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    • 51. 发明专利
    • Decoder
    • 解码器
    • JPS5775029A
    • 1982-05-11
    • JP15075080
    • 1980-10-29
    • Hitachi Ltd
    • SATOU HIDEHIROYAMAKIDO KAZUO
    • H03M1/66H03M1/38H03M1/80H04B14/04
    • H03M1/80
    • PURPOSE:To obtain a decoder having a prescribed nonlinearity, by setting the ratio of the overall capacity value of a capacitor array circuit to the capacity value of the hold capacitor of a sample holding circuit to a prescribed value. CONSTITUTION:A reset switch RS2 is closed to discharge a hold capacitor CH, and next, a set switch ST is connected to an input terminal VIN and a sampling switch SP is closed. An input voltage is divided and applied to capacitors C1- C8, and switches S1-S8 are controlled selectively by a PCM code. At this time, when the overall capacity value of capacitors C1-C8 is denoted as Ca, the gain of a sample holding circit is GSH= Ca/CH. Since Ca=256C is true, CH is 251C/alpha approximately in case of the mu rule and is 252C/alpha in case of the A rule. However, alpha is 1 practically.
    • 目的:通过将电容器阵列电路的总电容值与采样保持电路的保持电容的容量值的比例设定为规定值,来获得规定的非线性的解码器。 构成:复位开关RS2闭合以放电保持电容CH,接下来,将一个开关ST连接到输入端VIN,并且采样开关SP闭合。 输入电压被分压并施加到电容器C1-C8,开关S1-S8由PCM代码选择性地控制。 此时,当电容器C1-C8的总容量值表示为Ca时,样品保持环路的增益为GSH = Ca / CH。 由于Ca = 256℃是真的,在μ规则的情况下,CH约为251C /α,在A规则的情况下为252C /α。 然而,alpha实际上是1。
    • 52. 发明专利
    • REFERENCE VOLTAGE SUPPLYING CIRCUIT
    • JPS5616320A
    • 1981-02-17
    • JP9156779
    • 1979-07-20
    • HITACHI LTD
    • YAMAKIDO KAZUO
    • H03M1/12G05F1/46G05F1/56H03K17/00H03M1/00
    • PURPOSE:To secure an equal absolute value for the output voltage switched to both the positive and negative directions, by providing the capacitor to compensate the floating capacity. CONSTITUTION:One end of capacitor C4 which compensates the floating capacity is connected to output terminal 11; and at the same time the other end is earthed via switch S6. And in the charging mode, switches S1, S2, S5 and S6 are turned on with other switches turned off respectively. Then capacitor C0 and floating capacitor C1 are charged with output voltage E of power source 6. In this instant, the charges of floating capacities C2 and C3 plus capacity C4 are all discharged. Then in the forward voltage output mode, switches S2, S3 and S6 are turned on with other switched turned off respectively. And the output given from terminal 12 is expressed by equation 2. Here if capacities C0 and C4 are set to satisfy equation 3, the absolute value can be made equal for the output voltage supplied from terminal 12.
    • 56. 发明专利
    • SEMICONDUCTOR DEVICE
    • JPH07245534A
    • 1995-09-19
    • JP5668694
    • 1994-03-02
    • HITACHI LTD
    • TANBA HIROKOYAMAKIDO KAZUO
    • H03F3/34
    • PURPOSE:To promote a low voltage supply and low power consumption for a portable communication terminal equipment or the like and to make the size small, to make the weight light and to reduce the cost by realizing a level shift circuit suitably interfacing circuits using different power supply voltages as operating power supply voltages. CONSTITUTION:In a portable communication terminal equipment or the like provided with plural circuits whose power supply voltages are different, that is, provided with LSIs, a level shift circuit LSFI interfacing the LSIs in which a center potential of an analog signal in each LSI is set respectively to half of power supply voltages VDD, VCC, is basically provided with an operational amplifier OA2 whose inverting input terminal (-) receives an input analog signal Vi via a resistor R1 and whose noninverting input terminal (+) receives a prescribed bias voltage VL and with a resistor R2 located between the inverting input terminal (-) and an output terminal of the amplifier OA2.
    • 58. 发明专利
    • A/D CONVERTER
    • JPH06209263A
    • 1994-07-26
    • JP324193
    • 1993-01-12
    • HITACHI LTDHITACHI TOBU SEMICONDUCTOR LTD
    • WATANABE HIROBUMIOKAZAKI TAKAOKITA MASAHITOYAMAKIDO KAZUO
    • H03M1/36
    • PURPOSE:To enable the noise proofing property and low power consumption property of an A/D converter under the circumstance of low power supply voltage by stabilizing the reference voltage across a voltage divider resistor array constantly also when constant current in a voltage divider resistor array is reduced. CONSTITUTION:Voltage followers 51, 52 perform the negative feedback control of the source follower output voltage of MOSTr M1, M2 in arthmetic amplifiers AP1, AP2 so that the reference voltage VH, VL across a voltage divider resistor array 1 may be constant voltage. A voltage follower 6 transmits the voltage of an analog input signal Ain to each comparator CP of a comparator circuit column 2. At this time, the followers 51, 52 stabilizes the feedback operation in constant current circuits ICS1, ICS2 flowing very small constant current from the feedback input side of the amplifiers AP1, AP2. Thus, by compulsorily stabilizing the operation by the negative feedback control of the source followers of Tr M1, M2 and the amplifiers AP1, AP2, the voltage VH, VL across the voltage divider resistor array 1 can be always made constant even when the constant current of the resistance column 1 is small.
    • 60. 发明专利
    • A/D CONVERTER
    • JPH0563578A
    • 1993-03-12
    • JP24827791
    • 1991-09-02
    • HITACHI LTD
    • ISHIHARA HAYATOTANBA HIROKOYAMAKIDO KAZUO
    • H03M3/02
    • PURPOSE:To prevent deterioration in the characteristic due to switching noise by eliminating the need for a sampling switch in a current drive type A/D converter. CONSTITUTION:The A/D converter is provided with a voltage/current conversion circuit 1, a local D/A converter circuit 2 whose output current is controlled by a digital signal, an output current difference to an analog circuit 3 whose one terminal connects to a DC potential point is integrated and a voltage resulting from the integration is quantized by a quantization circuit 4, the result is integrated by a digital integration circuit 5 and the integrated value is given to a feedback quantity correction circuit 6 and the result of A/D conversion is outputted. The feedback quantity correction circuit 6 applies correction to cancel an analog error sampled by the analog circuit 3 to the digital signal till the output of the quantization circuit 4 is reflected on an output of the local D/A converter circuit 2 (till digital integration is implemented to a quantization output).