bias voltage

(redirected from Biasing (electronics))
Also found in: Wikipedia.

bias voltage

[′bī·əs ‚vōl·tij]
A voltage applied or developed between two electrodes as a bias.
McGraw-Hill Dictionary of Scientific & Technical Terms, 6E, Copyright © 2003 by The McGraw-Hill Companies, Inc.


(1) A weight given to a neuron in a neural network. See neuron.

(2) A voltage applied to the gate (or base) of a transistor or vacuum tube, which causes the device to operate in its conductive state. When the control voltage (input voltage) is applied to the gate, it is added to the bias, causing the resultant voltage to be higher or lower, based on the sum of the two.

Forward and Reverse Bias
Forward bias voltage brings the transistor or tube into or closer to its conductive state. For example, if the gate requires positive voltage to conduct, forward biasing adds positive voltage.

In contrast, reverse bias holds the device in a non-conductive state until the sum of the control voltage and bias is sufficient to bring it to the conductive state. For example, if the gate requires positive voltage to conduct, reverse biasing adds negative voltage.

Bias is widely used in analog devices, such as an audio amplifier, to keep the input voltage within the conductive region of the transistor or tube. It is also used in digital circuits to reach a certain threshold and open or close the switch faster.

Transistor Conduction Curve
This is the typical conduction curve of a bipolar and field effect transistor (FET). A forward bias pushes the voltage past the transition region and keeps the transistor operating in its conduction region.
Copyright © 1981-2019 by The Computer Language Company Inc. All Rights reserved. THIS DEFINITION IS FOR PERSONAL USE ONLY. All other reproduction is strictly prohibited without permission from the publisher.