A transistor is a semiconductor used for amplification or switching electrical signals. A transistor contains three terminals to connect with an external circuit. Biasing is the bias point on the output of the DC emitter voltage and the flow of current controlled by a transistor. Biasing networks are used when circuits are made with discrete circuit devices. There are various types of transistor biasing, detailed here.
Bipolar Transistor Biasing
A type of bipolar transistor biasing is an amplifier. Bipolar transistor amplifiers must be biased in order to operate. With Class A amplifiers, you can use different types of bias circuits, such as fixed bias, emitter bias and collector-stabilized biasing circuit.
Bipolar Junction Transistor Biasing
In bipolar junction transistor, the bias point enables the transistor to operate in active mode. The bias point stabilizes the current and the Q-point DC voltage. The bias point determines the operating point (biasing); you must not shift the transistor to any position.
RF Power Transistors Biasing
A power transistor includes two components on one semiconductor die. You must bias the two transistor components. A network couples the transistor component terminals in the middle of a ground and a bias voltage. One transistor component is biased first, Class A operation. Another transistor component is biased second, Class B operation.
Field Effect Transistor Biasing
You must bias a field-effect transistor with two voltages. One electrode must be polarized from a voltage biased through a transistor. The transistor must be in saturable load operation. The saturable load's gate and main transistor's gate are connected and supported by two bias voltages. The saturable load's gate voltage follows the main transistor's voltage.
Lateral Power Transistor Biasing
A lateral power transistor contains one drift region and a well region. Both regions contain high amounts of silicon. Place the second silicon region laterally from the well region. When biasing the transistor, a current flows through the drift region in a lateral position in between the two silicon regions.
Tags: bias point, Transistor Biasing, saturable load, transistor component, Class operation, component biased, drift region
