Week 09-10: Bipolar Junction Transistors.

Learning Outcomes:

● Become familiar with the basic construction and operation of the Bipolar Junction Transistor.
● Be able to apply the proper biasing to insure operation in the active region.
● Recognize and be able to explain the characteristics of an npn or pnp transistor.
● Become familiar with the important parameters that define the response of a transistor.
● Be able to test a transistor and identify the three terminals.

During the period 1904 to1947, the vacuum tube was the electronic device of interest and development. In 1904, the vacuum-tube diode was introduced by J. A. Fleming. Shortly thereafter, in 1906, Lee De Forest added a third element, called the control grid , to the vacuum diode, resulting in the first amplifier, the triode. In the following years, radio and television provided great stimulation to the tube industry. Production rose from about 1 million tubes in 1922 to about 100 million in 1937. In the early 1930s the four element tetrode and the five-element pentode gained prominence in the electron-tube industry. In the years to follow, the industry became one of primary importance, and rapid advances were made in design, manufacturing techniques, high-power and high-frequency applications, and miniaturization.
On December 23, 1947, however, the electronics industry was to experience the advent of a completely new direction of interest and development. It was on the afternoon of this day that Dr. S. William Shockley, Walter H. Brattain, and John Bardeen demonstrated the amplifying action of the first transistor at the Bell Telephone Laboratories as shown in Fig. 3.1 . The original transistor (a point-contact transistor) is shown in Fig. 3.2 . The advantages of this three-terminal solid-state device over the tube were immediately obvious: It was smaller and lightweight; it had no heater requirement or heater loss; it had a rugged construction; it was more efficient since less power was absorbed by the device itself; it was instantly available for use, requiring no warm-up period; and lower operating voltages were possible. Note that this chapter is our first discussion of devices with three or more terminals. You will find that all amplifiers (devices that increase the voltage, current, or power level) have at least three terminals, with one controlling the flow or potential between the other two.

 

Lesson Plan:

Lecture 01: Transistor Construction and Transistor Operation

Lecture 02: Common-Base Configuration

Lecture 03: Common-Emitter Configuration

Lecture 04: Common-Collector Configuration

Lecture 05: Limits of Operation

Lecture 06: Transistor Specification Sheet and Testing