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    • 64. 发明申请
    • SINGLE PROCESSOR DUAL MOTOR CONTROL
    • 单处理器双电机控制
    • US20080303470A1
    • 2008-12-11
    • US11758941
    • 2007-06-06
    • Steven E. SchulzTerry Murrell
    • Steven E. SchulzTerry Murrell
    • G05B11/32G05B21/02
    • H02P5/74
    • A motor control processor is provided for motor phase current sampling of multiple variable frequency controlled electric motors. The motor control processor comprises an analog-to-digital (A/D) converter and a controller. The A/D converter has multiple analog inputs and generates a digital output signal in response to the multiple analog inputs. The controller is coupled to the A/D converter and determines a maximum desired switching frequency for a first one of the multiple variable frequency controlled electric motors. The controller further selects a base period in response to the maximum desired switching frequency and defines a phase shift time delay as a fraction of the base period so that the controller may control the multiple analog inputs of the A/D converter to sample motor phase currents of each of the multiple variable frequency controlled electric motors at sample times determined by the controller in response to the base period and the phase shift time delay.
    • 提供电机控制处理器用于多个可变频率控制电动机的电机相电流采样。 电动机控制处理器包括模数(A / D)转换器和控制器。 A / D转换器具有多个模拟输入,并响应多个模拟输入产生数字输出信号。 控制器耦合到A / D转换器,并确定多个可变频率控制的电动机中的第一个的最大期望开关频率。 控制器还响应于最大期望开关频率选择基准周期,并将相移时间延迟定义为基准周期的一部分,使得控制器可以控制A / D转换器的多个模拟输入以对电机相电流进行采样 在由控制器响应于基准周期和相移时间延迟确定的采样时间的多个可变频率控制电动机中的每一个。
    • 65. 发明申请
    • BIDIRECTIONAL NO LOAD CONTROL WITH OVERSHOOT PROTECTION
    • 双向无负载控制与海洋保护
    • US20080284387A1
    • 2008-11-20
    • US11748106
    • 2007-05-14
    • KEMING CHENSteven E. Schulz
    • KEMING CHENSteven E. Schulz
    • G05F1/00
    • H02M1/32H02M3/33576H02M3/3378
    • A method of operating an isolated bi-directional dc/dc converter to provide voltage regulation at a no-load condition over a wide voltage range and also provide overshoot protection for the boost mode main switching transistors uses new boost mode drive waveforms. The new waveforms drive switches S2 and S4 to be turned off during boost mode and only S1 and S3 are switched to provide reverse energy flow at no-load. In boost mode, C1 and C2 provide overshoot protection caused by leakage inductance of the isolation transformer when boost mode drive transistors turn off during forward energy flow and provide stored energy for reverse energy flow during reverse energy flow periods used for voltage regulation in the boost mode. In buck mode, C1 and C2 provide soft switching for buck mode main switching transistors S2 and S4.
    • 一种隔离双向dc / dc转换器的运行方式,可在宽电压范围内的无负载状态下提供电压调节,并为升压模式主开关晶体管提供过冲保护,采用新的升压模式驱动波形。 新的波形驱动开关S 2和S 4在升压模式下关闭,只有S 1和S 3被切换以在空载时提供反向能量流。 在升压模式下,当升压模式驱动晶体管在正向能量流动期间关断时,C 1和C 2提供由隔离变压器的漏感引起的过冲保护,并在用于电压调节的反向能量流期间提供反向能量流的存储能量 升压模式。 在降压模式下,C 1和C 2为降压模式主开关晶体管S 2和S 4提供软开关。
    • 67. 发明授权
    • Method and system for managing processor execution time utilizing variable frequency switching
    • 使用可变频率切换管理处理器执行时间的方法和系统
    • US06979968B2
    • 2005-12-27
    • US10676529
    • 2003-10-01
    • James M. NagashimaThomas P. O'MearaNitinkumar R. PatelSteven E. Schulz
    • James M. NagashimaThomas P. O'MearaNitinkumar R. PatelSteven E. Schulz
    • H02P3/00H02P5/00H02P23/00
    • H02P23/0004
    • The present invention includes a method for managing processor execution time in a motor controller. The method includes receiving motor speed data, comparing the received motor speed data to predetermined motor speed ranges, determining a motor speed range based on the comparison, and modulating an inverter switching frequency of the motor controller processor based on the motor speed range. The step of receiving motor speed data may include receiving machine terminal information, processing the received machine terminal information utilizing a sensorless control algorithm, and determining motor speed data based on the processed information. The step of modulating the inverter switching frequency may include determining a modified inverter switching frequency value based on the determined motor speed range and providing the modified inverter switching frequency value to a processor control algorithm. In one embodiment, the processor control algorithm modifies the inverter switching frequency based on the modified inverter switching frequency value.
    • 本发明包括一种用于在马达控制器中管理处理器执行时间的方法。 该方法包括接收电动机速度数据,将接收到的电动机速度数据与预定的电动机速度范围进行比较,基于比较确定电动机速度范围,以及基于电动机速度范围来调制电动机控制器处理器的逆变器开关频率。 接收电动机速度数据的步骤可以包括接收机器终端信息,利用无传感器控制算法处理所接收的机器终端信息,以及基于处理的信息确定电动机速度数据。 调制逆变器开关频率的步骤可以包括基于所确定的电动机速度范围确定修正的逆变器开关频率值,并将修改的逆变器开关频率值提供给处理器控制算法。 在一个实施例中,处理器控制算法基于经修改的逆变器开关频率值来修改逆变器开关频率。
    • 69. 发明申请
    • SYSTEM AND METHOD FOR IMPLEMENTING A REMEDIAL ELECTRICAL SHORT
    • 用于实施电动短路的系统和方法
    • US20140070742A1
    • 2014-03-13
    • US13611379
    • 2012-09-12
    • Steven E. Schulz
    • Steven E. Schulz
    • H02P6/12
    • H02M7/53875H02M1/32H02M1/38H02P27/08
    • A vehicle includes a polyphase, permanent magnet synchronous electric machine, DC and AC buses, a battery module, a traction power inverter module (TPIM), and a controller. The controller, which is in communication with the TPIM, executes a method to detect a fault condition, fixes the pulse width modulation (PWM) duty cycles of all phases of the electric machine to 50% such that all phases switch simultaneously, and applies a polyphase OPEN state to the AC bus in response to the detected fault condition. The controller then transitions to a polyphase SHORT state by automatically inserting an adjustable deadtime at each PWM switching transition of the TPIM over a calculated ramp duration, thereby transitioning from an initial deadtime to a minimum deadtime over the calculated ramp duration. The transition reduces peak overshoot of the negative d-axis current of the machine during the fault condition.
    • 车辆包括多相,永磁同步电机,直流和交流总线,电池模块,牵引电力逆变器模块(TPIM)和控制器。 与TPIM通信的控制器执行检测故障状况的方法,将电机各相的脉宽调制(PWM)占空比固定为50%,使得所有相同时切换,并应用 多相OPEN状态响应于检测到的故障状况到AC总线。 然后,控制器通过在计算的斜坡持续时间内在TPIM的每个PWM切换转换期间自动插入可调节的死区时间,从而在计算的斜坡持续时间内从初始死区时间转换到最小死区时间,转换到多相短路状态。 该过渡在故障条件期间减少机器负d轴电流的峰值过冲。