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    • 1. 发明授权
    • Cylinder discriminating device and method thereof, and engine ignition control device and method thereof
    • 气缸识别装置及其方法以及发动机点火控制装置及其方法
    • US07305871B2
    • 2007-12-11
    • US11386791
    • 2006-03-23
    • Hiroshi AritaTakahiro AkiTakeshi Maenaka
    • Hiroshi AritaTakahiro AkiTakeshi Maenaka
    • G01M15/00
    • F02P7/061
    • A cylinder discriminating device includes a cylinder discriminating section. A crank rotor includes first and second non-tooth portions asymmetrically positioned on the crank rotor. The first non-tooth portion is positioned to correspond to a top dead center of a specific cylinder. A crank signal is outputted when each of the plurality of the tooth portions is detected. A cam signal is outputted when a predetermined tooth portion of a cam rotor is detected. And, the cylinder discriminating section discriminates the specific cylinder by detecting the first non-tooth portion based on number of the crank signals detected during a time period from a time when one of the first and second non-tooth portions is detected to a time when the other of the first and second non-tooth portions is detected, and by detecting whether or not the cylinder discriminating section detects the cam signal during the same time period.
    • 气缸鉴别装置包括气缸鉴别部分。 曲柄转子包括不对称地定位在曲柄转子上的第一和第二非齿部分。 第一非齿部被定位成对应于特定气缸的上止点。 当检测到多个齿部中的每一个时,输出曲柄信号。 当检测到凸轮转子的预定齿部时,输出凸轮信号。 并且,气缸识别部通过基于从检测到第一和第二非齿部中的一个时刻到时间期间检测到的曲柄信号的数量来检测第一非齿部分来识别特定气缸, 检测第一和第二非齿部分中的另一个,并且通过检测气缸识别部分是否在同一时间段内检测到凸轮信号。
    • 2. 发明申请
    • Cylinder discriminating device and method thereof, and engine ignition control device and method thereof
    • 气缸识别装置及其方法以及发动机点火控制装置及其方法
    • US20060213262A1
    • 2006-09-28
    • US11386791
    • 2006-03-23
    • Hiroshi AritaTakahiro AkiTakeshi Maenaka
    • Hiroshi AritaTakahiro AkiTakeshi Maenaka
    • G01L3/26
    • F02P7/061
    • A cylinder discriminating device includes a cylinder discriminating section. A crank rotor includes first and second non-tooth portions asymmetrically positioned on the crank rotor. The first non-tooth portion is positioned to correspond to a top dead center of a specific cylinder. A crank signal is outputted when each of the plurality of the tooth portions is detected. A cam signal is outputted when a predetermined tooth portion of a cam rotor is detected. And, the cylinder discriminating section discriminates the specific cylinder by detecting the first non-tooth portion based on number of the crank signals detected during a time period from a time when one of the first and second non-tooth portions is detected to a time when the other of the first and second non-tooth portions is detected, and by detecting whether or not the cylinder discriminating section detects the cam signal during the same time period.
    • 气缸鉴别装置包括气缸鉴别部分。 曲柄转子包括不对称地定位在曲柄转子上的第一和第二非齿部分。 第一非齿部被定位成对应于特定气缸的上止点。 当检测到多个齿部中的每一个时,输出曲柄信号。 当检测到凸轮转子的预定齿部时,输出凸轮信号。 并且,气缸识别部通过基于从检测到第一和第二非齿部中的一个时刻到时间期间检测到的曲柄信号的数量来检测第一非齿部分来识别特定气缸, 检测第一和第二非齿部分中的另一个,并且通过检测气缸识别部分是否在同一时间段内检测到凸轮信号。
    • 5. 发明授权
    • Controller in a fuel cell system that controls the measurement of AC impedance and drives the DC/DC converter
    • 燃料电池系统中的控制器控制交流阻抗的测量并驱动DC / DC转换器
    • US08268495B2
    • 2012-09-18
    • US12303518
    • 2007-08-16
    • Kota ManabeTakeshi MaenakaTakahiko Hasegawa
    • Kota ManabeTakeshi MaenakaTakahiko Hasegawa
    • G01N27/416
    • H01M8/04649H01M8/0488H01M2250/20Y02T90/32
    • When the operation point of a DC/DC converter, which steps up/down the output voltage of a fuel cell stack, is in a range of reduction in response capability and further there is issued a request of determining an AC impedance, a controller switches numbers of the drive phases of the DC/DC converter to determine an AC impedance of the fuel cell stack. If the operation point of the DC/DC converter is in the range of reduction in response capability and further the precision of determining the AC impedance is reduced, then the determination of AC impedance in the range of reduction in response capability is inhibited and the switching of the phases of the DC/DC converter is implemented, thereby causing the operation point of the DC/DC converter to be out of the range of reduction in response capability, with the result that the precision of determining the AC impedance can be raised.
    • 当升压/降低燃料电池堆的输出电压的DC / DC转换器的操作点处于响应能力降低的范围内时,还发出确定AC阻抗的请求,控制器切换 用于确定燃料电池堆的AC阻抗的DC / DC转换器的驱动相位数。 如果DC / DC转换器的工作点处于响应能力下降的范围内,并且进一步降低了确定交流阻抗的精度,那么阻抗在响应能力下降范围内的确定被阻止,并且切换 实现DC / DC转换器的相位,从而使得DC / DC转换器的操作点处于响应能力降低的范围之外,结果可以提高确定AC阻抗的精度。
    • 6. 发明申请
    • FUEL CELL SYSTEM
    • 燃油电池系统
    • US20100248054A1
    • 2010-09-30
    • US12743919
    • 2008-11-11
    • Kenji UmayaharaMichio YoshidaTakeshi Maenaka
    • Kenji UmayaharaMichio YoshidaTakeshi Maenaka
    • H01M8/04
    • H01M8/04089H01M8/04559H01M8/04589H01M8/04753H01M8/0494H01M10/44H01M16/006
    • Electric power generation is properly controlled during a high potential avoidance operation. A fuel cell system comprises a fuel cell for generating an electric power upon receiving supply of a reactant gas and a controller for performing control for high potential avoidance with the upper limit of the output voltage of the fuel cell as a high potential avoidance voltage lower than the open end voltage thereof. The controller computes a larger system requirement power out of a system requirement power calculated from a load requirement and a system requirement power calculated from the high potential avoidance voltage as a system requirement power for the fuel cell. To compute the system requirement power for the fuel cell, not only the system requirement power calculated from the load requirement but also the system requirement power calculated from the high potential avoidance voltage are taken into account, and therefore the electric power can be stably generated without causing fuel shortage. The amount of the electric power to be generated can be properly controlled, and hence battery overcharging can be thus prevented.
    • 在高潜力回避操作期间适当地控制发电。 燃料电池系统包括用于在接收到反应气体的供应时产生电力的燃料电池和用于执行具有高电位回避的控制的控制器,其中燃料电池的输出电压的上限为低电位回避电压 其开路端电压。 控制器根据从负载要求计算出的系统要求功率和从高电位回避电压计算的系统要求功率作为燃料电池的系统要求功率计算更大的系统需求功率。 为了计算燃料电池的系统需求功率,不仅考虑从负载要求计算的系统要求功率,还考虑了从高电位回避电压计算出的系统要求功率,因此可以稳定地产生电力而不需要 导致燃料短缺。 可以适当地控制要产生的电力的量,因此可以防止电池过度充电。
    • 8. 发明授权
    • Converter control device
    • 转换器控制装置
    • US08159850B2
    • 2012-04-17
    • US12443596
    • 2007-10-01
    • Kota ManabeTakahiko HasegawaTakeshi Maenaka
    • Kota ManabeTakahiko HasegawaTakeshi Maenaka
    • H02M5/00
    • H02M3/1584B60R16/03H02J1/102H02M3/1582H02P23/0004H02P27/06
    • A converter control device includes a converter device formed by three converter circuits connected together in parallel between a secondary battery as a first power source and a fuel cell as a second power source. A control unit includes: a PID control module for controlling the converter device by PID control and executing a desired voltage conversion; a drive phase quantity changing module for changing the number of drive phases of the converter device in accordance with the passing power of the converter device; and an integration term correction function switching module which switches the PID control integration term correction function when changing the number of drive phases.
    • A转换器控制装置包括由作为第一电源的二次电池和作为第二电源的燃料电池并联连接在一起的三个转换器电路形成的转换器装置。 控制单元包括:PID控制模块,用于通过PID控制并执行所需的电压转换来控制转换器装置; 驱动相位数量改变模块,用于根据转换器装置的通过功率来改变转换器装置的驱动相位数; 以及积分项校正功能切换模块,其在改变驱动相位数时切换PID控制积分项校正功能。