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    • 3. 发明授权
    • Net-displacement control of fluid device
    • 流体装置的净位移控制
    • US08944788B2
    • 2015-02-03
    • US13568805
    • 2012-08-07
    • Brian ArmstrongQinghui Yuan
    • Brian ArmstrongQinghui Yuan
    • F04C28/24F04C2/10F04C14/06F03C2/08F04C14/24
    • F04C14/065F03C2/08F04C2/103F04C14/10F04C14/24Y10T137/0318
    • Methods for controlling the net-displacement of a rotary fluid pressure device are disclosed. One of the net-displacement control methods (47) includes obtaining a desired input parameter (23) and a relative position (21) of a first member (43) and a second member (35) of a fluid displacement mechanism. A determination of a first and second output value is then made for each of a plurality of volume chambers (45) when the volume chambers (45) are supplied with fluid at fluid inlet and fluid outlet conditions, respectively. A total output value is then computed for each of a plurality of control valve configurations (63) and compared to the desired input parameter (23). The control valve configuration (63) with the total output value most similar to the desired input parameter (23) is then selected. A plurality of control valves (15) are then actuated in accordance with the selected control valve configuration (63).
    • 公开了一种用于控制旋转流体压力装置的净位移的方法。 净位移控制方法(47)中的一个包括获得流体移动机构的第一构件(43)和第二构件(35)的期望输入参数(23)和相对位置(21)。 然后,当分别在流体入口和流体出口条件下向容积室(45)供应流体时,对多个容积室(45)中的每一个进行第一和第二输出值的确定。 然后针对多个控制阀配置(63)中的每一个计算总输出值,并与期望的输入参数(23)进行比较。 然后选择总输出值与期望输入参数(23)最相似的控制阀配置(63)。 然后根据所选择的控制阀构造(63)致动多个控制阀(15)。
    • 5. 发明申请
    • System and method for controlling actuator position
    • 控制执行器位置的系统和方法
    • US20080163750A1
    • 2008-07-10
    • US11650267
    • 2007-01-05
    • Qinghui YuanChristy W. SchottlerJae Y. Lew
    • Qinghui YuanChristy W. SchottlerJae Y. Lew
    • F15B15/28F15B13/16G05D7/06
    • F15B9/09F15B11/08F15B13/0402F15B21/087F15B2211/6309F15B2211/6313F15B2211/6336F15B2211/634F15B2211/6346F15B2211/6656
    • An method for estimating actuator position includes the steps of receiving fluid pressure data signals from a plurality of fluid pressure sensors (31), receiving spool position signals from at least one spool position sensor (33), and receiving actuator position data signals from at least one actuator position sensor (35). Corrected flow rates to and from an actuator (21) are determined with each corrected flow rate being based on fluid pressure data signals, the spool position signals, and an error-correction factor, wherein the error-correction factor is a function of the fluid pressure data signals and the spool position signals. An estimated actuator position is determined wherein the estimated position includes a kinematic component and a dynamic component. Adaptive gain factors are applied to calibrate the estimated actuator position to the actuator position data signals from the actuator position sensor.
    • 一种用于估计致动器位置的方法包括以下步骤:从多个流体压力传感器(31)接收流体压力数据信号,从至少一个阀芯位置传感器(33)接收阀芯位置信号,以及从至少接收致动器位置数据信号 一个致动器位置传感器(35)。 通过每个校正流量基于流体压力数据信号,阀芯位置信号和误差校正因子来确定进给和来自致动器(21)的校正流量,其中误差校正因子是流体的函数 压力数据信号和阀芯位置信号。 确定估计的致动器位置,其中估计位置包括运动分量和动态分量。 应用自适应增益因子来校准来自致动器位置传感器的致动器位置数据信号的估计致动器位置。
    • 6. 发明申请
    • NET-DISPLACEMENT CONTROL OF FLUID
    • 流体的网络位移控制
    • US20130058820A1
    • 2013-03-07
    • US13568805
    • 2012-08-07
    • Brian S.R. ArmstrongQinghui Yuan
    • Brian S.R. ArmstrongQinghui Yuan
    • F16K31/00F04C2/10
    • F04C14/065F03C2/08F04C2/103F04C14/10F04C14/24Y10T137/0318
    • Methods for controlling the net-displacement of a rotary fluid pressure device are disclosed. One of the net-displacement control methods (47) includes obtaining a desired input parameter (23) and a relative position (21) of a first member (43) and a second member (35) of a fluid displacement mechanism. A determination of a first and second output value is then made for each of a plurality of volume chambers (45) when the volume chambers (45) are supplied with fluid at fluid inlet and fluid outlet conditions, respectively. A total output value is then computed for each of a plurality of control valve configurations (63) and compared to the desired input parameter (23). The control valve configuration (63) with the total output value most similar to the desired input parameter (23) is then selected. A plurality of control valves (15) are then actuated in accordance with the selected control valve configuration (63).
    • 公开了一种用于控制旋转流体压力装置的净位移的方法。 净位移控制方法(47)中的一个包括获得流体移动机构的第一构件(43)和第二构件(35)的期望输入参数(23)和相对位置(21)。 然后,当分别在流体入口和流体出口条件下向容积室(45)供应流体时,对多个容积室(45)中的每一个进行第一和第二输出值的确定。 然后针对多个控制阀配置(63)中的每一个计算总输出值,并与期望的输入参数(23)进行比较。 然后选择总输出值与期望输入参数(23)最相似的控制阀配置(63)。 然后根据所选择的控制阀构造(63)致动多个控制阀(15)。
    • 7. 发明申请
    • Net-Displacement Control Of Fluid Motors And Pumps
    • 流体马达和泵的净位移控制
    • US20090123313A1
    • 2009-05-14
    • US12067711
    • 2006-09-21
    • Brian S. R. ArmstrongQinghui Yuan
    • Brian S. R. ArmstrongQinghui Yuan
    • F04D29/00
    • F04C14/065F03C2/08F04C2/103F04C14/10F04C14/24Y10T137/0318
    • Methods for controlling the net-displacement of a rotary fluid pressure device are disclosed. One of the net-displacement control methods (47) includes obtaining a desired input parameter (23) and a relative position (21) of a first member (43) and a second member (35) of a fluid displacement mechanism. A determination of a first and second output value is then made for each of a plurality of volume chambers (45) when the volume chambers (45) are supplied with fluid at fluid inlet and fluid outlet conditions, respectively. A total output value is then computed for each of a plurality of control valve configurations (63) and compared to the desired input parameter (23). The control valve configuration (63) with the total output value most similar to the desired input parameter (23) is then selected. A plurality of control valves (15) are then actuated in accordance with the selected control valve configuration (63).
    • 公开了一种用于控制旋转流体压力装置的净位移的方法。 净位移控制方法(47)中的一个包括获得流体移动机构的第一构件(43)和第二构件(35)的期望输入参数(23)和相对位置(21)。 然后,当分别在流体入口和流体出口条件下向容积室(45)供应流体时,对多个容积室(45)中的每一个进行第一和第二输出值的确定。 然后针对多个控制阀配置(63)中的每一个计算总输出值,并与期望的输入参数(23)进行比较。 然后选择总输出值与期望输入参数(23)最相似的控制阀配置(63)。 然后根据所选择的控制阀构造(63)致动多个控制阀(15)。
    • 9. 发明授权
    • High intensity discharge electronic ballast circuit, electronic ballast, and high intensity discharge lamp
    • 高强度放电电子镇流器电路,电子镇流器和高强度放电灯
    • US09072151B2
    • 2015-06-30
    • US14004647
    • 2011-07-26
    • Lishan XieYujia ChenQinghui YuanHongmin Yang
    • Lishan XieYujia ChenQinghui YuanHongmin Yang
    • H05B41/00H05B37/02H05B39/02H05B39/04H05B41/16H05B41/288
    • H05B41/16H05B41/2882
    • A high intensity discharge (HID) ballast circuit comprises a trigger circuit, a power half-bridge self-excited oscillation circuit, which is arranged to enable self-excited oscillation by energizing an angle capacitor Cgs with a Miller capacitor Cdg of a power MOSFET when an original single pulse output by the trigger circuit is excited, and then output self-excited oscillation signals; and a filter loop which is arranged to match impedance for the self-excited oscillation signals, thereby converting a low-impedance voltage source to a high-impedance constant current source. The inherent phase relationship of the power MOSFET is utilized, and oscillation signals are generated by a power half-bridge self-excited oscillation circuit, and then impedance matching for the oscillation signals is performed by the filter loop, and finally an HID lamp is triggered. As a result, damages to human eyes caused by stroboscopic effect can be avoided and electro magnetic compatibility test can be passed.
    • 高强度放电(HID)镇流电路包括触发电路,功率半桥自激振荡电路,其被布置为通过用功率MOSFET的米勒电容器Cdg激励角电容器Cgs来实现自激振荡, 触发电路的原始单脉冲输出被激励,然后输出自激振荡信号; 以及滤波器回路,其布置成匹配用于自激振荡信号的阻抗,从而将低阻抗电压源转换为高阻抗恒定电流源。 利用功率MOSFET的固有相位关系,通过功率半桥自激振荡电路产生振荡信号,然后通过滤波环路进行振荡信号的阻抗匹配,最后触发HID灯 。 结果,可以避免由频闪效应导致的人眼伤害,并且可以通过电磁兼容性测试。
    • 10. 发明申请
    • HIGH INTENSITY DISCHARGE ELECTRONIC BALLAST CIRCUIT, ELECTRONIC BALLAST, AND HIGH INTENSITY DISCHARGE LAMP
    • 高强度放电电子镇流器,电子镇流器和高强度放电灯
    • US20140001957A1
    • 2014-01-02
    • US14004647
    • 2011-07-26
    • Lishan XieYujia ChenQinghui YuanHongmin Yang
    • Lishan XieYujia ChenQinghui YuanHongmin Yang
    • H05B41/16
    • H05B41/16H05B41/2882
    • A high intensity discharge (HID) ballast circuit comprises a trigger circuit, a power half-bridge self-excited oscillation circuit, which is arranged to enable self-excited oscillation by energizing an angle capacitor Cgs with a Miller capacitor Cdg of a power MOSFET when an original single pulse output by the trigger circuit is excited, and then output self-excited oscillation signals; and a filter loop which is arranged to match impedance for the self-excited oscillation signals, thereby converting a low-impedance voltage source to a high-impedance constant current source. The inherent phase relationship of the power MOSFET is utilized, and oscillation signals are generated by a power half-bridge self-excited oscillation circuit, and then impedance matching for the oscillation signals is performed by the filter loop, and finally an HID lamp is triggered. As a result, damages to human eyes caused by stroboscopic effect can be avoided and electro magnetic compatibility test can be passed.
    • 高强度放电(HID)镇流电路包括触发电路,功率半桥自激振荡电路,其被布置为通过用功率MOSFET的米勒电容器Cdg激励角电容器Cgs来实现自激振荡, 触发电路的原始单脉冲输出被激励,然后输出自激振荡信号; 以及滤波器回路,其布置成匹配用于自激振荡信号的阻抗,从而将低阻抗电压源转换为高阻抗恒定电流源。 利用功率MOSFET的固有相位关系,通过功率半桥自激振荡电路产生振荡信号,然后通过滤波环路进行振荡信号的阻抗匹配,最后触发HID灯 。 结果,可以避免由频闪效应导致的人眼伤害,并且可以通过电磁兼容性测试。