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A neuron-MOS-based dynamic circuit scheme with two-phase clocks for realizing voltage-mode multiple-valued logic(MVL), is proposed. The dynamic ternary inverter, literal circuits, and quaternary inverter are designed, and the standard CMOS process with a 2-ploy layer is adopted without any modification of the thresholds. In the proposed circuits, the(More)
A neuron-MOS-based dynamic circuit scheme with two-phase clocks for realizing voltage-mode quaternary logic, is proposed. The dynamic quaternary inverter and literal circuits are designed, and the standard CMOS process with a 2-ploy layer is adopted without any modification of the thresholds. In the proposed circuits, the problem of floating output nodes is(More)
A novel design scheme using neuron-MOS dynamic literal circuit and double pass-transistor logic(DPL), to realize voltage-mode dynamic ternary logic gate, is proposed. The double pass-transistor used to transmit ternary signal is controlled by the output of the dynamic literal circuit to realize ternary logic function. The complementarity and duality(More)
A new true-single-phase clocked (TSPC) full-adder using floating-gate MOS (FGMOS) transistor is presented. In this new design scheme, the logic tree for the sum-generate circuit is realized using only an n-channel multiple-input FGMOS transistor, and the logic for the carry-generate circuit is realized using a complementary FGMOS-based inverter. By using(More)
Two new differential flip-flops using neuron-MOS transistors are presented, including one-latch single edge-triggered(IL-SET) flip-flop and one-latch double edge-triggered(IL-DET) flip-flop. In the new differential flip-flops, a pair of n-channel neuron-MOS transistors is used to replace the nMOS logic tree in the conventional differential flip-flops. The(More)
A novel Schmitt trigger with controllable hysteresis using neuron-MOS transistors is presented. By selecting the ratio of capacitive coupling coefficients, a Schmitt trigger with different hysteresis characteristics can be achieved. By only varying the external input control signals, the hysteresis window can be conveniently moved without changing its(More)
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