module 2: part 1 the bipolar junction transistor
TRANSCRIPT
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Module 2: Part 1
The Bipolar Junction Transistor
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Learning Objectives
After studying this module, the reader should have the ability to: Understand and describe the general current-voltage characteristics
for both the npn and pnp bipolar transistors. Define the four modes of operation of a bipolar transistor. Apply the piecewise linear model to the dc analysis and design of
various bipolar transistor circuits, including the understanding of the load line.
Qualitatively understand how a transistor circuit can be used to switch currents and voltages, to perform digital logic functions, and to amplify time-varying signals.
Design the dc biasing of a transistor circuit to achieve specified dc currents and voltages, and to stabilize the Q-point against transistor parameter variations
Apply the dc analysis and design techniques to multistage transistor circuits.
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Common-emitter circuits: (a) with an npn transistor, (b) with a pnp transistor, and (c) with a pnp transistor biased with a positive voltage source
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Transistor current-voltage characteristics of the common-emitter circuit
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(a) Common-emitter circuit with an npn transistor and (b) dc equivalent circuit, with piecewise linear parameters
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Circuit for Example 3.3
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Circuit for Example 3.4
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(a) base-emitter junction characteristics and the input load line and (b) common- emitter transistor characteristics and the collector-emitter load line
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Circuit for Example 3.5
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Circuit for Example 3.6
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Circuit for Example 3.8
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(a) A bipolar inverter used as an amplifier; (b) the inverter voltage transfer characteristics
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(a) The inverter circuit with both a dc and an ac input signal; (b) the dc voltage transfer characteristics, Q-point, and sinusoidal input and output signals; (c) the transfer characteristics showing improper dc biasing
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(a) A common-emitter circuit with an emitter resistor and voltage divider bias circuit in the base; (b) the dc circuit with a Thevenin equivalent base circuit