%3D Vcc = 3.6 V, V = 2.8 V, Rc= 7 ko, RB = 560 kn, RE= 3 kN, RL= 7 kQ npn transistor parameters are given as B= 75, VBE(on) = 0.7 V. Early effect is ignored. (a) Determine the Q-point values IBQ, Ica...

%3D<br>Vcc = 3.6 V, V = 2.8 V, Rc= 7 ko, RB = 560 kn, RE= 3 kN, RL= 7 kQ<br>npn transistor parameters are given as<br>B= 75, VBE(on) = 0.7 V. Early effect is ignored.<br>(a) Determine the Q-point values IBQ, Ica , leq and VceQ by doing DC analysis. Check if the transistor is<br>biased in the active region.<br>(b) Draw the small-signal equivalent circuit of the amplifier.<br>(c) Find the small-signal equivalent circuit parameters r, and gm.<br>(d) Find the small-signal voltage gain A, = Vo/Vs.<br>Vc<br>Rc3<br>Cc2<br>Vo<br>ic<br>RB<br>iB<br>Q1<br>RL<br>VBB<br>Vs (+<br>RE<br>

Extracted text: %3D Vcc = 3.6 V, V = 2.8 V, Rc= 7 ko, RB = 560 kn, RE= 3 kN, RL= 7 kQ npn transistor parameters are given as B= 75, VBE(on) = 0.7 V. Early effect is ignored. (a) Determine the Q-point values IBQ, Ica , leq and VceQ by doing DC analysis. Check if the transistor is biased in the active region. (b) Draw the small-signal equivalent circuit of the amplifier. (c) Find the small-signal equivalent circuit parameters r, and gm. (d) Find the small-signal voltage gain A, = Vo/Vs. Vc Rc3 Cc2 Vo ic RB iB Q1 RL VBB Vs (+ RE

Jun 11, 2022

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%3D Vcc = 3.6 V, V = 2.8 V, Rc= 7 ko, RB = 560 kn, RE= 3 kN, RL= 7 kQ npn transistor parameters are given as B= 75, VBE(on) = 0.7 V. Early effect is ignored. (a) Determine the Q-point values IBQ, Ica...

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