Title :
A 20 Gb/s 1:4 DEMUX with Near-Rail-to-Rail Logic Swing in 90 nm CMOS process
Author :
Mineyama, A. ; Suzuki, T. ; Ito, H. ; Amakawa, S. ; Ishihara, N. ; Masu, K.
Abstract :
A 9.5 mW 20 Gb/s 40times70 mum2 inductorless 1:4 DEMUX in 90 nm CMOS process is presented. In order to reduce power and area, the DEMUX uses a multi-phase clock architecture that requires a smaller number of latches operating at a slower clock rate than in the conventional tree architecture. To provide low-voltage scalability, the latches operate with a near-tail-to-rail logic swing. It is realized without significant speed penalty by adopting current-sourceless CML-type latches with unconventional settings. It offers a larger noise margin and elimination of logic level converters too. The well-balanced scalable design could possibly broaden the applications of high-speed SerDes in the coming ultralow-voltage many-core era.
Keywords :
CMOS integrated circuits; demultiplexing equipment; CMOS process; DEMUX; current-sourceless CML-type latches; multi-phase clock architecture; near-rail-to-rail logic swing; power 9.5 mW; size 90 nm; CMOS logic circuits; CMOS process; Circuit noise; Clocks; Latches; Microwave Theory and Techniques Society; Optical noise; Scalability; Threshold voltage; Wavelength division multiplexing; CMOS; DEMUX; multi-phase clock architecture; near-rail-to-rail logic swing;
Conference_Titel :
Signal Integrity and High-Speed Interconnects, 2009. IMWS 2009. IEEE MTT-S International Microwave Workshop Series on
Conference_Location :
Guadalajara
Print_ISBN :
978-1-4244-2742-0
Electronic_ISBN :
978-1-4244-2743-7
DOI :
10.1109/IMWS.2009.4814922
