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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 solved. The proposed circuits have some...
Dynamic circuits using n-channel multiple-input floating-gate MOS(FGMOS) transistors to realize binary and ternary logic are presented. In binary domino circuits, the n-channel FGMOS transistors are used to replace the nMOS logic block to simplify the circuit structure. By using the advantage that voltage signals are easy to be added by means of floating gate in multiple-input FGMOS transistor, a...
Novel differential flip-flops using neuron-MOS transistors are presented, including single edge-triggered flip-flop and double edge-triggered flip-flop. In the new differential flip-flops, a pair of n-channel multiple-input neuron-MOS pull down logic networks is used to replace the nMOS logic tree in the conventional differential flip-flops. The construction of the circuits has been simplified by...
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 width. The proposed Schmitt trigger has considerable...
In this paper, a new Hamming neural network integrated circuit using neuron-MOS transistor is presented. A matching calculation circuit and a winner-take-all circuit have been designed using neuron-MOS transistor as a key circuit element. The structure of the proposed circuit has been simplified significantly. From the HSPICE simulation results using TSMC 0.35µm double-polysilicon CMOS technology,...
Much attention has been paid to dynamic circuits and multi-logic technology in current low power design. In this paper, a new structure and the design methodology of the ternary dynamic BiCMOS circuit has been proposed based on the structure of the ternary dynamic CMOS circuit. The circuits designed following this methodology have shown advantages not only in heavy integration density, low power,...
Much attention has been paid to dynamic circuit in current low power design. Since the BiCMOS circuit has advantages of both the CMOS circuit and the TTL circuit, it has gained more and more application. In this paper, a new structure and the design method at switch level of the binary dynamic BiCMOS circuit has been proposed based on an n-type BiCMOS dynamic circuit. The circuits designed following...
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