Formative Assessment For the Common emitter amplifier below the following are given: VCC=15V hfe=150; R1 = 100k R2 = 20 k RC = 2 k RE= 5000 RL=2 kn Cl= luf hie=1.08 k 0 C2 = 220uF C3=0.32 UF Cwi = 12pF, Cwo = 10pF Cbe=15 pF, Cbc = 25pF HA R1 R2 RE RC (1 alt Determine the following: 1. Midband gain Av 2. Midband Total Voltage Gain Ar 3. Midband Total voltage Gain in dB Gr 4. Midband Total Current Gain Ar 5. Midband Total Current Gain in dB Gir 6. Low cut off frequency for C3 7. Low cut off frequency for C1 8. Low cut off frequency for C2 9. Low cut off frequency of the amplifier f 10. Miller's Capacitance C 11. High Cut-off frequency for the input (fr) Write your Final answer in the table complete with unit 3. 4. 5. 6. 7. 8. 9. 12. High Cut-off frequency for the output (fic) 13. Beta cutoff frequency fp 14. Gain Bandwidth Product fT 15. High cut-off frequency of the amplifier fμ 16. Total Voltage gain at f 17. Total Voltage gain at f 18. Total Power Gain at midband 19. Total Power Gain at f 20. Total Power Gain at f Item No. 1. 2. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. Answer

Formative Assessment For the Common emitter amplifier below the following are given: VCC=15V hfe=150; R1 = 100k R2 = 20 k RC = 2 k RE= 5000 RL=2 kn Cl= luf hie=1.08 k 0 C2 = 220uF C3=0.32 UF Cwi = 12pF, Cwo = 10pF Cbe=15 pF, Cbc = 25pF HA R1 R2 RE RC (1 alt Determine the following: 1. Midband gain Av 2. Midband Total Voltage Gain Ar 3. Midband Total voltage Gain in dB Gr 4. Midband Total Current Gain Ar 5. Midband Total Current Gain in dB Gir 6. Low cut off frequency for C3 7. Low cut off frequency for C1 8. Low cut off frequency for C2 9. Low cut off frequency of the amplifier f 10. Miller's Capacitance C 11. High Cut-off frequency for the input (fr) Write your Final answer in the table complete with unit 3. 4. 5. 6. 7. 8. 9. 12. High Cut-off frequency for the output (fic) 13. Beta cutoff frequency fp 14. Gain Bandwidth Product fT 15. High cut-off frequency of the amplifier fμ 16. Total Voltage gain at f 17. Total Voltage gain at f 18. Total Power Gain at midband 19. Total Power Gain at f 20. Total Power Gain at f Item No. 1. 2. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. Answer

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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