Answer as soon as possible. I'll upvote. A common emitter amplifier, with the circuit shown in the image, is designed to have a Bode magnitude and phase frequency response as shown by the graphs. The BJT has the following parameters: β = 100, VA → ∞, Cπ = 500fF, and Cμ = 10fF. Use VT = 26mV, RC = 10kΩ and note that the capacitor CX is an external capacitor used to achieve the desired frequency response. For the circuit shown, use β = 200, RB = 1kΩ, RC = 2kΩ, RE = 4kΩ, VBE,on = 0.7V, VCE,sat = 0.2V, VCC = 10V, VEE = -10V. Determine the value of the capacitor CX.

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Answer as soon as possible. I'll upvote. A common emitter amplifier, with the circuit shown in the image, is designed to have a Bode magnitude and phase frequency response as shown by the graphs. The BJT has the following parameters: β = 100, VA → ∞, Cπ = 500fF, and Cμ = 10fF. Use VT = 26mV, RC = 10kΩ and note that the capacitor CX is an external capacitor used to achieve the desired frequency response. For the circuit shown, use β = 200, RB = 1kΩ, RC = 2kΩ, RE = 4kΩ, VBE,on = 0.7V, VCE,sat = 0.2V, VCC = 10V, VEE = -10V. Determine the value of the capacitor CX.

Vcc
J
VIN O
Q1
o VOUT
Cx
RC
Transcribed Image Text:Vcc J VIN O Q1 o VOUT Cx RC
70
195
180
60
165
150
50
135
120
40
105
90
30
75
60
20
45
10
30
15
1.E+05
1.E+06
1.E+07
1.E+08
1.E+09
1.E+10
1.E+11
1.E+12
1.E+13
1.E+05
1.E+06
1.E+07
1.E+08
1.E+09
1.E+10
1.E+11
1.E+12
1.E+13
Frequency, rad/sec
Frequency, rad/sec
|A(@)|, dB
ZA(@), degrees
Transcribed Image Text:70 195 180 60 165 150 50 135 120 40 105 90 30 75 60 20 45 10 30 15 1.E+05 1.E+06 1.E+07 1.E+08 1.E+09 1.E+10 1.E+11 1.E+12 1.E+13 1.E+05 1.E+06 1.E+07 1.E+08 1.E+09 1.E+10 1.E+11 1.E+12 1.E+13 Frequency, rad/sec Frequency, rad/sec |A(@)|, dB ZA(@), degrees
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