1. Open-loop bandwidth of an op-amp extends its bandwidth from
A. 0 Hz to fo
B. 20dB to fo
C. 3dB to fo
D. 0.704dB to fo
Answer: A
The gain of the op-amp remains essentially constant from 0 to the break frequency fo and therefore rolls off at a constant rate of 20dB per decade. Thus, the open-loop bandwidth is the frequency band extending from 0Hz to fo.
2. What happens if 741 op-amps are configured as a closed-loop inverting amplifier?
A. Gain increases
B. Gain roll-off at a rate of 20dB/decade
C. No gain roll-off takes place
D. Gain decreases
Answer: B
Whether the op-amp is inverting / non-inverting the gain will always roll off at a rate of 20dB/decade, using only resistive components regardless of the value of its closed-loop gain.
3. Op-amp requiring external compensating components is called as
A. Tailored frequency response op-amp
B. Compensating op-amp
C. Transient op-amp
D. High-frequency op-amp
Answer: A
Op-amps using external components like resistor and capacitor to form the compensating network are sometimes called tailored frequency response op-amps because the user has to provide the compensation if it is needed to tailor the response.
4. In the first generation op-amp 709c, the open-loop bandwidth of gain versus frequency curve
A. Increases from the innermost compensated curve to the outermost
B. Decrease from the innermost compensated curve to the outermost
C. Increases from the outermost compensated curve to the innermost
D. Decreases from the outermost compensated curve to the innermost
Answer: D
The gain versus frequency curve of 709c decreases from the outermost compensated curve to the innermost.
For example, if C1 =10pF, R1 = 0Ω and C2 = 3pF, the bandwidth ≅ 5kHz.
While if C1 =5000pF, R1 =1.5Ω and C2= 200pF, the bandwidth will be 100Hz.
5. Which type of op-amp offers relatively broader open-loop bandwidth?
A. Compensated op-amp
B. Uncompensated op-amp
C. Tailored frequency response op-amp
D. Non-compensated op-amp
Answer: B
The uncompensated op-amps offer broader open-loop bandwidth whereas; the internally compensated op-amps have very small open-loop bandwidth.
6. How the performance of an op-amp circuit can be improved?
A. By using a non-compensating network
B. By using frequency network
C. By using compensating network
D. None of the mentioned
Answer: C
The compensating networks are used to improve /modify the performance of an op-amp circuit over the desired frequency range by controlling its gain and phase shift.
7. Which op-amp requires an external compensating network?
A. Op-amp 771
B. Op-amp 351
C. Op-amp 709
D. Op-amp 741
Answer: C
Op-amp 709 is the first-generation op-amp. Generally, a first-generation op-amp is required for an external compensating network.
8. IC 741c op-amp belongs to
A. Compensated op-amp
B. Uncompensated op-amp
C. Non-compensated op-amp
D. None of the mentioned
Answer: A
741c belongs to later generation op-amp and it has an internal compensating network. In an internally compensated op-amp, the compensating network is designed into the circuit to control the gain and phase shift of the op-amp and they are called compensating op-amp.
9. Determine the output voltage for an op-amp with single break frequency.
A. VO ={ jXC /[Ro+(iXC)]} × AVid
B. VO = = AVid / [1+ j2πfRoC].
C. VO = AVid /(Ro+j2πfC.
D. VO = Vid / [Ro-(j2πfRoC.].
Answer: B
The output voltage for an op-amp with single break frequency,
VO = {(-jXC) / [(Ro)-(jXC)} ×AVid
∵ -j=1/j & XC =1/2πfC
=> VO = {(1/j2ΠfC./[Ro + (1/ j2πfC.] } × AVid
= AVid / [1+ j2πfRoC].
10. Compute the break frequency of an op-amp, if the output resistance=10kΩ and the capacitor connected to the output =0.1µF.
