Title :
Resonant tunnelling diode based QMOS edge triggered flip-flop design
Author :
Zhang, Hui ; Mazumder, Pinaki ; Yang, Kyounghoon
Author_Institution :
Dept. of EECS, Michigan Univ., Ann Arbor, MI, USA
Abstract :
Resonant tunnelling diode (RTD) is well known as an ultra-fast device due to small intrinsic capacitance, large drive current was well as the high switching speed. Pair of RTDs has self-latching property, which makes RTD a very promising candidate for nano-pipelining circuit design. The most pervasive used RTD-based sequential logic is MOBILE. However, MOBILE is a return-to-zero mode circuit, which makes it difficult to be used in some specific applications. In this paper, we proposed three quantum MOS (QMOS) flip-flop designs. Our designs explore the advantage of MOBILE while keeping the output to a holding stage instead of return-to-zero. The circuit topologies and circuit operations are described and discussed. The performance of these circuits is evaluated by using HSPICE. Then the final results are compared with each other.
Keywords :
MOS logic circuits; SPICE; flip-flops; resonant tunnelling diodes; HSPICE; MOBILE; QMOS; RTD-based sequential logic; circuit operations; circuit topologies; drive current; edge triggered flip-flop; holding stage; intrinsic capacitance; nano-pipelining circuit; quantum MOS flip-flop; resonant tunnelling diode; return-to-zero mode circuit; self-latching property; switching speed; ultra-fast device; Circuit optimization; Clocks; Diodes; Driver circuits; Flip-flops; Latches; Logic; MOSFETs; Resonant tunneling devices; Voltage;
Conference_Titel :
Circuits and Systems, 2004. ISCAS '04. Proceedings of the 2004 International Symposium on
Print_ISBN :
0-7803-8251-X
DOI :
10.1109/ISCAS.2004.1328844
