Title :
A fully asynchronous low-power error corrector for the DCC player
Author :
Van Berkel, Kees ; Burgess, Ronan ; Kessels, Joep L W ; Peeters, Ad ; Roncken, Marly ; Schalij, Frits
Author_Institution :
Philips Res. Lab., Eindhoven, Netherlands
fDate :
12/1/1994 12:00:00 AM
Abstract :
A fully asynchronous implementation of a complete DCC error corrector is presented that consumes 10 mW at 5 V, only a fifth of its synchronous counterpart, This is achieved by eliminating clocks, and exploiting the additional freedom in architecture provided by the absence of a clock. The corrector has been integrated in an experimental player and is both functionally and audibly correct. Handshake circuits are proposed as an architecture that enables structured design of asynchronous circuits through a consistent application of handshake signaling at all design levels. Handshake circuits are compiled fully automatically from high-level descriptions, and are implemented quasi delay insensitively using 4-phase handshake signaling and double-rail data encoding. The resulting circuits are self-initializable and testable
Keywords :
CMOS logic circuits; asynchronous circuits; audio tape recorders; digital audio tape; error correction; error correction codes; 10 mW; 5 V; DCC player; Hi-Fi equipment; asynchronous circuits; digital compact cassette; double-rail data encoding; fully asynchronous error corrector; handshake circuits; handshake signaling; low-power error corrector; Asynchronous circuits; Circuit testing; Clocks; Communication system control; Delay; Error correction; Frequency; Power dissipation; Signal design; Wires;
Journal_Title :
Solid-State Circuits, IEEE Journal of
