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Recall Lecture 14 Introduction to BJT Amplifier

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1 Recall Lecture 14 Introduction to BJT Amplifier
Small signal or AC equivalent circuit parameters Have to calculate the DC collector current by performing DC analysis first Common Emitter-Emitter Grounded Voltage gain Current gain

2 Common-Collector (Emitter-Follower) Amplifier

3 Remember that for Common Collector Amplifier,
the output is measured at the emitter terminal. the gain is a positive value

4 β = 100 VBE = 0.7V VA = 80

5 Perform DC analysis to obtain the value of IC
BE loop: 25IB IE – 2.5 = 0 25IB (1+ β)IB = 2.5 IC = βIB = mA Calculate the small-signal parameters r = 3.28 k and ro = k

6 Output at emitter terminal
β = 100 VBE = 0.7V VA = 80 Small-signal equivalent circuit of the emitter-follower amplifier Output at emitter terminal

7 Redraw the small signal equivalent circuit so that all signal grounds connected together.
x Vb x RTH = 25 k RS = 0.5 k r = 3.28 k RE = 2 k ro = k Vb

8 STEPS OUTPUT SIDE Get the equivalent resistance at the output side, ROUT At node x, use KCL and get io in terms of ib where io = ib +  ib Get the vo equation where vo = io ROUT INPUT SIDE Find vb in terms of ib using supermesh Calculate Rib – input resistance seen from base: Rib = vb / ib Calculate Ri Get vb in terms of vs. Go back to vo equation and replace where necessary

9 2. At node x, use KCL and get io in terms of ib
vb 1. Get the equivalent resistance at the output terminal, ROUT  ROUT = ro ||RE = 1.96 k 2. At node x, use KCL and get io in terms of ib  io = ib+ib = ( 1+ )ib = 101 ib 3. Get the vo equation where vo = io ROUT  vo = Rout ( 1+ )ib = ib

10 4. Find vb in terms of ib using supermesh: vb = ibr + io(Rout)
x vb 4. Find vb in terms of ib using supermesh: vb = ibr + io(Rout) vb = ib (r +101 (1.96)) = ib 5. Calculate Rib Rib = vb / ib  k 6. Calculate Ri  Ri = RTH||Rib = k

11 Small-Signal Voltage Gain
7. Get vb in terms of vs using voltage divider 8. Go back to vo equation and replace where necessary vb = vs vb = 0.978vs Vb vo = ib but ib = vb / Rib vo = (vb / Rib) = ( vs) = vs 201.24 AV = vo / vs =

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