A 0.25 μm 0.92 mW per Mb/s Viterbi decoder featuring resonant clocking for ultra-low-power 54 Mb/s WLAN communication

Author

Carbognani, Flavio ; Haene, Simon ; Arrigo, Manuel ; Pagnamenta, Claudio ; Buergin, Felix ; Felber, Norbert ; Kaeslin, Hubert ; Fichtner, Wolfgang

Author_Institution

ETH Zurich, Zurich

fYear

2007

fDate

16-19 Sept. 2007

Firstpage

451

Lastpage

454

Abstract

In this paper, resonant clocking is applied to a Viterbi decoder for ultra-low-power WLAN communication. Clock skew balancing and excessive cross-over currents are identified as the most relevant issues: H-clock-trees and a new latch circuit are proposed as innovative power-efficient design solutions. The chip has been integrated in a 0.25 μm CMOS process. Supplied at 1.75 V, the 1.35 mm² core dissipates 50 mW at 54 Mb/s throughput, with about 27% power savings compared to an equivalent circuit with conventional one-phase single-edge-triggered (SET) clocking strategy and a recently published competitor by C.C. Lin, et al (2005). The chip works up to 77 MHz.

Keywords

CMOS logic circuits; Viterbi decoding; wireless LAN; H-clock-trees; Viterbi decoder; clock skew balancing; cross-over current; latch circuit; power 50 mW; resonant clocking; size 0.25 micron; ultralow-power WLAN communication; voltage 1.75 V; Capacitance; Circuits; Clocks; Decoding; Random access memory; Resonance; Scanning probe microscopy; Very large scale integration; Viterbi algorithm; Wireless LAN;

fLanguage

English

Publisher

ieee

Conference_Titel

Custom Integrated Circuits Conference, 2007. CICC '07. IEEE

Conference_Location

San Jose, CA

Print_ISBN

978-1-4244-0786-6

Electronic_ISBN

978-1-4244-1623-3

Type

conf

DOI

10.1109/CICC.2007.4405771

Filename

4405771