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    • 2. 发明申请
    • OVERCURRENT DETECTING CIRCUIT AND POWER SUPPLY DEVICE
    • 过流检测电路和电源装置
    • US20100237897A1
    • 2010-09-23
    • US12724715
    • 2010-03-16
    • Hiroyuki KikutaNorihiro KawagishiYuichi Ohkubo
    • Hiroyuki KikutaNorihiro KawagishiYuichi Ohkubo
    • G01R31/36
    • H02M3/33507G01R19/165G01R31/40
    • An overcurrent detecting circuit includes a comparison transistor, a constant current source circuit, and a comparison circuit. The comparison transistor includes a gate and a drain respectively connected to a gate and a drain of a main transistor provided in a power circuit. The comparison transistor is used for comparison with the main transistor when a voltage higher than a power supply voltage is applied to the gate of the main transistor and the gate of the comparison transistor during the operation of the power circuit. The constant current source circuit generates a constant current and supplies the constant current to the comparison transistor. The comparison circuit compares a source voltage of the comparison transistor with a source voltage of the main transistor and outputs a voltage indicating the comparison result.
    • 过电流检测电路包括比较晶体管,恒流源电路和比较电路。 比较晶体管包括分别连接到设置在电源电路中的主晶体管的栅极和漏极的栅极和漏极。 比较晶体管用于在电源电路的操作期间将高于电源电压的电压施加到主晶体管的栅极和比较晶体管的栅极时与主晶体管进行比较。 恒流源电路产生恒定电流并将恒定电流提供给比较晶体管。 比较电路将比较晶体管的源极电压与主晶体管的源极电压进行比较,并输出表示比较结果的电压。
    • 3. 发明申请
    • VOLTAGE GENERATING CIRCUIT
    • 电压发生电路
    • US20100237926A1
    • 2010-09-23
    • US12724518
    • 2010-03-16
    • Hiroyuki KikutaYuichi OhkuboKazuyoshi Asakawa
    • Hiroyuki KikutaYuichi OhkuboKazuyoshi Asakawa
    • G06G7/14
    • G06G7/14
    • A voltage generating circuit including first and second voltage sources, and a subtracting circuit. The subtraction circuit is configured as a differential amplifier including an op-amp and four resistors, with an inverting input terminal of the op-amp connected to the second voltage source via a first resistor, a second resistor connected between the inverting input terminal and an output terminal of the op-amp, a non-inverting input terminal of the op-amp connected to the first voltage source via a third resistor of the same size as the second resistor, the non-inverting input terminal of the op-amp connected to a reference potential terminal via a fourth resistor of the same size as the first resistor, the first voltage from the first voltage source and the second voltage from the second voltage source inputted to the subtracting circuit, and the subtracting circuit outputting a third voltage having a positive temperature coefficient.
    • 包括第一和第二电压源的电压产生电路和减法电路。 减法电路被配置为包括运算放大器和四个电阻器的差分放大器,其中运算放大器的反相输入端经由第一电阻器连接到第二电压源,第二电阻器连接在反相输入端子和 运算放大器的输出端子,运算放大器的同相输入端子通过与第二电阻器相同尺寸的第三电阻器连接到第一电压源,运算放大器的非反相输入端子连接 经由与第一电阻器相同尺寸的第四电阻器连接到参考电位端子,来自第一电压源的第一电压和来自第二电压源的第二电压输入到减法电路,并且减法电路输出具有 正温度系数。
    • 4. 发明申请
    • BRUSHLESS MOTOR DRIVING CIRCUIT
    • 无刷马达驱动电路
    • US20100237816A1
    • 2010-09-23
    • US12720830
    • 2010-03-10
    • Kunio SekiKazutaka InoueHiroyuki KikutaYuichi Ohkubo
    • Kunio SekiKazutaka InoueHiroyuki KikutaYuichi Ohkubo
    • H02P6/14
    • H02P6/085H02M1/32H02M7/5387H02P6/34H02P29/0241
    • The present disclosure provides a brushless motor driving circuit capable of clamping an output voltage at a proper voltage, even when a power source voltage changes. Namely, a pre-driver circuit generates a voltage for driving a brushless motor from a source voltage by turning on/off first and second PMOS transistors and first and second NMOS transistors in an H bridge circuit of a drive voltage generating circuit, and applies the voltage to a coil of the brushless motor. A first clamp circuit turns on/off the first NMOS transistor on the ground side so that the output voltage at a first output terminal becomes equal to or lower than the source voltage. A second clamp circuit turns on/off the second NMOS transistor on the ground side so that output voltage at a second output terminal becomes equal to or lower than the source voltage.
    • 本发明提供一种能够将输出电压钳位在适当电压下的无刷电动机驱动电路,即使电源电压变化。 也就是说,预驱动器电路通过在驱动电压产生电路的H桥电路中接通/关闭第一和第二PMOS晶体管以及第一和第二NMOS晶体管,从源极电压产生用于驱动无刷电动机的电压, 电压到无刷电机的线圈。 第一钳位电路接地/关断接地侧的第一NMOS晶体管,使得第一输出端子处的输出电压变得等于或低于源极电压。 第二钳位电路在接地侧接通/关断第二NMOS晶体管,使得第二输出端子处的输出电压变得等于或低于源极电压。
    • 5. 发明授权
    • Brushless motor driving circuit
    • 无刷电机驱动电路
    • US08390222B2
    • 2013-03-05
    • US12720830
    • 2010-03-10
    • Kunio SekiKazutaka InoueHiroyuki KikutaYuichi Ohkubo
    • Kunio SekiKazutaka InoueHiroyuki KikutaYuichi Ohkubo
    • H02P6/00H02P6/14
    • H02P6/085H02M1/32H02M7/5387H02P6/34H02P29/0241
    • The present disclosure provides a brushless motor driving circuit capable of clamping an output voltage at a proper voltage, even when a power source voltage changes. Namely, a pre-driver circuit generates a voltage for driving a brushless motor from a source voltage by turning on/off first and second PMOS transistors and first and second NMOS transistors in an H bridge circuit of a drive voltage generating circuit, and applies the voltage to a coil of the brushless motor. A first clamp circuit turns on/off the first NMOS transistor on the ground side so that the output voltage at a first output terminal becomes equal to or lower than the source voltage. A second clamp circuit turns on/off the second NMOS transistor on the ground side so that output voltage at a second output terminal becomes equal to or lower than the source voltage.
    • 本发明提供一种能够将输出电压钳位在适当电压下的无刷电动机驱动电路,即使电源电压变化。 也就是说,预驱动器电路通过在驱动电压产生电路的H桥电路中接通/关闭第一和第二PMOS晶体管以及第一和第二NMOS晶体管,从源极电压产生用于驱动无刷电动机的电压, 电压到无刷电机的线圈。 第一钳位电路接地/关断接地侧的第一NMOS晶体管,使得第一输出端子处的输出电压变得等于或低于源极电压。 第二钳位电路在接地侧接通/关断第二NMOS晶体管,使得第二输出端子处的输出电压变得等于或低于源极电压。
    • 6. 发明申请
    • BRUSHLESS MOTOR DRIVING APPARATUS
    • 无刷电机驱动装置
    • US20100237813A1
    • 2010-09-23
    • US12719525
    • 2010-03-08
    • Kunio SekiKazutaka InoueHiroyuki KikutaYuichi Ohkubo
    • Kunio SekiKazutaka InoueHiroyuki KikutaYuichi Ohkubo
    • H02P6/14
    • H02P6/085H02P6/26
    • A brushless motor driving apparatus that includes a rotation signal output component, a half-cycle signal generating component, a plurality of counters, and a duty control signal generating component is provided. The plurality of counters, each of which uses a different bit number to count, repeatedly resets a count value and restarts a count operation for every bit number, resets a count value together with rising or falling of a half-cycle signal, and outputs a pulse signal which is inverted for every reset that occurs while the count operation is being performed. The duty control signal generating component generates a duty control signal to determine a duty ratio of a control signal to control driving of a single-phase brushless motor, based on at least two pulse signals selected from the pulse signals output from the plurality of counters.
    • 提供一种包括旋转信号输出部件,半周期信号生成部件,多个计数器和占空比控制信号生成部件的无刷电动机驱动装置。 多个计数器中的每一个使用不同的位数进行计数,重复复位计数值并重新开始每个位数的计数操作,与半周期信号的上升或下降一起复位计数值,并输出一个 脉冲信号对于在执行计数操作时发生的每个复位而被反转。 占空比控制信号产生部件基于从多个计数器输出的脉冲信号中选择的至少两个脉冲信号,产生占空比控制信号,以确定用于控制单相无刷电动机的驱动的控制信号的占空比。
    • 8. 发明授权
    • Monolithic semiconductor integrated circuit device having current
adjusting circuit
    • 具有电流调节电路的单片半导体集成电路器件
    • US5053650A
    • 1991-10-01
    • US457308
    • 1989-12-26
    • Yuichi OhkuboSatoru SekiguchiToshihiko WatanabeNobuaki Yoneya
    • Yuichi OhkuboSatoru SekiguchiToshihiko WatanabeNobuaki Yoneya
    • H01L27/04H01L21/822H03F3/45H03G5/04H03H3/00H03H11/04
    • H03G5/04H03F3/45071H03H3/00H03F2203/45048H03F2203/45466
    • A monolithic semiconductor integrated circuit device includes a differentially operative circuit section, an amplifying element connected to define a current flowing in the differentially operative circuit section and a circuit for adjusting a current flowing in the amplifying element to thereby compensate for variations of electric characteristics from one semiconductor device to another. The current adjusting circuit includes at least one amplifying element and a load resistance for the amplifying element in the current adjusting circuit. The load resistance has a structure suitable for a trimming operation to adjustably determine the resistance value of the load resistance. The amplifying elements are in a current mirror circuit connection with their control electrodes being concerned with each other so that the electric current flowing in the current path between the current receiving and delivering electrodes of the amplifying element connected to define the current flowing in the differentially operative circuit section is controlled by the adjustably determined resistance of the load resistance.
    • 单片半导体集成电路装置包括差分操作电路部分,连接以限定在差分操作电路部分中流动的电流的放大元件和用于调节在放大元件中流动的电流的电路,从而补偿来自一个的电特性的变化 半导体器件到另一个。 电流调节电路包括至少一个放大元件和用于电流调节电路中的放大元件的负载电阻。 负载电阻具有适于修整操作的结构,以可调整地确定负载电阻的电阻值。 放大元件处于与其控制电极相互关联的电流镜电路连接中,使得在放大元件的电流接收和输出电极之间的电流路径中流动的电流连接以限定在差分操作中流动的电流 电路部分由可调节确定的负载电阻的电阻控制。
    • 9. 发明授权
    • Switchable signal compressor/signal expander
    • 可切换信号压缩器/信号扩展器
    • US4412189A
    • 1983-10-25
    • US262814
    • 1981-05-12
    • Yasuo KominamiTetsuo SatoYuichi Ohkubo
    • Yasuo KominamiTetsuo SatoYuichi Ohkubo
    • H03G9/02H04B1/64
    • H03G9/025
    • Either an input signal of a combining network or an output signal of an inverter arranged on a main path is fed to a side path through a mode switch in a switchable signal compressor/signal expander. Since an input terminal of a control amplifier is connected to a variable filter without passing through a signal amplifier, the deviation of the detection characteristic of a rectifier and integrator attributed to D.C. offset voltages of the signal amplifier and the control amplifier can be reduced. On the other hand, a switchable signal compressor/signal expander in another aspect of performance has a reference voltage generator for producing a D.C. reference voltage, and the output D.C. level of the control amplifier is maintained at a level approximate to the D.C. reference voltage. The other ends of first and second capacitors of the rectifier and integrator are also supplied with the D.C. reference voltage, so that the fluctuation of the detection characteristic of the rectifier and integrator ascribable to the fluctuation of the D.C. reference voltage is reduced.
    • 组合网络的输入信号或布置在主路径上的反相器的输出信号被馈送到可切换信号压缩器/信号扩展器中的模式开关的侧路径。 由于控制放大器的输入端子连接到可变滤波器而不通过信号放大器,所以可以减小归因于信号放大器和控制放大器的直流偏移电压的整流器和积分器的检测特性的偏差。 另一方面,另一方面的可切换信号压缩器/信号扩展器具有用于产生直流参考电压的参考电压发生器,并且控制放大器的输出直流电平保持在接近直流参考电压的电平。 整流器和积分器的第一和第二电容器的另一端还具有直流参考电压,从而降低归因于直流参考电压的波动的整流器和积分器的检测特性的波动。