(c) Find IB and Ic. Show your work. IB = mA (note the unit.) Ic = mA (note the unit.) (d) Find VCE for the following two cases. Show your work i) For case 1: Rc = 2 KQ. ii) For case 2: Rc = 4.8 KQ iii) Which case is better for an analog amplifier? Give the reason. 3. Consider the circuit, in which R₁ = 10 KQ2, R2 = 5 KQ, R3 = 1 KQ, and RE = 8 KQ. The supply voltages are +Vcc = 10 V and -VEE = -5 V. Other parameters are ẞF = 100, VBE(On) = 0.7 V, and VCE(Sat) 0.2 V. Rc value will be specified later. (a) (3 points) Draw the dc equivalent circuit of the circuit. VI +Vcc Rc R2 RI R₁ RE -VEE υο R3 (b) Find the Thevenin equivalent voltage source VEQ and input resistance REQ of the DC equivalent circuit. Show your work. +Vcc Rc UC VEQ www REQ VE VEQ = REQ = ΚΩ RE VEE

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(c) Find IB and Ic. Show your work. IB = mA (note the unit.) Ic = mA (note the unit.) (d) Find VCE for the following two cases. Show your work i) For case 1: Rc = 2 KQ. ii) For case 2: Rc = 4.8 KQ iii) Which case is better for an analog amplifier? Give the reason.

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3. Consider the circuit, in which R₁ = 10 KQ2, R2 = 5 KQ, R3 = 1 KQ, and RE = 8 KQ. The supply voltages are +Vcc = 10 V and -VEE = -5 V. Other parameters are ẞF = 100, VBE(On) = 0.7 V, and VCE(Sat) 0.2 V. Rc value will be specified later. (a) (3 points) Draw the dc equivalent circuit of the circuit. VI +Vcc Rc R2 RI R₁ RE -VEE υο R3 (b) Find the Thevenin equivalent voltage source VEQ and input resistance REQ of the DC equivalent circuit. Show your work. +Vcc Rc UC VEQ www REQ VE VEQ = REQ = ΚΩ RE VEE