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    • 1. 发明申请
    • LOAD DRIVING CIRCUIT
    • 负载驱动电路
    • WO1998010452A1
    • 1998-03-12
    • PCT/JP1997002038
    • 1997-06-12
    • THE NIPPON SIGNAL CO., LTD.SAKAI, MasayoshiFUTSUHARA, Koichi
    • THE NIPPON SIGNAL CO., LTD.
    • H01H09/54
    • H01H47/005H01H9/548H01H47/002H03K17/18Y10T307/937Y10T307/957Y10T307/964
    • A load driving circuit in which an emergency switch for forced stoppage and a service switch for controlling current are connected in series with a load power-feeding circuit. An emergency switch (SWA) and a service switch (SWB) are connected in series with the load power-feeding circuit and the switch (SWB) is periodically turned off for a short time in accordance with the control signal (X) of a service switch control circuit (30). The turn-off state of the switch (SWB) is monitored through the output signal (AC) of a monitoring circuit (40). When the output signal (AC) of the circuit (40) is not generated for more than the off-delay time of an off-delay circuit (21), the control signal (Z) of an emergency switch control circuit (20) is stopped and the switch (SWA) is forcedly turned off.
    • 用于强制停止的紧急开关和用于控制电流的服务开关的负载驱动电路与负载供电电路串联连接。 紧急开关(SWA)和维修开关(SWB)与负载供电电路串联连接,开关(SWB)根据服务的控制信号(X)在短时间内周期性地关闭 开关控制电路(30)。 通过监视电路(40)的输出信号(AC)监视开关(SWB)的关断状态。 当电路(40)的输出信号(AC)不产生超过关断延迟电路(21)的截止延迟时间时,紧急开关控制电路(20)的控制信号(Z)为 停止,开关(SWA)被强制关闭。
    • 2. 发明申请
    • FAIL-SAFE TIMER CIRCUIT AND ON-DELAY CIRCUIT USING THE SAME
    • 故障安全定时器电路和使用相同的延时电路
    • WO1997021271A1
    • 1997-06-12
    • PCT/JP1996003569
    • 1996-12-05
    • THE NIPPON SIGNAL CO., LTD.SHIRAI, ToshihitoFUTSUHARA, Koichi
    • THE NIPPON SIGNAL CO., LTD.
    • H03K17/292
    • H03K17/292
    • A fail-safe timer circuit which does not generate such an erroneous output that shortens delay time when a fault occurs and an on-delay circuit. The timer circuit comprises an oscillator circuit (11) which generates a timer output from the cathode terminal of a PUT prescribed period after an input signal (VIN) is received and a monitoring circuit (12) which monitors the operation of the oscillator circuit (11). The on-delay circuit comprises a latch (13) which has a first terminal (a) for receiving the input signal (VIN) and a second terminal (b) for receiving an output signal (VO) that the monitoring circuit produces only when it is confirmed that the oscillator circuit (11) is normal by detecting a fall of a cathode terminal voltage of the circuit (11). The latch generates an output signal only when both the input signals are higher in level than the power supply potential, and maintains the state.
    • 一种故障安全定时器电路,其不产生这样的错误输出,从而缩短故障发生时的延迟时间和接通延迟电路。 定时器电路包括振荡器电路(11),其在接收到输入信号(VIN)之后产生从PUT规定时段的阴极端子输出的定时器,以及监视振荡器电路(11)的操作的监视电路(12) )。 导通延迟电路包括具有用于接收输入信号(VIN)的第一端子(a)和用于接收监视电路仅在其产生的输出信号(VO)的第二端子(b)的锁存器(13) 通过检测电路(11)的阴极端子电压的下降来确认振荡电路(11)正常。 只有当两个输入信号的电平都高于电源电位时,锁存器就产生一个输出信号,并保持状态。
    • 3. 发明申请
    • MOTOR REVOLUTION STOP CONFIRMATION SENSOR
    • 电机旋转停止确认传感器
    • WO1997010512A1
    • 1997-03-20
    • PCT/JP1996002614
    • 1996-09-12
    • THE NIPPON SIGNAL CO., LTD.FUTSUHARA, KoichiTAJIMA, JunpeiSHIRAI, Toshihito
    • THE NIPPON SIGNAL CO., LTD.
    • G01P13/00
    • H02P3/18G01P13/00G01P21/02
    • A sensor capable of confirming the stop of revolution of a motor inclusive of rotation due to inertia. Signal input lines (A, B, C) are connected to three power feed lines (u, v, w) of an A.C. three-phase motor. A high frequency signal current is supplied to one of the power feed lines, and the difference between current values flowing through the other two power feed lines is extracted from the signal input lines connected to these two power feed lines and is used as the output for a sensor portion (3). Threshold value computation processing of this sensor output is executed by a signal processing circuit (7) and the result of this threshold value calculation output is output as a judgement output (P1) for judging the motor revolution or non-revolution from an ON/delay circuit (8).
    • 一种能够确认由于惯性而包括旋转的电动机的转动停止的传感器。 信号输入线(A,B,C)连接到交流三相电动机的三个馈电线(u,v,w)。 将高频信号电流提供给馈电线之一,并且从连接到这两个供电线的信号输入线中提取流过其它两条供电线的电流值之间的差,并将其作为输出 传感器部分(3)。 该传感器输出的阈值计算处理由信号处理电路(7)执行,该阈值计算输出的结果作为判断输出(P1)输出,用于从ON /延迟判定电动机转速或非转速 电路(8)。
    • 4. 发明申请
    • ACCELERATION SENSOR
    • 加速传感器
    • WO1996019733A1
    • 1996-06-27
    • PCT/JP1995002556
    • 1995-12-13
    • THE NIPPON SIGNAL CO., LTD.ASADA, Norihiro
    • THE NIPPON SIGNAL CO., LTD.
    • G01P15/11
    • G01P15/18G01P15/11
    • An acceleration sensor which detects acceleration by utilizing magnetic coupling. A mass section (3) is displaceably supported by a frame (2) through supporting beams (4). A first planar coil (5) is provided on the section (5), and a second planar coil (8) is so provided as to face to the coil (5) at an interval. A transformer is constituted of the coil (5) as a primary coil and the coil (8) as a secondary coil. The sensor detects acceleration by detecting the variation of the distance between the coils (5 and 8), namely, the displacement of the mass section (3) by utilizing magnetic coupling.
    • 一种利用磁耦合检测加速度的加速度传感器。 质量部分(3)通过支撑梁(4)由框架(2)可移动地支撑。 第一平面线圈(5)设置在所述部分(5)上,并且第二平面线圈(8)被设置成以一定间隔面对所述线圈(5)。 变压器由作为初级线圈的线圈(5)和作为次级线圈的线圈(8)构成。 传感器通过利用磁耦合检测线圈(5和8)之间的距离的变化,即质量部分(3)的位移来检测加速度。
    • 5. 发明申请
    • DEVICE FOR CONFIRMING STOP OF MOTOR
    • 确认电机停止的装置
    • WO1996010750A1
    • 1996-04-11
    • PCT/JP1994001647
    • 1994-09-30
    • THE NIPPON SIGNAL CO., LTD.SAKAI, MasayoshiSHIRAI, ToshihitoANZAI, HirojiFUTSUHARA, Koichi
    • THE NIPPON SIGNAL CO., LTD.
    • G01P13/00
    • G01P21/02G01P13/00
    • A device for confirming the stop of a motor, particularly a rotation sensor for extracting the rotation signals of the motor. In the first invention, a high-frequency current signal is supplied to the winding of a tachometer generator incorporated in a motor, and a modulated signal obtained by modulating the high-frequency signal with the output signal of the tachometer generator is output from the rotation sensor to direct the rotation of the motor. In the second invention, the rotation of the motor is extracted after converting the rotation into the variation of the oscillation frequency of an oscillator by utilizing a transducer coil as part of the oscillator. In the third invention, the rotation of the motor is extracted after converting the rotation into the variation of the terminal voltage of a resonance circuit by means of the resonance circuit incorporating the transducer coil.
    • 一种用于确认电动机停止的装置,特别是用于提取电动机的旋转信号的旋转传感器。 在第一发明中,将高频电流信号提供给并入马达的转速计发生器的绕组,并且通过转速计发生器的输出信号调制高频信号而获得的调制信号从旋转输出 传感器来引导电动机的旋转。 在第二发明中,通过利用换能器线圈作为振荡器的一部分,将旋转转换成振荡器的振荡频率的变化,提取电机的旋转。 在第三发明中,通过结合有换能器线圈的谐振电路将旋转转换成谐振电路的端子电压的变化,提取电机的旋转。
    • 6. 发明申请
    • PLANAR GALVANOMIRROR AND PRODUCTION METHOD THEREFOR
    • 平面血管造影及其生产方法
    • WO1995017698A1
    • 1995-06-29
    • PCT/JP1994002062
    • 1994-12-08
    • THE NIPPON SIGNAL CO., LTD.ESASHI, MasayoshiASADA, Norihiro
    • THE NIPPON SIGNAL CO., LTD.
    • G02B26/10
    • G02B26/085G02B26/0816G02B26/105Y10S359/90
    • This invention relates to a thin and compact galvanomirror produced by using semiconductor fabrication technology. A flat movable plate (5) and a torsion bar (6) for rotatably supporting this movable plate (5) are integrally formed on a silicon substrate (2) by using semiconductor fabrication technology, and a flat coil (7) and a total reflection mirror (8) are formed on the upper surface of the movable plate (5). Further, glass substrates (3), (4) are disposed on the upper and lower surfaces of the silicon substrate (2), and permanent magnets (10A, 10B and 11A, 11B) for causing magnetic fields to act on the coil (7) are fixed at predetermined positions of these glass substrates. The rocking angle of the movable plate (5) is varied depending on the balance of the resulting magnetic force and the torque by controlling the quantity and direction of the current flowing through the coil (7).
    • 本发明涉及通过使用半导体制造技术制造的薄而紧凑的电流镜。 通过使用半导体制造技术,在硅基板(2)上一体地形成用于可旋转地支撑该可动板(5)的平板可动板(5)和扭杆(6),平面线圈(7)和全反射 反射镜(8)形成在可动板(5)的上表面上。 此外,玻璃基板(3),(4)设置在硅基板(2)的上表面和下表面上,并且使磁场作用在线圈(7)上的永磁体(10A,10B和11A,11B) )固定在这些玻璃基板的预定位置。 通过控制流过线圈(7)的电流的数量和方向,可动板(5)的摇摆角度取决于所得磁力的平衡和转矩的变化。
    • 7. 发明申请
    • ON-DELAY CIRCUIT
    • 延时电路
    • WO1994023496A1
    • 1994-10-13
    • PCT/JP1993000410
    • 1993-03-31
    • THE NIPPON SIGNAL CO., LTD.SAKAI, MasayoshiFUTSUHARA, Koichi
    • THE NIPPON SIGNAL CO., LTD.
    • H03K05/13
    • H03K5/13
    • An on-delay circuit using a fail-safe electronic circuit. An input signal higher than a power source potential is inputted to a PUT oscillation circuit. A pulse signal generated with a predetermined time constant is once converted to a level within the range of the power source potential by a level conversion circuit. This signal is inverted and differentiated at its leading edge. The input signal of the PUT oscillation circuit is applied to one input terminal of a fail-safe two-input window comparator and the differential signal is inputted to the other input terminal for self-retention. An output of a logic value 1 is generated from the window comparator with a predetermined delay time. Accordingly, there is provided a fail-safe on-delay circuit the delay time of which is not reduced due to breakdown of a circuit constituent element.
    • 使用故障安全电路的接通延迟电路。 高于电源电位的输入信号被输入到PUT振荡电路。 以预定时间常数产生的脉冲信号通过电平转换电路被转换成电源电位范围内的电平。 该信号在其前沿被反转和分化。 PUT振荡电路的输入信号被施加到故障保护双输入窗口比较器的一个输入端子,并且差分信号被输入到另一个输入端子进行自保持。 以预定的延迟时间从窗口比较器产生逻辑值1的输出。 因此,提供了一种故障安全接通延迟电路,其延迟时间由于电路构成元件的故障而没有减小。