• Title/Summary/Keyword: Rapid single flux quantum circuit

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Simulations and Circuit Layouts of HTS Rapid Single Flux Quantum 1-bit A/D Converter by using XIC Tools (XIC tools을 사용한 고온 초전도 Rapid Single Flux Quantum 1-bit A/D Converter의 Simulation과 회로 Layout)

  • 남두우;홍희송;정구락;강준희
    • Proceedings of the Korea Institute of Applied Superconductivity and Cryogenics Conference
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    • 2002.02a
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    • pp.131-134
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    • 2002
  • In this work, we have developed a systematic way of utilizing the basic design tools for superconductive electronics. This include WRSPICE, XIC, margin program, and L-meter. Since the high performance analog-to- digital converter can be built with Rapid Single Flux Quantum (RSFQ) logic circuits the development of superconductive analog-to-digital converter has attracted a lot of interests as one of the most prospective area of the application of Josephson Junction technology. One of the main advantages in using Rapid Single Flux Quantum logic in the analog-to-digital converter is the low voltage output from the Josephson junction switching, and hence the high resolution. To design an 1-bit analog-digital converter, first we have used XIC tool to compose a circuit schematic, and then studied the operational principle of the circuit with WRSPICE tool. Through this process, we obtained the proper circuit diagram of an 1-bit analog-digital converter circuit. Based on this circuit we performed margin calculations of the designed circuits and optimized circuit parameters. The optimized circuit was laid out as a mask drawing. Inductance values of the circuit layout were calculated with L-meter. Circuit inductors were adjusted according to these calculations and the final layout was obtained.

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Operation of a High-T$_c$ Rapid Single-Flux-Quantum 4-stage Shift Register

  • Park, J.H.;Kim, Y.H.;Kang, J.H.;Hahn, T.S.;Kim, C.H.;Lee, J.M.
    • Progress in Superconductivity
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    • v.1 no.2
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    • pp.105-109
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    • 2000
  • We have designed and fabricated a single-flux-quantum(SFQ) four-stage shift register using YBCO bicrystal Josephson junctions, and tested its operations using a digital measurement set-up. The circuit consists of 4 shift register stages and a read SQUID placed next to each side of the shift register. Each SQUID was inductively coupled to the nearby shift register stage. The major obstacle in testing the circuits was the interference between the two read SQUIDs, and we could get over the problem by determining the correct operation points of the SQUID from the simultaneously measured modulation curves. Loaded data ('1' or '0') were successfully shifted from a stage to the next by a controlled current pulse injected to the bias lines located between the stages, and the corresponding correct data shifts were observed with the two read SQUIDs.

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A Single-Flux-Quantum Shift Register based on High-$T_c$ Superconducting Step-edge Josephson Junctions

  • Sung G.Y.;Choi, C.H.;Suh J.D.;Han, S. K.;Kang, K.Y.;Hwang, J.S.;Yoon, S.G.;Jung, K.R.;Lee, Y.H.;Kang, J.H.;Kim, Y.H.;Hahn, T.S.
    • Progress in Superconductivity
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    • v.1 no.1
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    • pp.31-35
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    • 1999
  • We have fabricated and tested a simple circuit of the rapid single-flux-quantum(RSFQ) four-stage shift register using a single layer high-$T_c$ superconducting (HTS) $YBa_2Cu_3O_{7-x}$ (YBCO) thin film structure with 9 step-edge Josephson junctions. The circuit includes two read superconducting quantum interference devices(SQUID) and four stages. To establish a robust HTS RSFQ device fabrication process, we have focussed on the reproducible process of sharp and straight step-edge formation as well as the ratio of film thickness to step height, t/h. The spread of step-edge junction parameters was measured from each 13 junctions with t/h=1/3, 1/2, and 2/3 at various temperatures. We have demonstrated the simplified operation of the shift register at 65 K.

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Demonstration of rapid single-flux-quantum RS flip-flop using YBCO/Co-YBCO/YBCO ramp-edge Josephson junction with and without ground plane (YBCO/Co-YBCO/YBCO ramp-edge 접합을 이용한 RS flip-flop 회로 제작과 동작)

  • Kim, Jun-Ho;Sung, Geon-Yong;Park, Jong-Hyeok;Kim, Chang-Hun;Jung, Gu-Rak;Hahn, Taek-Sang;Kang, Jun-Hui
    • 한국초전도학회:학술대회논문집
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    • v.10
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    • pp.189-192
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    • 2000
  • We fabricated rapid single-flux-quantum RS flip-flop circuits with and without Y$_1$Ba$_2$Cu$_3$O$_{7-{\delta}}$(YBCO) ground plane. The circuit consists of SNS-type ramp-edge Josephson junctions that have cobalt-doped YBCO and Sr$_2$AITaO$_6$(SAT) for barrier layer and insulator layer, respectively. The fabricated Josephson junction showed a typical RSJ-like current-voltage(I-V) characteristics above 50K. We sucessfuly demonstrated RS flip-flop at temperatures around 50K. The RS flip-flop fabricated on ground plane showed more definite set and reset state in voltage-flux(V-${\phi}$) modulation curve for read SQUID, which may be attributed to a shielding effect of the YBCO ground plane.

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Simulation of HTS RSFQ A/D Converter and its Layout (고온 초전도 RSFQ A/D 변환기의 시물레이션과 설계)

  • 남두우;정구락;강준희
    • Progress in Superconductivity and Cryogenics
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    • v.4 no.1
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    • pp.8-12
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    • 2002
  • Since the high performance analog-to-digital converter can be built with Rapid Single Flux Quantum (RSFQ) logic circuits the development of superconductive analog-to-digital converter has attracted a lot of interests as one of the most prospective area of the application of Josephson Junction technology. One of the main advantages in using Rapid Sng1e Flux Quantum logic in the analog-to-digital converter is the low voltage output from the Josephson junction switching, and hence the high resolution. To design an analog-digital converter, first we have used XIC tool to compose a circuit schematic, and then studied the operational principle of the circuit with WRSPICE tool. Through this process, we obtained the proper circuit diagram of an 1-bit analog-digital converter circuit. The optimized circuit was laid out as a mask drawing. Inductance values of the circuit layout were calculated with L-meter.

Design and Fabrication of High Temperature Superconducting Rapid Single Flux Quantum T Flip-Flop (고온 초전도 단자속 양자 T 플립 플롭 설계 및 제작)

  • Kim, J. H.;Kim, S. H.;Jung, K. R.;Kang, J. H.;Syng, G. Y.
    • Progress in Superconductivity
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    • v.3 no.1
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    • pp.87-90
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    • 2001
  • We designed a high temperature superconducting rapid single flux quantum(RSFQ) T flip-flop(TFF) circuit using Xic and WRspice. According to the optimized circuit parameters, we fabricated the TFF circuit with $Y_1$$Ba_2$Cu$_3$$O_{7-x}$(YBCO) interface-controlled Josephson junctions. The whole circuit was comprised of five epitaxial layers including YBCO ground plane. The interface-controlled Josephson junction was fabricated with natural junction barrier that was formed by interface-treatment process. In addition, we report second design for a new flip-flop without ground palne.e.

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A Single-Flux-Quantum Shift Register based on High-T$_c$ Superconducting Step-edge Josephson Junctions

  • Sung, G.Y.;Choi, C.H.;Suh, J.D.;Han, S.K.;Kang, K.Y.;Hwang, J.S.;Yoon, S.G.;Jung, K.R.;Lee, Y.H.;Kang, J.H.;Kim, Y.H.;Hahn, T.S.
    • 한국초전도학회:학술대회논문집
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    • v.9
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    • pp.133-133
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    • 1999
  • We have fabricated and tested a simple circuit of the rapid single-flux-quantum(RSFQ) four-stage shift register using a single layer high-T$_c$ superconducting (HTS) YBa$_2Cu_3O_{7-x}$ (YBCO) thin film structure with 9 step-edge Josephson junctions. The circuit includes two read superconducting quantum interference devices(SQUID) and four stages. To establish a robust HTS RSFQ device fabrication process, we have focussed the reproducible process of sharp and straight step-edge formation as well as the ratio of film thickness to step height t/h. The spread of step-edge junction parameters was measured from each13 junctions with t/h=l/3, l/2, and 2/3 at various temperatures. We have demonstrated the simplified operation of the shift register at 65 K..

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Design Improvement and Measurement of a Rapid Single Flux Quantum Confluence Buffer

  • Baek, Seung-Hun;Kim, Jin-Young;Kim, Sehoon;Kang, Joonhee;Jungb, Ku-Rak;Park, Jong-Hyeok;Hahnb, Teak-Shang
    • Progress in Superconductivity and Cryogenics
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    • v.6 no.4
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    • pp.41-45
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    • 2004
  • Rapid Single flux quantum (RSFQ) confluence buffer is widely used in complex superconductive digital circuits. In this work, we have improved the currently used confluence buffer and obtained a more soundly designed confluence buffer. In simulations, improvements in the bias margins of 11 % and the global margins of 10%, compared to the previously used confluence buffer, were achieved. Global margins are very important in estimating a process error range allowed in fabrications. We used two circuit simulation tools, WRspice and Julia, to design and optimize the confluence buffer. We used Xic to obtain a mask layout. We fabricated the improved circuits by using Nb technology. The test results at low frequency showed that the improved confluence buffer operated correctly and had a very wide main bias margin of +/-43% enhanced from +/-26% of the previously used confluence buffer.

Design and Measurements of an RSFQ NDRO circuit (단자속 양자 NDRO 회로의 설계와 측정)

  • 정구락;홍희송;박종혁;임해용;강준희;한택상
    • Proceedings of the Korea Institute of Applied Superconductivity and Cryogenics Conference
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    • 2003.10a
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    • pp.76-78
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    • 2003
  • We have designed and tested an RSFQ (Rapid Single Flux Quantum) NDRO (Non Destructive Read Out) circuit for the development of a high speed superconducting ALU (Arithmetic Logic Unit). When designing the NDRO circuit, we used Julia, XIC and Lmeter for the circuit simulations and layouts. We obtained the simulation margins of larger than $\pm$25%. For the tests of NDRO operations, we attached the three DC/SFQ circuits and two SFQ/DC circuits to the NDRO circuit. In tests, we used an input frequency of 1 KHz to generate SFQ Pulses from DC/SFQ circuit. We measured the operation bias margin of NDRO to be $\pm$15%. The circuit was measured at the liquid helium temperature.

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RSFQ DFFC Circuit Design for Usage in developing ALU (ALU의 개발을 위한 RSFQ DFFC 회로의 설계)

  • 남두우;김규태;강준희
    • Proceedings of the Korea Institute of Applied Superconductivity and Cryogenics Conference
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    • 2003.10a
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    • pp.123-126
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    • 2003
  • RSFQ (Rapid Single Flux Quantum) circuits are used in many practical applications. RSFQ DFFC (Delay Flip-Flop with complementary outputs) circuits can be used in a RAM, an ALU (Arithmetic Logic Unit), a microprocessor, and many communication devices. A DFFC circuit has one input, one switch input, and two outputs (output l and output 2). DFFC circuit functions in such way that output 1 follows the input and output 2 is the complement of the input when the switch input is "0." However, when there is a switch input "1."the opposite output signals are generated. In this work, we have designed an RSFQ DFFC circuit based on 1 ㎄/$\textrm{cm}^2$ niobium trilayer technology. As circuit design tools, we used Xic, WRspice, and Lmeter After circuit optimization, we could obtain the bias current margins of the DFFC circuit to be above 32%.

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