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ECE212s (UG2023) - Introduction to Electronics (39309)
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Assume VON = 0.7 V. If VS = 2.6 V and R = 5.7 kOhm, then the current flowing through R is equal to ..... mA.
Assume VON = 0.7 V. If VS = 3 V, VG = -2.5 V and R = 4.8 kOhm, then the current flowing through R is equal to ..... mA.
Assume VON = 0.7 V. For a HWR circuit, if the input has amplitude = 9.7 V, then the maximum voltage at the output is equal to ..... V.
Assume VON = 0.7 V. If VS = 2.2 V and R = 5.5 kOhm, then VX = ..... V.
Assume VON = 0.7 V. For a FWR circuit using center-tapped transformer, if the input has amplitude = 1.9 V, then the maximum voltage at the output is equal to ..... V.
Assume VON = 0.7 V. If VS = 8.4 V and R = 9.8 kOhm, then the current flowing in R is equal to ..... mA.
Assume VON = 0.7 V. For a FWR circuit using center-tapped transformer, if the input has amplitude = 6.4 V, then the maximum (peak) reverse voltage applied to the diode is equal to ..... V (write the answer as a positive number).
For the circuit below, if VDD = 12 V, RD = 3.3 kOhm, RS = 2.7 kOhm, VDS = 0.7 V, then ID is equal to ..... mA.
For a given one port circuit, the short circuit output current is 1.4 mA and the Thevenin impedance is 1.4 kOhm. The open circuit voltage is ..... V.
For the shown amplifier circuit, if the voltage drop across RD is 2 V and RD = 1.6 kOhm, then ID is equal to ..... mA.