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    • 1. 发明申请
    • DISPLAY DRIVER AND DISPLAY APPARATUS
    • 显示驱动器和显示设备
    • US20100156861A1
    • 2010-06-24
    • US12630383
    • 2009-12-03
    • Tomohisa SakaguchiDaijiro ArisawaHiroshi AndoTetsu Nagano
    • Tomohisa SakaguchiDaijiro ArisawaHiroshi AndoTetsu Nagano
    • G09G5/00
    • G09G3/20G09G2310/0267G09G2310/08G09G2330/021G09G2330/025
    • A display driver includes a shift register; an OR circuit configured to perform an OR operation on data signals respectively representing bits in the shift register which are not adjacent to each other, and to output a result of the OR operation; a delay circuit configured to delay the output of the OR circuit, and to output the delayed output; timing generators respectively corresponding to the data signals, where each of the timing generators generates and outputs a first control signal including a first pulse and a second control signal including a second pulse in accordance with a corresponding one of the data signals and the output of the delay circuit; and output circuits respectively corresponding to the timing generators, where each of the output circuits outputs voltages of a first and a second power supply. A duration of the second pulse includes a duration of the first pulse.
    • 显示驱动器包括移位寄存器; OR电路,被配置为对分别表示彼此不相邻的移位寄存器中的位的数据信号执行OR运算,并输出OR运算结果; 延迟电路,被配置为延迟OR电路的输出,并输出延迟的输出; 定时发生器,其分别对应于数据信号,其中每个定时发生器产生并根据数据信号中的相应一个和所输出的数据信号输出包括第一脉冲和包括第二脉冲的第二控制信号的第一控制信号 延时电路; 以及分别对应于定时发生器的输出电路,其中每个输出电路输出第一和第二电源的电压。 第二脉冲的持续时间包括第一脉冲的持续时间。
    • 2. 发明申请
    • PUSH-PULL DRIVER CIRCUIT
    • 推拉驱动电路
    • US20110181341A1
    • 2011-07-28
    • US13079507
    • 2011-04-04
    • Kenichi ISHIBASHITetsu NaganoDaijiro Arisawa
    • Kenichi ISHIBASHITetsu NaganoDaijiro Arisawa
    • H03L5/00
    • H03K17/6874G09G3/296G09G2310/0289H03K3/353H03K17/164
    • A push-pull driver circuit includes a control circuit which controls switching operations of a plurality of high-side transistors, a level-shift circuit which shifts a control signal, output by the control circuit when the control circuit performs turn-off control on the plurality of transistors, to a first voltage by which the plurality of transistors are turned off, and which inputs the shifted signal to a gate of one of the plurality of transistors, and a conduction-state selection circuit which, if an output of the level-shift circuit is the first voltage, inputs the output to gates of the rest of the transistors, and otherwise, according to the control by the control circuit, sets each of gate inputs of the rest of the transistors to either a high-impedance state or a second voltage by which the plurality of transistors are turned on.
    • 推挽驱动器电路包括:控制电路,其控制多个高侧晶体管的开关动作;移位控制信号的电平移位电路;控制电路对控制电路进行关断控制时,由控制电路输出; 多个晶体管连接到多个晶体管截止的第一电压,并且将偏移的信号输入到多个晶体管中的一个晶体管的栅极;以及导通状态选择电路,如果电平的输出 变换电路是第一电压,将输出输入到晶体管的其余部分的栅极,否则,根据控制电路的控制,将晶体管的其余部分的每个栅极输入设置为高阻态 或多个晶体管导通的第二电压。
    • 3. 发明申请
    • Stepping motor driver
    • 步进电机驱动
    • US20120056574A1
    • 2012-03-08
    • US13373241
    • 2011-11-09
    • Daijiro Arisawa
    • Daijiro Arisawa
    • G05B19/40
    • H02P8/22H02P8/34Y02P80/116
    • In a drive of a stepping motor, an electromotive force is generated on the coil of a motor with a sinusoidal wave having the same period as an energization period by smoothly rotating a rotor with microstep driving, and an induced power is stably detected by detecting the electromotive force at the zero cross of driving current. The detection around the current zero cross makes it possible to shorten a detection section, form a driving waveform with few distortions, and perform driving with a driving waveform as in an ordinary micro step. Thus a circuit is provided which is aimed at reducing noise, vibrations, and loss of synchronization, and increasing current consumption efficiency in the determination of stop.
    • 在步进电机的驱动中,通过在微步驱动下平滑地旋转转子,通过具有与通电期间相同的周期的正弦波在电动机的线圈上产生电动势,并且通过检测到 驱动电流零交流电动势。 围绕当前零交叉点的检测使得可以缩短检测部分,形成具有很少失真的驱动波形,并且像普通微步骤那样以驱动波形执行驱动。 因此,提供了一种旨在减少噪声,振动和同步丢失的电路,并且在确定停止时提高电流消耗效率。
    • 4. 发明授权
    • Device of pulse width modulation type for load drive
    • 用于负载驱动的脉宽调制型装置
    • US07656113B2
    • 2010-02-02
    • US11907340
    • 2007-10-11
    • Akihisa UenoFumihisa WatanabeDaijiro Arisawa
    • Akihisa UenoFumihisa WatanabeDaijiro Arisawa
    • H02P7/29G05B11/28H03K7/00
    • H02M7/5395H02M7/487
    • A device of pulse width modulation type for load drive according to the present invention includes a first output unit (3) that applies a first output signal (e) to a load (5) in response to a first drive timing signal (c), a second output unit (4) that applies a second output signal (f) to the load (5) in response to a second drive timing signal (d), a signal converter (1) that converts a drive input signal (a) into a parallel signal (b), the drive input signal indicating time information allowing a potential difference to be generated across the load (5), and a drive timing generator (2) that generates the first and second drive timing signals (c, d) in response to the parallel signal (b), the load (5) being driven by increasing and reducing pulse widths of the first and second output signals (e, f).
    • 根据本发明的用于负载驱动的脉宽调制型装置包括响应于第一驱动定时信号(c)将第一输出信号(e)施加到负载(5)的第一输出单元(3) 响应于第二驱动定时信号(d)将负载(5)施加第二输出信号(f)的第二输出单元(4),将驱动输入信号(a)转换成 并行信号(b),指示允许在所述负载(5)之间产生电位差的时间信息的所述驱动输入信号;以及产生所述第一和第二驱动定时信号(c,d)的驱动定时发生器(2) 响应于并行信号(b),通过增加和减少第一和第二输出信号(e,f)的脉冲宽度来驱动负载(5)。
    • 5. 发明授权
    • Stepping motor driver
    • 步进电机驱动
    • US08362734B2
    • 2013-01-29
    • US13373241
    • 2011-11-09
    • Daijiro Arisawa
    • Daijiro Arisawa
    • H02P8/12
    • H02P8/22H02P8/34Y02P80/116
    • In a drive of a stepping motor, an electromotive force is generated on the coil of a motor with a sinusoidal wave having the same period as an energization period by smoothly rotating a rotor with microstep driving, and an induced power is stably detected by detecting the electromotive force at the zero cross of driving current. The detection around the current zero cross makes it possible to shorten a detection section, form a driving waveform with few distortions, and perform driving with a driving waveform as in an ordinary micro step. Thus a circuit is provided which is aimed at reducing noise, vibrations, and loss of synchronization, and increasing current consumption efficiency in the determination of stop.
    • 在步进电机的驱动中,通过在微步驱动下平滑地旋转转子,通过具有与通电期间相同的周期的正弦波在电动机的线圈上产生电动势,并且通过检测到 驱动电流零交流电动势。 围绕当前零交叉点的检测使得可以缩短检测部分,形成具有很少失真的驱动波形,并且像普通微步骤那样以驱动波形执行驱动。 因此,提供了一种旨在减少噪声,振动和同步丢失的电路,并且在确定停止时提高电流消耗效率。
    • 6. 发明授权
    • Semiconductor light source lighting circuit and vehicular lamp
    • 半导体光源照明电路和车灯
    • US08970136B2
    • 2015-03-03
    • US14197571
    • 2014-03-05
    • Satoshi KikuchiTakanori NambaMasayasu ItoDaijiro ArisawaMikio Motomori
    • Satoshi KikuchiTakanori NambaMasayasu ItoDaijiro ArisawaMikio Motomori
    • H05B37/02H05B33/08B60Q1/00
    • H05B33/0815B60Q1/00H05B33/0848Y02B20/346
    • A semiconductor light source lighting circuit includes a voltage step-down unit configured to generate a drive voltage lower than an input voltage by turning on or off a first switching element in a voltage step-down mode, a voltage step-up unit configured to generate the drive voltage higher than the input voltage by turning on or off a second switching element in a voltage step-up mode, and a controller. The controller includes a charge pump unit configured to repeat charging from the drive voltage to a second capacitor and discharging from the charged second capacitor to the first capacitor in the voltage step-up mode, and a switch drive unit configured to apply a voltage higher than the voltage at the other end of the first switching element to the control terminal of the first switching element by using a voltage of the charged first capacitor.
    • 一种半导体光源照明电路,包括:降压单元,被配置为通过以降压模式接通或关闭第一开关元件来产生低于输入电压的驱动电压;电压升压单元,被配置为产生 通过以升压模式接通或关闭第二开关元件,驱动电压高于输入电压,以及控制器。 所述控制器包括:电荷泵单元,被配置为在所述升压模式下,从所述驱动电压向所述第二电容器重复充电并从所述充电的第二电容器向所述第一电容器放电;以及开关驱动单元,被配置为施加高于 通过使用充电的第一电容器的电压将第一开关元件的另一端的电压提供给第一开关元件的控制端子。
    • 7. 发明申请
    • STEPPING MOTOR DRIVE UNIT
    • 步进电机驱动单元
    • US20120104985A1
    • 2012-05-03
    • US13195634
    • 2011-08-01
    • Masako YamadaDaijiro Arisawa
    • Masako YamadaDaijiro Arisawa
    • H02P8/00
    • H02P8/34
    • In a stepping motor drive unit which drives a stepping motor including coils having a plurality of phases, and has functions of causing both ends of one of the coils having one of the plurality of phases to have high impedance to detect an inductive voltage in the coil, and determining a rotation/stop state of the stepping motor based on a result of the detection, the stepping motor drive unit has a function of temporarily stopping, while causing the both ends of the coil having the one of the plurality of phases to have high impedance, PWM driving of at least one of the other coils to fix an energized state of the coil.
    • 在驱动具有多相线圈的步进电机的步进电机驱动单元中,具有使具有多相的一个线圈的一个线圈的两端具有高阻抗以检测线圈中的感应电压的功能 ,并且基于检测结果确定步进电动机的转动/停止状态,所述步进电动机驱动单元具有临时停止的功能,同时使具有所述多个相位中的所述一个的所述线圈的两端具有 高阻抗,PWM驱动至少一个其他线圈以固定线圈的通电状态。
    • 8. 发明申请
    • STEPPING MOTOR DRIVE AND STEPPING MOTOR DRIVING METHOD
    • 步进电机驱动和步进电机驱动方法
    • US20090066278A1
    • 2009-03-12
    • US12206096
    • 2008-09-08
    • Daijiro Arisawa
    • Daijiro Arisawa
    • H02P6/18
    • H02P8/22H02P8/34Y02P80/116
    • In a drive of a stepping motor, an electromotive force is generated on the coil of a motor with a sinusoidal wave having the same period as an energization period by smoothly rotating a rotor with microstep driving, and an induced power is stably detected by detecting the electromotive force at the zero cross of driving current. The detection around the current zero cross makes it possible to shorten a detection section, form a driving waveform with few distortions, and perform driving with a driving waveform as in an ordinary micro step. Thus a circuit is provided which is aimed at reducing noise, vibrations, and loss of synchronization, and increasing current consumption efficiency in the determination of stop.
    • 在步进电机的驱动中,通过在微步驱动下平滑地旋转转子,在具有与通电期间相同周期的正弦波的电动机的线圈上产生电动势,并且通过检测到 驱动电流零交流电动势。 围绕当前零交叉点的检测使得可以缩短检测部分,形成具有很少失真的驱动波形,并且像普通微步骤那样以驱动波形执行驱动。 因此,提供了一种旨在减少噪声,振动和同步丢失的电路,并且在确定停止时提高电流消耗效率。
    • 9. 发明申请
    • Device of pulse width modulation type for load drive
    • 用于负载驱动的脉宽调制型装置
    • US20080088271A1
    • 2008-04-17
    • US11907340
    • 2007-10-11
    • Akihisa UenoFumihisa WatanabeDaijiro Arisawa
    • Akihisa UenoFumihisa WatanabeDaijiro Arisawa
    • H02P23/00
    • H02M7/5395H02M7/487
    • A device of pulse width modulation type for load drive according to the present invention includes a first output unit (3) that applies a first output signal (e) to a load (5) in response to a first drive timing signal (c), a second output unit (4) that applies a second output signal (f) to the load (5) in response to a second drive timing signal (d), a signal converter (1) that converts a drive input signal (a) into a parallel signal (b), the drive input signal indicating time information allowing a potential difference to be generated across the load (5), and a drive timing generator (2) that generates the first and second drive timing signals (c, d) in response to the parallel signal (b), the load (5) being driven by increasing and reducing pulse widths of the first and second output signals (e, f).
    • 根据本发明的用于负载驱动的脉宽调制型装置包括响应于第一驱动定时信号(c)将第一输出信号(e)施加到负载(5)的第一输出单元(3) 响应于第二驱动定时信号(d)将负载(5)施加第二输出信号(f)的第二输出单元(4),将驱动输入信号(a)转换成 并行信号(b),指示允许在所述负载(5)之间产生电位差的时间信息的所述驱动输入信号;以及产生所述第一和第二驱动定时信号(c,d)的驱动定时发生器(2) 响应于并行信号(b),通过增加和减少第一和第二输出信号(e,f)的脉冲宽度来驱动负载(5)。
    • 10. 发明授权
    • Drive device and display device
    • 驱动装置和显示装置
    • US08514214B2
    • 2013-08-20
    • US13166494
    • 2011-06-22
    • Daijiro Arisawa
    • Daijiro Arisawa
    • G09G5/00G06F3/033
    • H04N5/66
    • The drive device includes a first switch section including switching elements, a second switch section including switching elements, and output circuits. Each of the output circuits includes a switching element having a first and a second end, a first voltage being supplied to the first end, and a first and a second rectifier element each having a current input terminal and a current output terminal connected to the second end of the switching element. Each of the output circuits corresponds to one of the switching elements of the first switch section and one of the switching elements of the second switch section, the one of the switching elements of the first switch section is connected to the current input terminal of the first rectifier element, and the one of the switching elements of the second switch section is connected to the current input terminal of the second rectifier element.
    • 驱动装置包括包括开关元件的第一开关部分,包括开关元件的第二开关部分和输出电路。 每个输出电路包括具有第一和第二端的开关元件,提供给第一端的第一电压,以及分别具有连接到第二端的电流输入端和电流输出端的第一和第二整流元件 开关元件的端部。 每个输出电路对应于第一开关部分的开关元件之一和第二开关部分的开关元件之一,第一开关部分的开关元件中的一个连接到第一开关部分的电流输入端子 整流元件,第二开关部的开关元件之一与第二整流元件的电流输入端子连接。