Lecture 5: BJT Amplifiersmct.asu.edu.eg/uploads/1/4/0/8/14081679/ece334_l5_bjt_amplifiers.pdf · Lecture 5: BJT Amplifiers Faculty of Engineering. ... Basic Characteristics of an

ECE 335: Electronic Circuits

Lecture 5:

BJT Amplifiers

Faculty of EngineeringFaculty of EngineeringFaculty of EngineeringFaculty of Engineering

Linear Analog Amplifier

Basic Characteristics of an Amplifier

Basic Characteristics of an Amplifier

(cont.)

Basic BJT Amplifier

Graphical Analysis of BJT Amplifiers

Graphical Analysis of BJT Amplifiers

(Cont.)

Analysis of BJT amplifiers

DC Analysis and Equivalent Circuit

AC Analysis and Equivalent Circuit

Small-Signal Hybrid-π Equivalent Circuit

Small-Signal Hybrid-π Equivalent Circuit

(Cont.)

Small-Signal Voltage Gain

Input and Output Resistances

Example: DC Circuit Analysis

Example: DC Circuit Analysis (Cont.)

Example: DC Circuit Analysis (Cont.)

-

Small-Signal Hybrid-π Equivalent

Circuit with Early Effect

Example: Determine BJT Amplifier

Parameters

• Determine the small-signal voltage gain, input resistance,

and output resistance of the BJT amplifier circuit in

previous example with the early effect. Assume that the

early voltage is 50V.

19

Common-Emitter Amplifiers (with Voltage-

Divider Biasing & Coupling Capacitor)

Common-Emitter Amplifiers (with Voltage-

Divider Biasing & Coupling Capacitor)- Cont.

Common-Emitter Amplifiers (with Voltage-Divider

Biasing & Coupling Capacitor & Emitter Resistor)

DC & AC Load Lines

• Dc load line is used to find Q-point

• Ac load line is used to determine

graphically the operation of a BJT amplifier

• Dc and ac load lines are essentially different

since capacitors appear as an open circuit

for a de operation but a short circuit for an

ac operation

DC Load Line

AC Load Line

Maximum Output Symmetrical Swing

Saturation

Cutoff

Example (1): Calculate BJT Circuit

Parameters

• Determine the small-signal voltage gain, input

resistance, and output resistance of the circuit

shown in attached Figure. Assume the transistor

parameters are: β=100, VBE(on) =0.7V, and

VA=100V

31

• In the figure, let β=150,VA=200V, VCC=7.5V, VBE(on)=0.7V,

RC=15KΩ, RB=100kΩ, and VBB=0.92V.

a) Determine the small-signal hybrid- parameters rπ, gm, and r0

b) Find the small-signal voltage gain Av

Example 2