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    • 4. 发明申请
    • METHOD FOR REGULATING TEMPERATURE OF TRANSISTOR-BASED COMPONENT
    • 用于调节基于晶体管的元件温度的方法
    • US20120163055A1
    • 2012-06-28
    • US12977877
    • 2010-12-23
    • Lewei QianMatthew HendricksonDavid Marchand
    • Lewei QianMatthew HendricksonDavid Marchand
    • H02M7/757
    • H02M1/32H02M2001/327H03K2017/0806
    • A method of regulating temperature of a transistor-based component of a power system is disclosed. The method may include operating the power system to supply electric power to the transistor-based component and converting the electric power from direct current to alternating current, or alternating current to direct current, using the transistor-based component, thereby creating heat in the transistor-based component. The method may include outputting the electric power from the transistor-based component and supplying the electric power to an electrically-powered component to perform an output operation. The method may include controlling, during a predetermined system operating condition, one or more operations of a component associated with the power system to actively generate heat to thereby maintain the temperature of the transistor-based component higher than from the conversion of electric power that is performed to produce the electric power used to perform the output operation during the predetermined system operating condition.
    • 公开了一种调节电力系统的基于晶体管的组件的温度的方法。 该方法可以包括操作电力系统以向基于晶体管的组件提供电力并且使用基于晶体管的组件将电力从直流电转换成交流电,或将交流电转换成直流电,由此在晶体管中产生热量 的组件。 该方法可以包括从基于晶体管的部件输出电力并将电力提供给电动部件以执行输出操作。 该方法可以包括在预定的系统操作条件期间控制与电力系统相关联的部件的一个或多个操作以主动产生热量,从而保持基于晶体管的部件的温度高于电力转换 执行以产生在预定系统操作条件期间执行输出操作的电力。
    • 6. 发明授权
    • Method for regulating temperature of transistor-based component
    • 调节晶体管组件温度的方法
    • US08982586B2
    • 2015-03-17
    • US12977877
    • 2010-12-23
    • Lewei QianMatthew HendricksonDavid Marchand
    • Lewei QianMatthew HendricksonDavid Marchand
    • H02M1/32H03K17/08
    • H02M1/32H02M2001/327H03K2017/0806
    • A method of regulating temperature of a transistor-based component of a power system is disclosed. The method may include operating the power system to supply electric power to the transistor-based component and converting the electric power from direct current to alternating current, or alternating current to direct current, using the transistor-based component, thereby creating heat in the transistor-based component. The method may include outputting the electric power from the transistor-based component and supplying the electric power to an electrically-powered component to perform an output operation. The method may include controlling, during a predetermined system operating condition, one or more operations of a component associated with the power system to actively generate heat to thereby maintain the temperature of the transistor-based component higher than from the conversion of electric power that is performed to produce the electric power used to perform the output operation during the predetermined system operating condition.
    • 公开了一种调节电力系统的基于晶体管的组件的温度的方法。 该方法可以包括操作电力系统以向基于晶体管的组件提供电力并且使用基于晶体管的组件将电力从直流电转换成交流电,或将交流电转换成直流电,由此在晶体管中产生热量 的组件。 该方法可以包括从基于晶体管的部件输出电力并将电力提供给电动部件以执行输出操作。 该方法可以包括在预定的系统操作条件期间控制与电力系统相关联的部件的一个或多个操作以主动产生热量,从而保持基于晶体管的部件的温度高于电力转换 执行以产生在预定系统操作条件期间执行输出操作的电力。
    • 8. 发明授权
    • Method and system for eliminating fuel consumption during dynamic braking of electric drive machines
    • 电动机械动态制动时消除燃油消耗的方法和系统
    • US08395335B2
    • 2013-03-12
    • US12860661
    • 2010-08-20
    • David MarchandDustin Selvey
    • David MarchandDustin Selvey
    • H02P3/12
    • B60L7/14B60L1/003Y02T90/16
    • A drive system for an electric drive machine having an engine, a generator, a motor, final drive wheels and auxiliary devices is provided. The drive system may include an inverter circuit and an auxiliary driver. The inverter circuit may be coupled to each of the generator and the motor. The auxiliary driver may be coupled to each of the generator and the auxiliary devices. The inverter circuit and the auxiliary driver may be configured to automatically communicate power from the engine and any power from the auxiliary devices to the motor in a propel mode, and automatically communicate power from the motor to the engine, and optionally to a hybrid system if applicable, in a dynamic braking mode so as to minimize fuel consumption during the dynamic braking mode.
    • 提供了一种具有发动机,发电机,电动机,最终驱动轮和辅助装置的电动驱动机械的驱动系统。 驱动系统可以包括逆变器电路和辅助驱动器。 逆变器电路可以耦合到发电机和电动机中的每一个。 辅助驱动器可以耦合到发电机和辅助装置中的每一个。 逆变器电路和辅助驱动器可以被配置为以推进模式自动地将来自发动机的功率和来自辅助装置的功率传递到电动机,并且自动地将来自电动机的功率传递到发动机,并且可选地到电力系统 适用于动态制动模式,以便在动态制动模式期间最小化燃料消耗。
    • 9. 发明申请
    • Method and system for eliminating fuel consumption during dynamic braking of electric drive machines
    • 电动机械动态制动时消除燃油消耗的方法和系统
    • US20120043810A1
    • 2012-02-23
    • US12860661
    • 2010-08-20
    • David MarchandDustin Selvey
    • David MarchandDustin Selvey
    • B60L1/00H02P3/12
    • B60L7/14B60L1/003Y02T90/16
    • A drive system (100, 100a-c) for an electric drive machine (102, 102a-c) having an engine (104, 104a-c), a generator (106, 106a-c), a motor (108, 108a-c), final drive wheels (110, 110a-c) and auxiliary devices (116, 116a-c) is provided. The drive system (100, 100a-c) may include an inverter circuit (118, 118a-c) and an auxiliary driver (120, 120a-c). The inverter circuit (118, 118a-c) may be coupled to each of the generator (106, 106a-c) and the motor (108, 108a-c). The auxiliary driver (120, 120a-c) may be coupled to each of the generator (106, 106a-c) and the auxiliary devices (116, 116a-c). The inverter circuit (118, 118a-c) and the auxiliary driver (120, 120a-c) may be configured to automatically communicate power from the engine (104, 104a-c) and any power from the auxiliary devices (116, 116a-c) to the motor (108, 108a-c) in a propel mode, and automatically communicate power from the motor (108, 108a-c) to the engine (104, 104a-c), and optionally to a hybrid system (132) if applicable, in a dynamic braking mode so as to minimize fuel consumption during the dynamic braking mode.
    • 一种用于具有发动机(104,104a-c),发电机(106,106a-c),电动机(108,108a-c),电动机(108,108a-c) c),提供最终驱动轮(110,110a-c)和辅助装置(116,116a-c)。 驱动系统(100,100a-c)可以包括逆变器电路(118,118a-c)和辅助驱动器(120,120a-c)。 逆变器电路(118,118a-c)可以耦合到发电机(106,106a-c)和电动机(108,108a-c)中的每一个。 辅助驱动器(120,120a-c)可以耦合到每个发电机(106,106a-c)和辅助装置(116,116a-c)。 逆变器电路(118,118a-c)和辅助驱动器(120,120a-c)可以被配置为自动地从发动机(104,104a-c)传达动力,并且来自辅助装置(116,116a- c)以推进模式连接到所述电动机(108,108a-c),并且自动地将来自所述电动机(108,108a-c)的功率传递到所述发动机(104,104a-c),并且任选地传递到混合系统(132 ),以便在动态制动模式下最小化燃料消耗。