• Journal of Korea Society of Industrial Information Systems
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• v.19 no.6
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• pp.33-41
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• 2014

In this paper, we propose a D flip-flop based on quantum-dot cellular automata(QCA) clocking and design a programmable quantum-dot cell(QPCA) structure using the proposed D flip-flop. Previous D flip-flops on QCA are that input should be set to an arbitrary value, and wasted output values exist because it was utilized to duplicate by clock pulse and QCA clocking. In order to eliminate these defects, we propose a D flip-flop structure using binary wire and clocking technique on QCA. QPCA structure consists of wire control logic, rule control logic, D flip-flop and XOR logic gate. In experiment, we perform the simulation of QPCA structure using QCADesigner. As the result, we confirm the efficiency of the proposed structure.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.39 no.12
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• pp.1055-1061
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• 2002

Conventional TSPC D flip-flop has the advantages of high speed, simple clock distribution, and no racing because of the single phase clocking strategy and its simple structure. But, it suffers from glitch, clock slope sensitivity and unbalanced propagation delay problems. Therefore, a new dynamic D flip-flop, which improves these disadvantages, is proposed. The main idea of this paper is DS(Discharge Suppression) scheme, which suppresses unnecessary discharge. As a result, the proposed structure is free from glitch problem and it improves maximum clock slope immunity from 0.25ns to Ins. Also, it uses only 8 transistors and it Is demonstrated that high speed operation is feasible by balancing propagation delay time.

• Journal of information and communication convergence engineering
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• v.8 no.4
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• pp.421-426
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• 2010

This paper presents a method of design the counter using sequential system based on synchronous techniques. For the design the counter, first of all, we derive switching algebras and their operations. Also, we obtain the next-state functions, flip-flop excitations and their input functions from the flip-flop. Then, we propose the algorithm which is a method of implementation of the synchronous sequential digital logic circuits. Finally, we apply proposed the sequential logic based on synchronous techniques to counter.

• Proceedings of the IEEK Conference
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• 2008.06a
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• pp.583-584
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• 2008

This paper presents a low-power and high-speed pulsed flip-flop based on dual-precharging and conditional discharging. The dual-precharging operation minimizes the parasitic capacitance of each precharge node, resulting in high-speed operation. The conditional-discharging operation minimizes the redundant transitions of precharge nodes, resulting in low-power operation. Linear feedback shift register (LFSR) designed in a $0.18{\mu}m$ CMOS technology using the proposed flip-flop achieves 32% power reduction as compared to conventional design.

• Progress in Superconductivity and Cryogenics
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• v.4 no.1
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• pp.35-39
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• 2002

We have simulated and laid out a Single Flux Quantum(SFQ) AND gate for Arithmetic Logic Unit by using XIC, WRspice and Lmeter. SFQ AND gate circuit is a combination of two D Flip-Flop. D Flip-Flop and dc SQUID are the similar shape form the fact that it has the loop inductor and two Josephson junction We obtained perating margins and accomplished layout of the AND gate. We got the margin of $\pm$38%. over. After layout, we drew mask for fabrication of SFQ AND sate. This mask was included AND gate, dcsfq, sfqdc, rs flip-flop and jtl.

• Journal of the Korean Chemical Society
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• v.64 no.3
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• pp.145-152
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• 2020

Flip-flop rate constants were measured by dithionite assay of NBD-PE fluorescence in DMPC/POPC vesicles made of various DMPC/POPC ratios. The activation energy, enthalpy, entropy, and free energy were determined based on the transition state theory. We found that the activation energy, enthalpy, and entropy increased as the amount of POPC increased, but the activation free energy was almost constant. These experimental results and other similar studies allow us to propose that the POPC molecules included in DMPC vesicles affect the flip-flop motion of NBD-PE in DMPC/POPC vesicles via increasing the packing order of the ground state of the bilayer of the vesicles. The increase in the packing order in the ground state seems to be a result of the effect of the overall molecular shape of POPC with a monounsaturated tail group, rather than the effect of the longer tail group.

• Journal of the Korean Institute of Telematics and Electronics
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• v.16 no.2
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• pp.7-14
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• 1979

Design considerations of I2L are discussed with particular emphasis on the upward current gain of the npn transistor, 6J Several test structures have been fabricated to measure the DC and AC characteristics of the I2L basic cell and the base current components of the npn transistor. A T flip-flop has also been designed and fabricated using the I2L technology. The upward current gain of 10 the speed -power product of the 2.6pJ/gate and the minimum propagation delay time of 36 nsec have been obtained from the test structure. The maxmum toggle frequency of the T flip -flop has been measured to be 3.5 MHz.

• 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.

• 한국초전도학회:학술대회논문집
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• v.14
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• pp.52-52
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• 2004

• Proceedings of the Korean Institute of Intelligent Systems Conference
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• 1993.06a
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• pp.925-928
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• 1993

In this paper the caracteristics of the fuzzy flip-flop which was proposed as a fuzzy sequential circuit is firstly mentioned. Secondly the circuit construction of typical fuzzy flip-flip circuits using VHDL (Very high speed integrated circuit Hardware Description Language) compiler and simulator is presented. Finally the possibility of the application of the fuzzy sequential circuit will be mentioned.