Title :
A 6 K-gate GaAs gate array with a new large-noise-margin SLCF circuit
Author :
Terada, Toshiyuki ; Ikawa, Yasuo ; Kameyama, Atsushi ; Kawakyu, Katsue ; Sasaki, Tadahiro ; Kitaura, Yoshiaki ; Ishida, Kenji ; Nishihori, Kazuya ; Toyoda, Nobuyuki
fDate :
10/1/1987 12:00:00 AM
Abstract :
A 6 K-gate GaAs gate array has been successfully designed and fabricated using a novel large-noise-margin Schottky-diode level-shifter capacitor-coupled FET logic (SLCF) circuitry and a WN/SUB x/ gate selfaligned lightly doped drain (LDD) structure GaAs MESFET process. Chip size was 8.0×8.0 mm/SUP 2/. A basic cell can be programmed as an SLCF inverter, a two-input NOR, or a two-input NAND gate. The unloaded propagation delay time was 76 ps/gate a 1.2-mW/gate power dissipation. The increases in delay time due to various loading capacitances were 10 ps/fan-in, 45 ps/fan-out, and 0.64 ps/IF. A 16-b serial-to-parallel-to-serial (S/P/S) data-conversion circuit was constructed on the gate array as an application example. A maximum operation frequency of 852 MHz was achieved at a 952-mW power dissipation, including I/O buffers.
Keywords :
Cellular arrays; Field effect integrated circuits; Gallium arsenide; III-V semiconductors; Integrated logic circuits; cellular arrays; field effect integrated circuits; gallium arsenide; integrated logic circuits; FETs; Gallium arsenide; Inverters; Logic arrays; Logic circuits; Logic design; MESFET circuits; Optical arrays; Power dissipation; Programmable logic arrays;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1987.1052810
