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    • 3. 发明申请
    • Load Drive Circuit
    • 负载驱动电路
    • US20090079435A1
    • 2009-03-26
    • US12191618
    • 2008-08-14
    • Hisayoshi NAKATAMasahiro SasakiTakuya MayuzumiMitsuhiko WatanabeRyoichi Oura
    • Hisayoshi NAKATAMasahiro SasakiTakuya MayuzumiMitsuhiko WatanabeRyoichi Oura
    • G01R31/28H02H7/08
    • H02M3/156
    • According to the present invention, the operation of a diagnostic circuit within a load drive circuit, which has been built into an electronic control device, is checked without modifying the electronic control device or the like. The load drive circuit, which drives a load such as a solenoid using a DC power supply as a power supply, includes a drive circuit and a diagnostic circuit which is independently provided within the drive circuit. Upon input of a drive-stop signal from a control circuit that controls the drive circuit, the operation of at least the drive circuit stops, so that whether the diagnostic circuit, which diagnoses the condition of the load, is normally operating or not is checked in a condition in which the load drive circuit has been built into the electronic control device.
    • 根据本发明,在不改变电子控制装置等的情况下,检查内置于电子控制装置中的负载驱动电路内的诊断电路的动作。 使用直流电源驱动诸如螺线管的负载作为电源的负载驱动电路包括独立地设置在驱动电路内的驱动电路和诊断电路。 在从控制驱动电路的控制电路输入驱动停止信号时,至少检测驱动电路的动作停止,检查诊断负载状态的诊断电路是否正常运转 在负载驱动电路已经被内置到电子控制装置中的状态下。
    • 4. 发明申请
    • Internal Combustion Engine Controller
    • 内燃机控制器
    • US20100242920A1
    • 2010-09-30
    • US12708379
    • 2010-02-18
    • Chikara OMORIRyoichi OuraMitsuhiko WatanabeTakuya Mayuzumi
    • Chikara OMORIRyoichi OuraMitsuhiko WatanabeTakuya Mayuzumi
    • F02M51/00G01M15/04
    • F02D41/20F02D41/221F02D2041/2003F02D2041/2006F02D2041/201F02D2041/2017F02D2041/2031F02D2041/2048F02D2041/2058Y02T10/40
    • There is provided an internal combustion engine controller that realizes a reduction in maximum current value and current regulation without sacrificing boost performance. An internal combustion engine controller 100 comprises: a boost coil 101 configured to boost a voltage VB of a battery power source; a boost switch element 106 configured to switch between causing a current to flow and stopping a current from flowing through the boost coil 101; and a current detection portion 126 configured to detect a current flowing through the boost switch element 106, wherein boost control is effected by repeating the switching of the switch element, the voltage boosted at the boost coil 101 is charged to a boost capacitor 103 via a diode 104, and, during the boost control, the internal combustion engine controller 100 makes the boost switch element 106 stop the current flowing through the boost coil 101 when the detected current reaches a switching stop current value and, after a predetermined set time Tdown has elapsed from the point at which current flow is stopped, makes the boost switch element 106 cause a current to flow through the boost coil 101.
    • 提供了一种内燃机控制器,其实现了最大电流值和电流调节的降低,而不牺牲升压性能。 内燃机控制器100包括:升压线圈101,被配置为升高电池电源的电压VB; 升压开关元件106,被配置为在引起电流流动并停止电流流过升压线圈101之间切换; 以及被配置为检测流过升压开关元件106的电流的电流检测部分126,其中通过重复开关元件的切换来实现升压控制,在升压线圈101处升压的电压经由升压电容器103经由 二极管104,并且在升压控制期间,当检测到的电流达到开关停止电流值时,内燃机控制器100使升压开关元件106停止流过升压线圈101的电流,并且在预定设定时间Tdown具有 从电流停止的时刻开始,升压开关元件106使电流流过升压线圈101。
    • 6. 发明申请
    • Internal Combustion Engine Controller
    • 内燃机控制器
    • US20080289607A1
    • 2008-11-27
    • US11958096
    • 2007-12-17
    • Takuya MAYUZUMIMitsuhiko WatanabeRyoichi Oura
    • Takuya MAYUZUMIMitsuhiko WatanabeRyoichi Oura
    • F02D41/02F02M51/00
    • F02D41/20F02D41/221F02D2041/2003F02D2041/2041F02D2041/2058F02D2041/2082F02D2041/2086
    • An internal combustion engine controller has: a voltage booster circuit for boosting a battery power source; a booster side driver element for flowing a current through the injectors by using the boosted voltage; a battery side driver element disposed in parallel with the booster side driver element to flow a current through the injectors by using the battery power source; a first downstream side driver element provided by controlling currents flowing through the injectors; current regeneration diodes for flowing currents from the downstream side to the upstream side of the injectors; a booster side current detector resistor for detecting currents flowing via the current regeneration diodes; and an injector control circuit for controlling and driving the booster side driver element, battery side driver element and first downstream side driver element.
    • 内燃机控制器具有:用于升压电池电源的升压电路; 用于通过使用所述升压电压使电流流过所述喷射器的增压器侧驱动元件; 电池侧驱动器元件,其与所述增压器侧驱动元件并联设置,以通过使用所述电池电源使电流流过所述喷射器; 通过控制流过喷射器的电流而提供的第一下游侧驱动元件; 用于从喷射器的下游侧到上游侧的流动的电流再生二极管; 用于检测经由所述电流再生二极管流过的电流的升压器侧电流检测器电阻器; 以及用于控制和驱动增压器侧驱动元件,电池侧驱动元件和第一下游侧驱动元件的喷射器控制电路。
    • 7. 发明授权
    • Internal combustion engine controller
    • 内燃机控制器
    • US08776763B2
    • 2014-07-15
    • US12708379
    • 2010-02-18
    • Chikara OmoriRyoichi OuraMitsuhiko WatanabeTakuya Mayuzumi
    • Chikara OmoriRyoichi OuraMitsuhiko WatanabeTakuya Mayuzumi
    • G01R19/00
    • F02D41/20F02D41/221F02D2041/2003F02D2041/2006F02D2041/201F02D2041/2017F02D2041/2031F02D2041/2048F02D2041/2058Y02T10/40
    • There is provided an internal combustion engine controller that realizes a reduction in maximum current value and current regulation without sacrificing boost performance. An internal combustion engine controller 100 comprises: a boost coil 101 configured to boost a voltage VB of a battery power source; a boost switch element 106 configured to switch between causing a current to flow and stopping a current from flowing through the boost coil 101; and a current detection portion 126 configured to detect a current flowing through the boost switch element 106, wherein boost control is effected by repeating the switching of the switch element, the voltage boosted at the boost coil 101 is charged to a boost capacitor 103 via a diode 104, and, during the boost control, the internal combustion engine controller 100 makes the boost switch element 106 stop the current flowing through the boost coil 101 when the detected current reaches a switching stop current value and, after a predetermined set time Tdown has elapsed from the point at which current flow is stopped, makes the boost switch element 106 cause a current to flow through the boost coil 101.
    • 提供了一种内燃机控制器,其实现了最大电流值和电流调节的降低,而不牺牲升压性能。 内燃机控制器100包括:升压线圈101,被配置为升高电池电源的电压VB; 升压开关元件106,被配置为在引起电流流动并停止电流流过升压线圈101之间切换; 以及被配置为检测流过升压开关元件106的电流的电流检测部分126,其中通过重复开关元件的切换来实现升压控制,在升压线圈101处升压的电压经由升压电容器103经由 二极管104,并且在升压控制期间,当检测到的电流达到开关停止电流值时,内燃机控制器100使升压开关元件106停止流过升压线圈101的电流,并且在预定设定时间Tdown具有 从电流停止的时刻开始,升压开关元件106使电流流过升压线圈101。
    • 9. 发明申请
    • INTERNAL COMBUSTION ENGINE CONTROLLER
    • 内燃机控制器
    • US20090243574A1
    • 2009-10-01
    • US12372355
    • 2009-02-17
    • Takuya MAYUZUMIMitsuhiko WatanabeRyoichi OuraMasahiro Sasaki
    • Takuya MAYUZUMIMitsuhiko WatanabeRyoichi OuraMasahiro Sasaki
    • G05F1/00
    • F02D41/20F02D2041/2006F02D2041/2017
    • An internal combustion engine controller comprises a booster coil connected to a battery and a booster capacitor. A switch element is connected to the booster coil to control the passage of current through the booster coil and an interruption of the current. The booster capacitor accumulates electrical energy generated with an inductance of the booster coil at the time of the interruption of the passage of the current. A booster control circuit carries out control in a constant boost switching cycle so as to pass the current through the booster coil and the switch element until the current reaches a preset switching stop threshold value and then interrupt the current to charge the energy generated with the inductance of the booster coil into the booster capacitor. The booster control circuit is configured to ensure a minimum time period for the booster capacitor-charging of the energy within the boost switching cycle.
    • 内燃机控制器包括连接到电池的升压线圈和升压电容器。 开关元件连接到升压线圈以控制通过升压线圈的电流的通过和电流的中断。 升压电容器在电流通过中断时累积用升压线圈的电感产生的电能。 升压控制电路在恒定的升压开关周期中进行控制,以使电流通过升压线圈和开关元件,直到电流达到预设的开关停止阈值,然后中断电流以对由电感产生的能量进行充电 的升压线圈进入升压电容器。 升压器控制电路被配置为确保升压电容器对升压开关周期内的能量充电的最小时间周期。