090299502 | Mechanical System with an Active Materials-Based Actuator - A mechanical system selectively imparts a prescribed motion to an output load using two or more actuators, including at least one having an active material element. The output load can be a locking member when the system is a vehicle transmission, a shuttle car of a linear system, or another device. A controller determines a total motive force required for imparting the prescribed motion, and selectively commands a combination of the actuators to provide the total motive force, apportioning the total motive force between the various actuators to optimize the performance of the system. An algorithm determines which combination of the actuators is the most suitable in moving the output load, and continuously modified this combination as needed as the output load is moved. The other actuator or actuators are then selectively energized as needed to provide the total motive force depending on this suitability determination. | 12-03-2009 |
20100198754 | METHOD OF PROVIDING MODULAR BATTERY PACKS FOR A HYBRID VEHICLE - A method of offering or providing batteries for a hybrid or electric vehicle allows the customer to choose a vehicle electrical battery power rating that will match their expected driving range needs. Specifically, the method includes offering different modular battery packs for an electric or hybrid electric vehicle. Each of the different modular battery packs has a different number of interconnected batteries, a different energy level, and is configured to be operable for providing propulsion power to the vehicle. At least one of the different modular battery packs is installed on the hybrid or electric vehicle. The method may include recharging and/or recycling used battery back modules. | 08-05-2010 |
20100234159 | HYBRID TRANSMISSION WITH INTEGRATED TORQUE MACHINE - A hybrid transmission device for a hybrid powertrain system having an integrated torque machine to transfer power among an input member, the torque machine and an output member in one of a plurality of fixed gear and continuously variable states is operative in a plurality of fixed gear states, a continuously variable state, and a torque machine state. | 09-16-2010 |
20100304924 | HYBRID POWERTRAIN WITH TORQUE-MULTIPLYING ENGINE STARTING MECHANISM AND METHOD OF CONTROLLING A HYBRID POWERTRAIN - A hybrid powertrain is provided that provides engine starting from an electric-only mode with a reduced torque load on the motor/generator. The powertrain includes an engine and a motor/generator, which may be a single motor/generator in a strong or full hybrid, but is not limited to such. The motor provides propulsion torque in an electric-only operating mode, and is configured to apply torque to a transmission input member. A first clutch is selectively engagable to connect the engine output member for common rotation with the transmission input member. An engine starting mechanism is provided that multiplies motor torque used to start the engine so that less is diverted from propelling the vehicle, enabling a smaller motor/generator to be used. A method of controlling such a powertrain is also provided. | 12-02-2010 |
20110224042 | HYBRID TRANSMISSION WITH SYNCHRONOUS SHIFT BETWEEN SERIES AND COMPOUND-SPLIT OPERATING MODES - A hybrid transmission is provided that is configured to shift between the hybrid series operating mode and the compound-split operating mode synchronously, without slipping any torque-transmitting mechanisms. The transmission includes an input member operatively connected with the engine, an output member, and a plurality of selectively engageable torque-transmitting mechanisms. A gearing arrangement and first and second motor/generators operatively connected with the gearing arrangement are also provided. A first of the torque-transmitting mechanisms is engaged to establish a hybrid series operating mode between the input member and the output member, and a second of the torque-transmitting mechanisms is engaged to establish a compound-split operating mode between the input member and the output member. The shift between the hybrid series operating mode and the compound-split operating mode is synchronous without slipping the torque-transmitting mechanisms and occurs while the engine is on. | 09-15-2011 |
20120083385 | CONTROL OF A POWERTRAIN FOR A HYBRID SYSTEM - A powertrain includes a first electric motor coupled to an internal combustion engine with a ratio changing device and a second motor selectively coupled to the engine through an engine disconnect clutch, the second motor further coupled to an input shaft of a transmission. A method to control the powertrain includes monitoring a propelling torque provided by the second motor, monitoring a speed of the second motor, determining a condition of the second motor based upon the propelling torque and the speed of the second motor, selecting a control mode for the first motor based upon the condition of the second motor and controlling the first motor, the second motor, and the engine disconnect clutch based upon the control mode. | 04-05-2012 |
20120083952 | CONTROL OF ENGINE START FOR A HYBRID SYSTEM - A powertrain includes an electric motor providing propulsion torque to a transmission input shaft, an internal combustion engine, and an engine disconnect clutch selectively providing torque transfer between the engine and the motor. A method to control a flying engine start in the powertrain includes monitoring an output torque request, determining the propulsion torque to the transmission input shaft based upon the output torque request, determining a compensation torque to be provided to the engine disconnect clutch for the flying engine start, and controlling the motor to provide a motor torque based upon a sum of the propulsion torque and the compensation torque. | 04-05-2012 |
20120142472 | HYBRID POWERTRAIN SYSTEM USING SELECTABLE ONE-WAY CLUTCHES - A hybrid powertrain system includes an input member, first and second torque machines, a differential gear set including first, second and third elements, an output member, and first, second, and third selectable one-way clutches (SOWC), each operative in one of a respective deactivated state and a respective plurality of activated states. The second torque machine is rotatably coupled to the first element of the differential gear set, and the output member is rotatably coupled to the second element of the differential gear set. The first SOWC is configurable to prevent rotation of the third element of the differential gear set in a first rotational direction when controlled to a first one of the respective plurality of activated states, and configurable to prevent rotation of the third element of the differential gear set in a second rotational direction opposite the first rotational direction when controlled to a second one of the respective plurality of activated states. The first torque machine is coupled to the third element of the differential gear set only when the second SOWC is controlled to one of the respective plurality of activated states. And, the third element of the differential gear set coupled to the input member only when the second and third SOWCs are each controlled to one of the respective plurality of activated states. | 06-07-2012 |
20120149515 | HYBRID TRANSMISSION WITH THREE PLANETARY GEAR SETS AND THREE INTERCONNECTING MEMBERS AND WITH SYNCHRONOUS SHIFT BETWEEN SERIES AND COMPOUND-SPLIT OPERATING MODES - A hybrid transmission is provided that has both a hybrid series operating mode and a compound-split operating mode. The transmission includes an input member operatively connected with the engine, an output member, and a plurality of selectively engageable torque-transmitting mechanisms. A gearing arrangement and first and second motor/generators operatively connected with the gearing arrangement are also provided. The gearing arrangement includes a first, a second, and a third planetary gear set, each having a first, a second, and a third member. A pair of interconnecting members connect two respective ones of the members of one of the planetary gear sets for common rotation with two respective ones of the members of another of the planetary gear sets. Another interconnecting member connects a third of the members of the one of the planetary gear sets for common rotation with one of the members of still another of the planetary gear sets. | 06-14-2012 |
20120202635 | INTEGRATED SINGLE MOTOR HYBRID TRANSMISSION USING REAR-WHEEL-DRIVE 8-SPEED TRANSMISSION - An apparatus transmitting torque among a first torque generative device, a second torque generative device and an output member includes a first planetary gear set including respective first, second and third members, a second planetary gear set including respective first, second and third members, the respective first member of the second planetary gear set mechanically coupled to the respective first member of the first planetary gear set. The first torque generative device is mechanically coupled to the respective second member of the first planetary gear set. The second torque generative device is mechanically coupled to the respective second member of the second planetary gear set, wherein the second torque generative device includes a grounding state wherein rotation of the respective second member of the second planetary gear set is prevented and a rotational state wherein rotation of the respective second member of the second planetary gear set is not prevented. | 08-09-2012 |
20120259490 | OPEN MODULAR ELECTRIC POWERTRAIN AND CONTROL ARCHITECTURE - A system to control a powertrain includes an energy management layer monitoring a plurality of potential energy storage devices and determining a reference available power for each of the potential energy storage devices. The system further includes a power management layer monitoring the reference available power for the potential energy storage devices, a power demanded of the powertrain, and an electric power constraint for the potential energy storage devices, and determining a power split based upon the monitored reference available power for the potential energy storage devices, the power demanded of the powertrain, and the electric power constraint for the potential energy storage devices. The system further includes a torque control layer controlling torque generation based upon the determined power split. | 10-11-2012 |
20120264553 | HYBRID TRANSMISSION WITH THREE PLANETARY GEAR SETS AND TWO INTERCONNECTING MEMBERS AND WITH SYNCHRONOUS SHIFT BETWEEN SERIES AND COMPOUND-SPLIT OPERATING MODES - A hybrid transmission is provided that has both a hybrid series operating mode and a compound-split operating mode. The transmission includes an input member operatively connected with the engine, an output member, and a plurality of selectively engageable torque-transmitting mechanisms. A gearing arrangement and first and second motor/generators operatively connected with the gearing arrangement are also provided. The gearing arrangement includes a first, a second, and a third planetary gear set, each having a first, a second, and a third member. A first interconnecting member connects a respective one of the members of each of the planetary gear sets for common rotation with one another. A second interconnecting member connects another one of the members of one of the planetary gear sets for common rotation with another one of the members of another of the planetary gear sets. | 10-18-2012 |
20130023379 | FLUID COUPLING FOR A HYBRID POWERTRAIN SYSTEM - A hybrid powertrain system includes an internal combustion engine, an electric machine coupled to a transmission, a fluid coupling including an impeller and a turbine wherein the impeller is mechanically coupled to a rotatable member of the electric machine and the turbine is mechanically coupled to a rotatable member of the internal combustion engine. The fluid coupling is effective to fluidically couple torque from the electric machine to the internal combustion engine when the impeller and turbine are not mechanically locked. | 01-24-2013 |
20130186088 | ADAPTIVE HEAT EXCHANGE ARCHITECTURE FOR OPTIMUM ENERGY RECOVERY IN A WASTE HEAT RECOVERY ARCHITECTURE - A waste heat recovery system that efficiently converts waste heat from an engine coolant and an engine exhaust in a vehicle. The system includes a coolant heat exchanger that receives heat from the engine coolant, an exhaust heat exchanger that receives heat from the engine exhaust and an economizer heat exchanger. A plurality of valves control the flow of the fluid in different modes as determined by a power ratio between the heat provided by the exhaust heat exchanger and the heat provided by the coolant heat exchanger, including an economizer heat exchanger after coolant heat exchanger mode at low power ratios, where the fluid from the pump flows to the economizer heat exchanger after the coolant heat exchanger and an economizer heat exchanger before coolant heat exchanger mode at high power ratios, where the fluid from the pump flows to the economizer heat exchanger before the coolant heat exchanger. | 07-25-2013 |
20130289810 | HYBRID VEHICLE WITH ELECTRIC TRANSMISSION AND ELECTRIC DRIVE MODULE - A hybrid vehicle is provided with an electric transmission operatively connected to a first axle and an electric drive module operatively connected to a second axle. A transmission ratio of a differential gear set and a final drive of the electric transmission are selected so that a torque ratio of torque of the first axle over the torque of the engine is that at which any working chamber of the engine that is operated to expand the working fluid can operate without throttling, without torque of the engine torque exceeding a torque necessary to propel the vehicle at a steady vehicle speed, and with the second electric machine freewheeling. | 10-31-2013 |
20140060044 | SYSTEM AND METHOD FOR CONTROLLING FLUID FLOW INTO AND/OR OUT OF A CATALYTIC HEAT EXCHANGER BASED ON A CATALYST TEMPERATURE - A system includes a heat exchanger and a fluid flow control module. The heat exchanger includes a substrate, a catalyst applied to the substrate, and fluid passages. Exhaust gas from an engine flows through the heat exchanger and a working fluid in the fluid passages absorbs heat from the exhaust gas. The fluid flow control module controls fluid flow from the heat exchanger based on a temperature of the catalyst. | 03-06-2014 |
20140121867 | METHOD OF CONTROLLING A HYBRID POWERTRAIN WITH MULTIPLE ELECTRIC MOTORS TO REDUCE ELECTRICAL POWER LOSSES AND HYBRID POWERTRAIN CONFIGURED FOR SAME - A method includes determining a first electrical power loss value of operating first and second electric machines with power inverters of both electric machines in an active mode. The method includes determining at least one of a second and a third electrical power loss value. The second electrical power loss value is with operating with the power inverter of the first electric machine in the active mode and the power inverter of the second electric machine in a standby mode. The third electrical power loss value is with operating with the power inverter of the second electric machine in the active mode and the power inverter of the first electric machine in the standby mode. A controller sets the power inverters in the respective modes corresponding with a lowest of the electrical power loss values. | 05-01-2014 |