Operational Amplifier Fundamentals – Exercise – 1

21. A certain inverting amplifier has a closed loop voltage gain of 25. The OP-amp has an open-loop voltage gain of 100,000. If an OP-amp with an open-loop voltage gain of 200,000 is substituted in the arrangement, the closed-loop gain ……….

(a) doubles
(b) drops to 12.5
(c) remains at 25
(d) increases slightly

Answer
Answer : (c)
Explanation
Explanation : No answer description available for this question. Let us discuss.
Discuss
Discuss : Write your answer. Click here.

22. A voltage follower ….

(a) has a voltage gain of 1
(b) in noninverting
(c) has no feedback resistor
(d) has all of these

Answer
Answer : (d)
Explanation
Explanation : No answer description available for this question. Let us discuss.
Discuss
Discuss : Write your answer. Click here.

23. The OP-amp can amplify ….

(a) a.c. signals only
(b) d.c. signals only
(c) both a.c. and d.c. signals
(d) neither d.c. nor a.c. signals

Answer
Answer : (c)
Explanation
Explanation : No answer description available for this question. Let us discuss.
Discuss
Discuss : Write your answer. Click here.

24. The input offset current equals the ….

(a) difference between two base currents
(b) average of two base currents
(c) collector current divided by current gain
(d) none of these

Answer
Answer : (a)
Explanation
Explanation : No answer description available for this question. Let us discuss.
Discuss
Discuss : Write your answer. Click here.

25. The tail current of a differential amplifier is ….

(a) half of either collector current
(b) equal to either collector current
(c) two times either collector current
(d) equal to the difference in base currents

Answer
Answer : (c)
Explanation
Explanation : No answer description available for this question. Let us discuss.
Discuss
Discuss : Write your answer. Click here.

Related Posts

  • Operational Amplifier Fundamentals - 198
    Operational Amplifier Fundamentals - 1985555555555198. ______ is NOT a characteristic of an ideal op-amp. (a) Infinite voltage gain (b) Minimum bandwidth (c) Infinite input impedance (d) Zero output impedance
    Tags: amplifier, op-amp, voltage, gain, input, output, electronics, engineering
  • Operational Amplifier Fundamentals - 188
    Operational Amplifier Fundamentals - 1885555555555188. With negative feedback, the returning signal: (a) aids the input signal (b) is proportional to output current (c) opposes the input signal (d) is proportional to differential voltage gain
    Tags: input, gain, voltage, differential, current, output, amplifier, electronics, engineering
  • Operational Amplifier Fundamentals - 143
    Operational Amplifier Fundamentals - 1435555555555143. With negative feedback, the returning signal (a) is proportional to the output current (b) is proportional to the differential voltage gain (c) opposes the input signal (d) aids the input signal
    Tags: input, differential, gain, voltage, output, current, amplifier, electronics, engineering
  • Operational Amplifier Fundamentals - 105
    Operational Amplifier Fundamentals - 1055555555555 105. At what input voltage level does the output voltage level become numerically equal to the value of the differential gain of the amplifier? (a) Vi1 = –Vi2 = 0.25 V (b) V i1 = –V i2 = 0.50 V (c) V i1 = –V i2 = 0.75 V (d) V i1 = –Vi2 = 1.00 V
    Tags: amplifier, voltage, input, output, equal, differential, gain, electronics, engineering
  • Operational Amplifier Fundamentals - 131
    Operational Amplifier Fundamentals - 1315555555555131. An ideal op-amp circuit has ________input impedance, ________ output impedance, and ________ voltage gain. (a) zero, infinite, infinite (b) infinite, zero, zero (c) zero, zero, infinite (d) infinite, zero, infinite
    Tags: amplifier, op-amp, input, output, voltage, gain, electronics, engineering