Transferred-electron logic gates
Abstract
A two-dimensional modeling technique is used to simulate GaAs transferred-electron devices operated as a logic gate (the TELD) and as a threshold gate. The simple logic gate has a good transfer characteristic but is shown sensitive to bias variations and operates with monostable output. For an input logic swing of 0.6 V and a fanout of 2, a propagation delay of 26 ps and gain of 1.25 is predicted. A bistable threshold gate shows a turn-on time of about 80 ps. An FET-triggered two-terminal transferred-electron device is calculated to have propagation delay of 27 ps with a gain of -1.2. Subsequent similar stages would require a noninverted output obtainable from a capacitive electrode on the TED. However, it is shown that additional anode load resistance is required to obtain a significant positive pulse output from such capacitive electrodes. The bias power requirement is estimated to be similar to the simple TELD gate.
- Publication:
-
IEEE Transactions on Electron Devices
- Pub Date:
- May 1979
- DOI:
- Bibcode:
- 1979ITED...26..780C
- Keywords:
-
- Gates (Circuits);
- Gunn Diodes;
- Logical Elements;
- Threshold Logic;
- Electrical Resistance;
- Electrodes;
- Electron Transfer;
- Runge-Kutta Method;
- Two Dimensional Models;
- Waveforms;
- Electronics and Electrical Engineering