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BJT amplifier & small-signal concept

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Presentation on theme: "BJT amplifier & small-signal concept"— Presentation transcript:

1 BJT amplifier & small-signal concept
Lecture 8

2 Preview Basic characteristics of BJT amplifiers
DC and ac analysis & equivalent circuits Small-signal hybrid-π equivalent circuits Small-signal voltage gain, input resistance & output resistance Common-emitter amplifiers dc & ac load lines

3 Linear analog amplifier

4 Notation

5 Basic characteristics of an amplifier

6 Basic characteristics of an amplifier (cont’d)

7 Basic BJT amplifier

8 Graphical analysis of BJT amplifiers

9 Graphical analysis of BJT amplifiers (Cont’d)

10 Analysis of BJT amplifiers

11 dc analysis and equivalent circuit

12 ac analysis and equivalent circuit

13 Small-signal hybrid-π equivalent circuit

14 Small-signal hybrid-π equivalent circuit (Cont’d)

15 Small-signal voltage gain

16 Input and output resistances

17 Example: dc circuit analysis

18 Example: dc circuit analysis (Cont’d)

19 Example: dc circuit analysis (Cont’d)
-

20 Small-signal hybrid-π equivalent circuit with Early effect

21 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.

22 Common-emitter amplifiers (with voltage-divider biasing & coupling capacitor)

23 Common-emitter amplifiers (with voltage-divider biasing & coupling capacitor)- Cont’d

24 Common-emitter amplifiers (with voltage-divider biasing & coupling capacitor & emitter resistor)

25 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

26 dc load line

27 ac load line

28 Maximum output symmetrical swing

29 Saturation

30 Cutoff

31 Example: 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

32

33

34 end

35 (a) Determine the small-signal hybrid- parameters rπ, gm, and r0
TQ8.1 In Figure 8.1, 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 Fig. 8.1

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