Q1. The transistor parameters of Figure 1 are B = 500, V, = 0.026 V and VBE = 0.7 V. The two transistors are Identical. %3D %3D %3D a) What does "the two transistors are Identical" mean In the context of circult analysis and why is this assumption useful? b) Given Vec = 13.L, determine the d.c. output voltage at the output terminals vo1 and vo2- Note that L is the last digit of your student number. For example, If your number is C1700123, then Vcc = 13.3 V, or if your number is C1700100, Vcc = 13.0 V %3D %3D c) Given that the input signal is v = 2L sin(wt) (mV), determine the total output voltage at teminal Vo1. Note that L is the last digit of your student number. For example, if your number is C1700123, then vị = 23 sin(wt) (mV), or if your number is C1700100, vị = 20 sin(wt) (mV)

B) C) D) L=8

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10:23 53% Q1. The translstor parameters of Figure 1 are B = 500, Vr = 0.026 V and VBE = 0.7 V. The two transistors are Identical. a) What does "the two transistors are Identical" mean In the context of circult analysis and why Is this assumption useful? Given Vec = 13. L , determine the d.c. output voltage at the output b) terminals vo1 and vo2- Note that L is the last digit of your student number. For example, If your number is C1700123, then Vcc = 13.3 V, or if your number is C1700100, Vcc = 13.0 V Given that the input signal is v = 2L sin(wt) (mV), determine the c) total output voltage at teminal vo1- Note that L is the last digit of your student number. For example, if your number is C1700123, then v = 23 sin(wt) (mV), or if your number is C1700100, v = 20 sin(wt) (mV) Draw the circuit diagram of Figure 1 with both transistors being d) replaced by the Darlington pairs. Explain the main consequence of changing the single transistors by the Darlington pairs. Vcc 9 kn 9 kn Vol Voz 1 1.4 mA Figure 1 Differential amplifier