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    • 2. 发明授权
    • Method and apparatus for identifying an operational phase of a motor phase winding and controlling energization of the phase winding
    • 用于识别电动机相绕组的操作阶段并控制相绕组的通电的方法和装置
    • US07412339B2
    • 2008-08-12
    • US10999646
    • 2004-11-24
    • Krishnan RamuAjit Bhanot
    • Krishnan RamuAjit Bhanot
    • H02P1/00H02P3/00
    • H02P25/089
    • A method for identifying an operational phase of a motor may include obtaining a first value of a signal that is indicative of the operational phase of the motor and obtaining a second value of the signal after a period of time has expired. The method further includes identifying a first operational phase of the motor if the second value exceeds the first value by a non-negative first threshold value. A second operational phase of the motor is identified if the second value does not exceed the first value by the first threshold value. The first and second operational phases may correspond to relative positions of a motor's rotor and stator, such that periods of energization may be identified for producing motoring or regenerative torque.
    • 用于识别电动机的操作阶段的方法可以包括获得指示电动机的操作阶段的信号的第一值,并且在一段时间到期之后获得信号的第二值。 该方法还包括如果第二值超过非负第一阈值的第一值,则识别电动机的第一操作阶段。 如果第二值不超过第一值第一阈值,则识别电动机的第二操作阶段。 第一和第二操作阶段可以对应于电动机的转子和定子的相对位置,使得可以识别通电周期以产生电动或再生转矩。
    • 4. 发明授权
    • Switched reluctance machines with minimum stator core
    • 具有最小定子铁心的开关磁阻电机
    • US08901798B2
    • 2014-12-02
    • US12601903
    • 2008-05-30
    • Krishnan RamuNimai LoboCheewoo Lee
    • Krishnan RamuNimai LoboCheewoo Lee
    • H02K19/12H02K1/14H02K19/10
    • H02K1/14H02K19/106
    • A two-phase switched reluctance machine is provided using discontinuous core structures as the stator for low-cost, high-performance drives. This discontinuous stator core structure contains short flux paths and maximum overlap between the rotor poles and stator poles in the stator discontinuous core structures, regardless of the rotor position. Example configurations of such core structure include E-core, L-core and I-core configurations. Using less steel and magnet wire than in conventional SRM designs results in cost savings of stator material and winding material. Efficiency of this novel SRM is improved because of shorter flux paths resulting in reduction of core losses and decreased phase resistance resulting in reduction of copper losses. Two-phase simultaneous excitation of the novel SRM can reduce torque ripple during commutation as compared with existing two-phase SRMs.
    • 使用不连续的核心结构作为用于低成本,高性能的驱动器的定子来提供两相开关磁阻电机。 这种不连续的定子铁芯结构在定子不连续的铁芯结构中包含短的磁通路径和转子磁极和定子极之间的最大重叠,而与转子位置无关。 这种核心结构的示例配置包括E核,L核和I核配置。 使用比常规SRM设计更少的钢和电线导致定子材料和绕组材料的成本节约。 这种新型SRM的效率得到改善,因为较短的磁通路径导致磁芯损耗的减小和相位阻力的降低,导致铜损耗的减少。 与现有的两相SRM相比,新型SRM的两相同步励磁可以减少转换期间的转矩波动。
    • 5. 发明授权
    • Power factor correction circuits for switched reluctance machines
    • 开关磁阻电机的功率因数校正电路
    • US08754605B2
    • 2014-06-17
    • US13287221
    • 2011-11-02
    • Krishnan Ramu
    • Krishnan Ramu
    • H02P1/46
    • H02K1/32G01B11/26H02K1/14H02K1/146H02K1/148H02K1/20H02K1/24H02K15/12Y02T10/641
    • An electrical device has a capacitive storage element and first and second switches. The capacitive storage element and first and second switches are interconnected such that when interconnected with a direct current (dc) voltage supply and first and second windings of an electrical machine: (1) a first operational state exists in which conductive states of the first and second switches cause the dc voltage supply to conduct current through the first winding and the first switch and conduct current through the first and second switches and the second winding, respectively, thereby storing energy within the first and second windings, and (2) a second operational state exists in which non-conductive states of the first and second switches cause each of the first and second windings to discharge stored energy by conducting current through the capacitive storage element, thereby storing energy in the capacitive storage element.
    • 电气设备具有电容性存储元件和第一和第二开关。 电容性存储元件和第一和第二开关互连,使得当与直流(dc)电压源和电机的第一和第二绕组互连时:(1)存在第一操作状态,其中第一和第二开关的导电状态 第二开关导致直流电压源通过第一绕组和第一开关导通电流,并分别通过第一和第二开关和第二绕组传导电流,从而在第一和第二绕组内存储能量,以及(2)第二开关 存在操作状态,其中第一和第二开关的非导通状态通过使电流通过电容性存储元件而使第一和第二绕组中的每一个释放存储的能量,从而将能量存储在电容性存储元件中。
    • 9. 发明授权
    • System to generate and control levitation, propulsion and guidance of linear switched reluctance machines
    • 系统生成和控制线性开关磁阻电机的悬浮,推进和引导
    • US07134396B2
    • 2006-11-14
    • US10728344
    • 2003-12-02
    • Krishnan Ramu
    • Krishnan Ramu
    • B61C3/00
    • B60L13/10B60L2200/26B60L2220/18
    • A translation system, applicable in trains, elevators, aircraft launchers, rail guns, conveyors, door openers, machine tools and servo drives, includes a first linear switch reluctance machine (“LSRM”) having a stator and a translator each configured, positioned and proportioned for electromagentic engagement with the other. The system further includes an assembly for selectable application of at least one phase of a multiphasic DC excitation to the LSRM to produce a longitudinal or propulsive force between the stator and translator. The system further includes an assembly for the substantially simultaneous application of at least two phases of the DC excitation to the LSRM to produce a continual normal force between the stator and translator. A second LSRM may be provided, positioned in quadrature to the first LSRM, and in electromagetic engagement with it. A multi-phasic excitation of a stator and translator of the second LSRM produces both a guidance force for the first LSRM using error values generated by it and an additional propulsive force. Independent control of the phasic excitations for each of said propulsive, lift, and guidance forces may be provided.
    • 适用于火车,电梯,飞机发射器,轨道枪,输送机,开门器,机床和伺服驱动器的翻译系统包括具有定子和平移器的第一线性开关磁阻电机(“LSRM” 与其他电磁接合成比例。 该系统还包括用于可选择地向LSRM施加多相DC激励的至少一相的组件,以在定子和转子之间产生纵向或推进力。 该系统还包括用于基本上同时向LSRM施加至少两个DC励磁相的组件,以在定子和转子之间产生连续的法向力。 可以提供第二LSRM,其位置与第一LSRM成正交,并且与其电气接合。 第二LSRM的定子和转子的多相激励使用由其产生的误差值和附加的推进力产生用于第一LSRM的引导力。 可以提供对于每个所述推进,升降和引导力的相位激励的独立控制。