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    • 4. 发明专利
    • REFERENCE VOLTAGE GENERATING CIRCUIT
    • JPH06301429A
    • 1994-10-28
    • JP8605893
    • 1993-04-13
    • HITACHI LTDHITACHI TOBU SEMICONDUCTOR LTD
    • SONOBE HIROAKIOKAZAKI TAKAO
    • G05F1/10H03M1/06H03M1/34
    • PURPOSE:To quicken the rising and falling of an output reference voltage by providing a voltage transmission circuit which forms a by-pass between the input and output of a filter when the power source is turned ON and a discharging circuit which discharges electric charges accumulated in the filter when the power source is turned OFF. CONSTITUTION:When the power source is turned ON, reference voltages Vr1 and Vr2 which are in certain proportional relation to the reference voltage VS generated by a reference voltage generation source 1 are generated by a voltage converter 2 and the voltage transmission circuit 6 is operated with a power-ON signal Son to by-pass the resistance Rt of the filter 4. Consequently, the time constant of the filter 4 becomes small and the reference voltages Vr1 and Vr2 generated by the voltage converter 2 can rise immediately while charging the capacitor Ct of the filter 4. Then when the power source is turned OFF, the discharging circuit 7 operates and electric charges left in the capacitor Ct of the filter 4 are speedily discharged. Consequently, the output reference voltages Vr1 and Vr2 immediately fall.
    • 6. 发明专利
    • PLL CIRCUIT
    • JPH03101520A
    • 1991-04-26
    • JP23881489
    • 1989-09-14
    • HITACHI LTD
    • OKAZAKI TAKAO
    • H03L7/087
    • PURPOSE:To suppress jitters and a steady-state error by providing a phase comparator circuit forming stably a desired phase difference signal and a phase comparator circuit not almost causing hazard, and making both the circuits effective selectively in response to the phase pull-in state of a PLL circuit. CONSTITUTION:A phase comparator circuit PFC1, although causing hazard, stably forms a desired phase difference signal independently of the phase difference between an input clock signal phir and an internal clock signal phiv. The operating enable area of a phase comparator circuit PFC2 is limited to the case that the phase difference of both the clock signals is comparatively small, but hazard is not almost caused. A selection circuit SL delivering a phase difference signal from the phase comparator circuit selectively according to the phase difference of both the clock signals, that is, the phase pull-in state of the PLL circuit is provided. Thus, the optimum phase comparator circuit is selectively valid according to the phase lock state and jitters and a steady-state phase error are suppressed.
    • 7. 发明专利
    • VOLTAGE CONTROLLED OSCILLATING CIRCUIT
    • JPH03101410A
    • 1991-04-26
    • JP23702189
    • 1989-09-14
    • HITACHI LTD
    • SATO HARUYUKIOKAZAKI TAKAO
    • H03K3/354
    • PURPOSE:To eliminate the need for n-set of current sources in the case of connecting n-stage of inverters and to reduce the chip area by varying a potential difference between a source of an N-channel MOS and a source of a P- channel MOS to control a current flowing to the inverter thereby controlling a delay time of the inverter. CONSTITUTION:The circuit consists of a control input terminal (a), a source follower (b) comprising an N-channel MOS, a + power terminal (c), an output terminal (d), a resistor (e) and a CMOS inverter F. Then a control voltage inputted to the control input terminal (a) is fed to the source of a P-channel MOS of the CMOS inverter F through a source follower (b) of the N-channel MOS. Thus, the potential difference between the source of the P-channel MOS of the CMOS inverter F and the source of the n-channel MOS varies with the control voltage to vary the delay time of the CMOS inverter F. Thus, even when n-stage of inverters are connected, n-set of current sources are not required, then the chip area is reduced.
    • 8. 发明专利
    • PLL CIRCUIT
    • JPS6271332A
    • 1987-04-02
    • JP20995285
    • 1985-09-25
    • HITACHI LTD
    • OKAZAKI TAKAO
    • H03L7/18H03L7/06H03L7/08
    • PURPOSE:To quicken a pull-in time by increasing the control current deciding the high frequency gain attended with the rise of a control voltage to compensate the reduction in the high frequency. CONSTITUTION:As the control voltage VC increases, the current value of control currents Id', Iu' formed by MOSFETs Q2, Q3 is increased. As a result, since the control currents Id', Iu' formed by the MOSFETs Q2, Q3 are increased proportionally to the decrease in the high frequency gain by MOSFETs Q5, Q6 attended with the increase in the control voltage VC shown in dotted lines in the characteristic diagram, the high frequency gain is increased as shown in broken lines. Thus, even in the speed worst state SW' where the current hardly flows in the MOSFET due to, e.g., the variation of process, a sufficient high frequency gain is obtained as shown in arrows.
    • 9. 发明专利
    • Step-up dc-dc switching converter and semiconductor integrated circuit device
    • 升压DC-DC开关转换器和半导体集成电路器件
    • JP2010279138A
    • 2010-12-09
    • JP2009128419
    • 2009-05-28
    • Hitachi Ltd株式会社日立製作所
    • YAMAMOTO MASAHIKOOKAZAKI TAKAO
    • H02M3/155H01L21/822H01L27/04
    • H02M3/156
    • PROBLEM TO BE SOLVED: To provide a step-up dc-dc switching converter with a booster circuit that enables stable control not depending upon the logical threshold voltage of a semiconductor switch element, and to provide a semiconductor integrated circuit.
      SOLUTION: The step-up dc-dc switching converter includes a control logic 10 which generates a drive voltage to be supplied to a semiconductor switch element 20, a power circuit 60 which boosts the voltage of a battery and shifts the level of the drive voltage that the control logic outputs, and an amplifying element 50 which operates using a voltage generated by the semiconductor switch element 20 as its power. A semiconductor switch element control signal VGATE with its level shifted is higher than the logical threshold voltage of the semiconductor switch element 20, thereby controlling the ON/OFF of the semiconductor switch element 20.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种具有升压电路的升压型DC-DC开关转换器,其能够不依赖于半导体开关元件的逻辑阈值电压的稳定控制,并提供半导体集成电路。 解决方案:升压型DC-DC开关转换器包括产生要提供给半导体开关元件20的驱动电压的控制逻辑10,电源电路60,其提高电池的电压并使电平 控制逻辑输出的驱动电压,以及使用由半导体开关元件20产生的电压作为其功率而工作的放大元件50。 其电平偏移的半导体开关元件控制信号VGATE高于半导体开关元件20的逻辑门限电压,从而控制半导体开关元件20的导通/截止。(C)2011年,JPO&INPIT