52.) Determine A, = Vo/V, for the network of Fig. 5.181 if the source has an internal resistance of 1.2 kN and the applied load is 10 k2. 53.) A resistor Rc = 470 N is added to the network of Fig. 5.181 along with a bypass capacitor CE = 5 µF across the emitter resistor. If ßp = 4000, VBE, = 1.6 V, and ro, = roz = 40 kN for a packaged Darlington amplifier: a. Find the de levels of VB,, VE, and VeE b. Determine Z, and Z,. c. Determine the voltage gain A, = Vo/V; if the output voltage V, is taken off the collector terminal via a coupling capacitor of 10 µF. Dr. Adulla ddolaboo

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+16 V 2.4 M2 0.1 µF B1 = 50, B2 = 120 VBE, = VBE, = 0.7 V Q2 10 μF 510 2 FIG. 5.181 Problems 50 through 53. 51. Repeat problem 50 with a load resistor of 1.2 kN. 52. Determine A, = Vo/V, for the network of Fig. 5.181 if the source has an internal resistance of 1.2 kl and the applied load is 10 k2. 53.) A resistor Rc = 470 N is added to the network of Fig. 5.181 along with a bypass capacitor CE = 5 µF across the emitter resistor. If ßp = 4000, VBE, = 1.6 V, and ro, = roz = 40 kN for a packaged Darlington amplifier: a. Find the de levels of VB,, VE, and VCE; b. Determine Z; and Zg- c. Determine the voltage gain A, = Vo/V; if the output voltage V, is taken off the collector terminal via a coupling capacitor of 10 µF. Dr. Abdula oudBaboa