The figure below shows a common-emitter amplifier. It is given that Rsig = 5.7 k2, Rg1 = Rg2 D 22 kQ, C, = 5.2 pF, C = 1.1 pF, and Rc = R = 11 kQ. The transistor is biased at lc = 0.6 mA and has B =100. Neglect the Early effect. %3D %3D %3D %3D (a) Find the mid-band gain Vo/Vsig- (b) Find the upper 3-dB frequency fH- Vcc RB Rc Cc RE Insert the value of the midband gain in V/V below:
The figure below shows a common-emitter amplifier. It is given that Rsig = 5.7 k2, Rg1 = Rg2 D 22 kQ, C, = 5.2 pF, C = 1.1 pF, and Rc = R = 11 kQ. The transistor is biased at lc = 0.6 mA and has B =100. Neglect the Early effect. %3D %3D %3D %3D (a) Find the mid-band gain Vo/Vsig- (b) Find the upper 3-dB frequency fH- Vcc RB Rc Cc RE Insert the value of the midband gain in V/V below:
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:The figure below shows a common-emitter amplifier. It is given that Rsig = 5.7 kQ, R81
R82 22 kQ, C = 5.2 pF, C = 1.1 pF, and Rc = RL = 11 kQ. The transistor is biased
at lc = 0.6 mA and has B =100. Neglect the Early effect.
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(a) Find the mid-band gain Vo/Vsig-
(b) Find the upper 3-dB frequency fH.
Vee
RB
Re
Ce
R
Insert the value of the midband gain in V/V below:
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