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    • 1. 发明授权
    • System and method for maintaining soft switching condition in a gradient coil driver circuit
    • 用于在梯形线圈驱动电路中维持软开关条件的系统和方法
    • US09389288B2
    • 2016-07-12
    • US13618909
    • 2012-09-14
    • Juan Antonio SabateRixin LaiLei Wang
    • Juan Antonio SabateRixin LaiLei Wang
    • G01R33/34G01R33/341G01R33/385
    • G01R33/34G01R33/341G01R33/3852G01R33/3854
    • In one embodiment, a system includes a gradient coil driver configured to supply electrical signals to a gradient coil of a magnetic resonance imaging system. The gradient coil driver includes an electronic circuit. The electronic circuit includes a first H-bridge circuit electrically coupled to a power source. The first H-bridge includes a plurality of metal-oxide-semiconductor field-effect transistor (MOSFET) switches; and a plurality of diodes electrically coupled in parallel with each MOSFET switch. Each diode of the plurality of diodes is configured to conduct current to cause zero voltage potential across a source and a drain of one of the plurality of MOSFET switches. The first H-bridge also includes a load configured to regulate currents flowing through each of the plurality of diodes and each MOSFET switch of the plurality of MOSFET switches.
    • 在一个实施例中,系统包括被配置为向磁共振成像系统的梯度线圈提供电信号的梯度线圈驱动器。 梯度线圈驱动器包括电子电路。 电子电路包括电耦合到电源的第一H桥电路。 第一H桥包括多个金属氧化物半导体场效应晶体管(MOSFET)开关; 以及与每个MOSFET开关并联电耦合的多个二极管。 多个二极管中的每个二极管被配置为传导电流以在多个MOSFET开关之一的源极和漏极两端产生零电压电位。 第一H桥还包括配置成调节流过多个MOSFET开关中的多个二极管和每个MOSFET开关中的每一个的电流的负载。
    • 2. 发明申请
    • SYSTEM AND METHOD FOR MAINTAINING SOFT SWITCHING CONDITION IN A GRADIENT COIL DRIVER CIRCUIT
    • 用于维护梯形线圈驱动电路中的软开关状态的系统和方法
    • US20140077812A1
    • 2014-03-20
    • US13618909
    • 2012-09-14
    • Juan Antonio SabateRixin LaiLei Wang
    • Juan Antonio SabateRixin LaiLei Wang
    • G01R33/34G01R33/341
    • G01R33/34G01R33/341G01R33/3852G01R33/3854
    • In one embodiment, a system includes a gradient coil driver configured to supply electrical signals to a gradient coil of a magnetic resonance imaging system. The gradient coil driver includes an electronic circuit. The electronic circuit includes a first H-bridge circuit electrically coupled to a power source. The first H-bridge includes a plurality of metal-oxide-semiconductor field-effect transistor (MOSFET) switches; and a plurality of diodes electrically coupled in parallel with each MOSFET switch. Each diode of the plurality of diodes is configured to conduct current to cause zero voltage potential across a source and a drain of one of the plurality of MOSFET switches. The first H-bridge also includes a load configured to regulate currents flowing through each of the plurality of diodes and each MOSFET switch of the plurality of MOSFET switches.
    • 在一个实施例中,系统包括被配置为向磁共振成像系统的梯度线圈提供电信号的梯度线圈驱动器。 梯度线圈驱动器包括电子电路。 电子电路包括电耦合到电源的第一H桥电路。 第一H桥包括多个金属氧化物半导体场效应晶体管(MOSFET)开关; 以及与每个MOSFET开关并联电耦合的多个二极管。 多个二极管中的每个二极管被配置为传导电流以在多个MOSFET开关之一的源极和漏极两端产生零电压电位。 第一H桥还包括配置成调节流过多个MOSFET开关中的多个二极管和每个MOSFET开关中的每一个的电流的负载。
    • 3. 发明申请
    • GRADIENT AMPLIFIER SYSTEM
    • 梯级放大器系统
    • US20120249145A1
    • 2012-10-04
    • US13076823
    • 2011-03-31
    • Rixin LaiLuis Jose GarcesJuan Antonio SabateJuan Manuel Rivas DavilaSong ChiWesley Michael Skeffington
    • Rixin LaiLuis Jose GarcesJuan Antonio SabateJuan Manuel Rivas DavilaSong ChiWesley Michael Skeffington
    • G01R33/44H03F3/68
    • G01R33/3852
    • A gradient amplifier system is presented. An embodiment of a gradient amplifier system that includes a power stage having a plurality of bridge amplifiers, where each of the plurality of bridge amplifiers operates at a first switching frequency. The gradient amplifier system further includes a gradient coil coupled to an output terminal of the power stage and configured to produce a magnetic field proportional to a coil current signal supplied by the power stage. In addition, the gradient amplifier system includes a controller stage coupled to an input terminal of the power stage and configured to generate a pulse width modulated gate signal based on the coil current signal and a reference current signal, where the pulse width modulated gate signal is generated at a second switching frequency upon occurrence of a slew rate associated with the reference current signal is below a determined threshold rate and an amplitude level associated with the reference current signal is above a determined level. Further, the controller stage is configured to apply the generated pulse width modulated gate signal to the power stage for changing an operating frequency of each of the plurality of bridge amplifiers from the first switching frequency to the second switching frequency.
    • 提出了一种梯度放大器系统。 一种梯度放大器系统的实施例,其包括具有多个桥接放大器的功率级,其中多个桥接放大器中的每一个以第一开关频率工作。 梯度放大器系统还包括耦合到功率级的输出端并被配置为产生与由功率级提供的线圈电流信号成比例的磁场的梯度线圈。 此外,梯度放大器系统包括耦合到功率级的输入端子并被配置为基于线圈电流信号和参考电流信号产生脉宽调制门信号的控制器级,其中脉宽调制门信号为 在与参考电流信号相关联的转换速率出现时以第二开关频率产生的信号低于所确定的阈值速率,并且与参考电流信号相关联的幅度电平高于所确定的电平。 此外,控制级被配置为将产生的脉宽调制门信号施加到功率级,用于将多个桥接放大器中的每一个的工作频率从第一开关频率改变为第二开关频率。
    • 4. 发明授权
    • Gradient amplifier system
    • 梯度放大器系统
    • US08502539B2
    • 2013-08-06
    • US13076823
    • 2011-03-31
    • Rixin LaiLuis Jose GarcesJuan Antonio SabateJuan Manuel Rivas DavilaSong ChiWesley Michael Skeffington
    • Rixin LaiLuis Jose GarcesJuan Antonio SabateJuan Manuel Rivas DavilaSong ChiWesley Michael Skeffington
    • G01V3/00
    • G01R33/3852
    • A gradient amplifier system is presented. An embodiment of a gradient amplifier system that includes a power stage having a plurality of bridge amplifiers, where each of the plurality of bridge amplifiers operates at a first switching frequency. The gradient amplifier system further includes a gradient coil coupled to an output terminal of the power stage and configured to produce a magnetic field proportional to a coil current signal supplied by the power stage. In addition, the gradient amplifier system includes a controller stage coupled to an input terminal of the power stage and configured to generate a pulse width modulated gate signal based on the coil current signal and a reference current signal, where the pulse width modulated gate signal is generated at a second switching frequency upon occurrence of a slew rate associated with the reference current signal is below a determined threshold rate and an amplitude level associated with the reference current signal is above a determined level. Further, the controller stage is configured to apply the generated pulse width modulated gate signal to the power stage for changing an operating frequency of each of the plurality of bridge amplifiers from the first switching frequency to the second switching frequency.
    • 提出了一种梯度放大器系统。 一种梯度放大器系统的实施例,其包括具有多个桥接放大器的功率级,其中多个桥接放大器中的每一个以第一开关频率工作。 梯度放大器系统还包括耦合到功率级的输出端并被配置为产生与由功率级提供的线圈电流信号成比例的磁场的梯度线圈。 此外,梯度放大器系统包括耦合到功率级的输入端子并被配置为基于线圈电流信号和参考电流信号产生脉宽调制门信号的控制器级,其中脉宽调制门信号为 在与参考电流信号相关联的转换速率出现时以第二开关频率产生的信号低于所确定的阈值速率,并且与参考电流信号相关联的幅度电平高于所确定的电平。 此外,控制级被配置为将产生的脉宽调制门信号施加到功率级,用于将多个桥接放大器中的每一个的工作频率从第一开关频率改变为第二开关频率。
    • 7. 发明授权
    • Current driving circuit for inductive loads
    • 电感负载的电流驱动电路
    • US07327092B2
    • 2008-02-05
    • US11290670
    • 2005-11-30
    • Antonio CaiafaJuan Antonio Sabate
    • Antonio CaiafaJuan Antonio Sabate
    • H05B37/00
    • H05G1/10H05G1/52Y10T307/647
    • A circuit for driving the current for inductive loads such as an electron beam deflection coil for an x-ray generator system. The circuit includes two selectable voltage levels provided by a high level and a low level source. A plurality of switches selects the voltage level and determines the polarity of the current through the coil. The high level source is selected when the load is charging or discharging. The low level source is selected when the load is operating in a constant current mode, where a high frequency switching device controls the voltage through the load by switching the low level source to generate a PWM waveform according to a reference current duty cycle. A feedback loop monitors the current through the load to adjust the duty cycle of the PWM waveform to more accurately control the current through the load.
    • 用于驱动用于感应负载的电流的电路,例如用于X射线发生器系统的电子束偏转线圈。 该电路包括由高电平和低电平源提供的两个可选择的电压电平。 多个开关选择电压电平并确定通过线圈的电流的极性。 当负载充电或放电时,选择高电平源。 当负载在恒流模式下工作时,选择低电平源,其中高频开关器件通过切换低电平源来控制负载中的电压,以根据参考电流占空比产生PWM波形。 反馈回路监控负载中的电流,以调整PWM波形的占空比,以更准确地控制通过负载的电流。