• Title/Summary/Keyword: flip-flop circuit

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A Low Power UART Design by Using Clock-gating (클록 게이팅을 이용한 저전력 UART 설계)

  • Oh, Tae-Young;Song, Sung-Wan;Kim, Hi-Seok
    • Proceedings of the IEEK Conference
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    • 2005.11a
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    • pp.865-868
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    • 2005
  • This paper presents a Clock-gating technique that reduces power dissipation of the sequential circuits in the system. The Master Clock of a Clock-gating technique is formed by a quaternary variable. It uses the covering relationship between the triggering transition of the clock and the active cycles of various flip-flops to generate a slave clock for each flip-flop in the circuit. At current RTL designs flip-flop is acted by Master clock's triggering but the Slave Clock of Clock-gating technique doesn't occur trigger when external input conditions have not matched with a condition of logic table. We have applied our clocking technique to UART controller of 8bit microprocess

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High-speed CMOS Frequency Divider with Inductive Peaking Technique

  • Park, Jung-Woong;Ahn, Se-Hyuk;Jeong, Hye-Im;Kim, Nam-Soo
    • Transactions on Electrical and Electronic Materials
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    • v.15 no.6
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    • pp.309-314
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    • 2014
  • This work proposes an integrated high frequency divider with an inductive peaking technique implemented in a current mode logic (CML) frequency divider. The proposed divider is composed with a master-slave flip-flop, and the master-slave flip-flop acts as a latch and read circuits which have the differential pair and cross-coupled n-MOSFETs. The cascode bias is applied in an inductive peaking circuit as a current source and the cascode bias is used for its high current driving capability and stable frequency response. The proposed divider is designed with $0.18-{\mu}m$ CMOS process, and the simulation used to evaluate the divider is performed with phase-locked loop (PLL) circuit as a feedback circuit. A divide-by-two operation is properly performed at a high frequency of 20 GHz. In the output frequency spectrum of the PLL, a peak frequency of 2 GHz is obtained witha divide-by-eight circuit at an input frequency of 250 MHz. The reference spur is obtained at -64 dBc and the power consumption is 13 mW.

Design and Measurement of SFQ DFFC and Inverter (단자속 양자 DFFC와 Inverter의 설계와 측정)

  • 정구락;홍희송;박종혁;임해용;강준희;한택상
    • Progress in Superconductivity
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    • v.5 no.1
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    • pp.17-20
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    • 2003
  • We have designed and measured a SFQ(Single Flux Quantum) DFFC and an Inverter(NOT) for superconducting ALU(Arithmetic Logic Unit) development. To optimize the circuit, we used Julia, XIC, and L meter for circuit simulations and circuit layouts. The Inverter was consisted of a D Flip-Flop, a data input, a clock input and a data output. If a data pulse arrives at the inverter, then the output reads ‘0’ (no output pulse is produced) at the next clock period. If there is no input data pulse, it reads out ‘1’(output pulse is produced). The DFFC was consisted of a D flip-Flop, an Inverter, a Data in, a Clock in and two outputs. If a data pulse arrives at the DFFC circuit, then the output2 reads ‘1’ at the next clock period, otherwise it reads out ‘1’ to output1. Operation of the fabricated chip was performed at the liquid helium temperature and at the frequencies of 1KHz.

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High-Speed Digital/Analog NDR ICs Based on InP RTD/HBT Technology

  • Kim, Cheol-Ho;Jeong, Yong-Sik;Kim, Tae-Ho;Choi, Sun-Kyu;Yang, Kyoung-Hoon
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.6 no.3
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    • pp.154-161
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    • 2006
  • This paper describes the new types of ngative differential resistance (NDR) IC applications which use a monolithic quantum-effect device technology based on the RTD/HBT heterostructure design. As a digital IC, a low-power/high-speed MOBILE (MOnostable-BIstable transition Logic Element)-based D-flip flop IC operating in a non-return-to-zero (NRZ) mode is proposed and developed. The fabricated NRZ MOBILE D-flip flop shows high speed operation up to 34 Gb/s which is the highest speed to our knowledge as a MOBILE NRZ D-flip flop, implemented by the RTD/HBT technology. As an analog IC, a 14.75 GHz RTD/HBT differential-mode voltage-controlled oscillator (VCO) with extremely low power consumption and good phase noise characteristics is designed and fabricated. The VCO shows the low dc power consumption of 0.62 mW and good F.O.M of -185 dBc/Hz. Moreover, a high-speed CML-type multi-functional logic, which operates different logic function such as inverter, NAND, NOR, AND and OR in a circuit, is proposed and designed. The operation of the proposed CML-type multi-functional logic gate is simulated up to 30 Gb/s. These results indicate the potential of the RTD based ICs for high speed digital/analog applications.

A High-Speed Dual-Modulus Prescaler Using Selective Latch Technique (Selective Latch Technique을 이용한 고속의 Dual-Modulus Prescaler)

  • 김세엽;이순섭김수원
    • Proceedings of the IEEK Conference
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    • 1998.10a
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    • pp.779-782
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    • 1998
  • This paper describes a high-speed Dual-modulus Prescaler (DMP) for RF mobile communication systems with pulse remover using selective latch technique. This circuit achieves high speed and low power consumption by reducing full speed flip-flops and using a selective latch. The proposed DMP consists of only one full speed flip-flop, a selective latch, conventional flip-flops, and a control gate. In order to ensure the timing of control signal, duty cycle problem and propagation delay must be considered. The failling edgetriggered flip-flops alleviate the duty cycle problem andthis paper shows that the propagation delay of control signal doesn't matter. The maximum operating frequency of the proposed DMP with 0.6um CMOS technology is up to 2.2㎓ at 3.3V power supply and the circuit consumes 5.24mA.

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Design of Synchronous Quaternary Counter using Quaternary Logic Gate Based on Neuron-MOS (뉴런 모스 기반의 4치 논리게이트를 이용한 동기식 4치 카운터 설계)

  • Choi Young-Hee;Yoon Byoung-Hee;Kim Heung-Soo
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.42 no.3 s.333
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    • pp.43-50
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    • 2005
  • In this paper, quaternary logic gates using Down literal circuit(DLC) has been designed, and then synchronous Quaternary un/down counter using those gates has been proposed The proposed counter consists of T-type quaternary flip flop and 1-of-2 threshold-t MUX, and T-type quaternary flip flop consists of D-type quaternary flip flop and quaternary logic gates(modulo-4 addition gates, Quaternary inverter, identity cell, 1-of-4 MUX). The simulation result of this counter show delay time of 10[ns] and power consumption of 8.48[mW]. Also, assigning the designed counter to MVL(Multiple-valued Logic) circuit, it has advantages of the reduced interconnection and chip area as well as easy expansion of digit.

A New Design of Memory-in-Pixel with Modified S-R Flip-Flop for Low Power LCD Panel (저전력 LCD 패널을 위한 수정된 S-R 플립플롭을 가진 새로운 메모리-인-픽셀 설계)

  • Ryu, Jee-Youl;Noh, Seok-Ho
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2008.10a
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    • pp.600-603
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    • 2008
  • In this paper, a new circuit design named memory-in-pixel for low power consumption of the liquid crystal display (LCD) is presented. Since each pixel has a memory, it is able to express 8 color grades using the data saved in the memory without the operation of the gate and source driver ICs so that it can reduce the power consumption of the LCD panel. A memory circuit consists of modified S-R flip-flop (NAND-type) implemented in the pixel, which can supply AC bias for operating the liquid crystal (LC) with the interlocking clocks (CLK_A and CLK_B). This circuit is more complex than the inverter-type memory circuit, but it has lower power consumption of approximately 50% than the circuit. We have investigated the power consumption both NAND and inverter-type memory circuit using a Smart SPICE for the resolution of $96{\times}128$. The estimated power consumption of the inverter-type memory was about 0.037mW. On the other hand, the NAND-type memory showed power consumption of about 0.007mW.

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Design of Single Flux Quantum D2 Cell and Inverter for ALU (ALU를 위한 단자속 양자 D2 Cell과 Inverter의 설계)

  • 정구락;박종혁;임해용;강준희;한택상
    • Proceedings of the Korea Institute of Applied Superconductivity and Cryogenics Conference
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    • 2003.02a
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    • pp.140-142
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    • 2003
  • We have designed a SFQ (Single Flux Quantum) D2 Cell and Inverter(NOT) for a superconducting ALU (Arithmetic Logic Unit). To optimize the circuit, we have used Julia, XIC and Lmeter for simulations and layouts. We obtained the circuit margin of larger than $\pm$25%. After layout, we drew chip for fabrication of SFQ D2 Cell and Inverter. We connected D2 Cell and Inverter to jtl, DC/SFQ, SFQ/DC and RS flip-flop for measurement.

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A Study on the Energy-Power Management System for Self-Sustaining Sensor Node System (자기유지 시스템용 효율적인 에너지 사용을 위한 에너지 전력 관리 시스템 연구)

  • Hwang, Ji-Hun;Kim, Jong-Hong;Kim, Hyun-Woong;Roh, Hyoung-Hwan;Oh, Ha-Ryoung;Seong, Yeong-Rak;Park, Jun-Seok
    • 한국정보통신설비학회:학술대회논문집
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    • 2009.08a
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    • pp.349-352
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    • 2009
  • WBAN/USN systems are applied from the various environment. Therefore, it is coming to be important efficient use power and communication method. The present paper materialize Slave node system which get power from light energy. Also, it materialize Wake-up module and self-power-off circuit which use S-R Flip Flop for efficient using power. This system can be efficient using power at Slave node system. Also, it can be possible application of Self sustaining system by performance verification Wake-up module which determine system "on" without power and Self-power-off circuit.

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