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    • 8. 发明专利
    • ELECTRONIC DEVICE CONSTITUTED OF SUPERCONDUCTING SINGLE CRYSTAL LAMINAR
    • JPH08250776A
    • 1996-09-27
    • JP5554495
    • 1995-03-15
    • OPT KK
    • YAMASHITA TSUTOMUTACHIKI AKIRACHIBA YUKIMASA
    • G01R33/035G01R1/28H01L39/22
    • PURPOSE: To utilize a Josephson junction, to generate a THz-band electromagnetic wave and to make it possible to take out the electromagnetic wave by a method wherein the electronic device is provided with a signal input means provided in contact with the flat part of the first layer of a laminar superconducting single crystal, and an electromagnetic wave output means provided in contact with the end on one side of the ends of the laminar part of each layer of the single crystal. CONSTITUTION: An electronic device is provided with a signal input means 2 provided in contact with the flat part of a first layer of a laminar superconducting single crystal 1, and an electromagnetic wave output means 3 provided in contact with the end on one side of the ends of the laminar part of each layer of the single crystal 1. For a single crystal 1, an LSCO single crystal, a YBCO single crystal or a TBCCO single crystal is used. The means 2 has a metal film provided via a Josephson junction to the first layer of the single crystal 1, and a DC power supply connected with the metal film. An electromagnetic wave due to plasma generated in the interior of the single crystal 1 is propagated in the single crystal by a signal inputted through the means 2 of the single crystal 1 and is taken out through the means 3 provided in contact with the end on one side of the ends of the laminated part of each layer of the single crystal 1 as a THz-band electromagnetic wave.
    • 9. 发明专利
    • PULSE GENERATOR
    • JPH07336872A
    • 1995-12-22
    • JP14716694
    • 1994-06-06
    • N F KAIRO SEKKEI BLOCK KK
    • KADOKAWA TAKANORI
    • G01R1/28G01R19/165H02H3/08H02H3/087
    • PURPOSE:To provide a pulse generator having high current detecting accuracy and high power efficiency. CONSTITUTION:A pulse generator is constituted so that pulses are output in response to driving pulses from a charging means 41 charged by constant currents through a constant current diode, etc., 3 from a power supply 1, current supply from the power supply to the charging means is interrupted by a first switch 7 and the supply of driving pulses by a second switch 8 is interrupted, and a current detecting means 2 as a photo-coupler with the primary side, through which currents fed from the power supply 1 to the charging means 41 flow, and the secondary side, which is insulated electrically from the primary side and through which currents proportional to currents flowing through the primary side flow, is provided. When the duty of currents flowing through the secondary side of the current detecting means 2 reaches a predetermined value or more, at least one of the first switch or the second switch is interrupted and operated.
    • 10. 发明专利
    • VOLTAGE GENERATION CIRCUIT FOR TESTING IC
    • JPH07333249A
    • 1995-12-22
    • JP14395194
    • 1994-06-02
    • ADVANTEST CORP
    • HASHIMOTO YOSHIHIRO
    • G01R31/26G01R1/28G01R19/00G01R31/30G01R31/319G05F1/618
    • PURPOSE:To reduce changes in voltage applied to a load in an operation test by arranging a variable current source to decrease or increase the current the same in amount as that flowing between a connection point at which a voltage is drawn to a feedback circuit and the load opposite to increase or decrease therein. CONSTITUTION:Switches S1 and S5 are turned ON and switches S2, S3 and S4 turned OFF at the measurement of the DC characteristic of a load 1(LSI) to measure the DC characteristic. Then, at the testing of the operation characteristic, the switches S1 and S5 are turned OFF and the switches S2, S3 and S4 are turned ON. As a result, a low resistance R2 comes to be inserted between a connection point O at which a voltage applied to the load 1 is drawn to a feedback circuit 3 and the load 1 and a current I1 is led into a variable current source 4 from the vicinity of the connection point O. A voltage Vy generated across two ends in proportion to a current 12 flowing through the low resistance R2 drives the variable current source 4 through a differential amplifier A5. Thus, the variable current source 4 takes the current 11 thereinto in reverse proportion to the generated voltage Vy of the low resistance R2 from the vicinity of the connection point O.