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Synthesis techniques for CMOS folded source-coupled logic circuits

1992; Institute of Electrical and Electronics Engineers; Volume: 27; Issue: 8 Linguagem: Inglês

10.1109/4.148324

1558-173X

S.R. Maskai, Sayfe Kiaei, D.J. Allstot,

Advancements in Semiconductor Devices and Circuit Design

The application of series-gated, multiplexer-minimization, and variable-entered mapping methods to the synthesis of fully differential CMOS folded source-coupled logic (FSCL) gates is described. In contrast to conventional static logic, FSCL dissipates DC power. Its total power consumption is competitive at higher speeds where its low digital switching noise is most advantageous. The minimum propagation delay of a simple FSCL gate compares favorably to a conventional gate. Complex functions are generally faster in FSCL since its fully differential topology requires fewer stages of delay. Simulated and measured results are presented for several combinational and sequential FSCL gates in a 2- mu m p-well CMOS process. With V/sub dd/=5 V, a FSCL (static) inverter achieved a minimum propagation delay of 400 ps (350 ps) with a power-delay product of 0.5 pJ (0.3 pJ); a FSCL (static) 1-b full adder achieved a minimum delay of 3.0 ns (12.0 ns) with a power-delay product of 0.3 pJ (11.0 pJ). >