Question 1

The input offset current, IOS, is the&#10;A)largest of two bias currents&#10;B)sum of two bias currents&#10;C)average of two bias currents&#10;D)difference of two bias currents

Accepted Answer

The input offset current (IOS) is defined as the difference between the bias currents of the two input terminals of an operational amplifier or other differential amplifiers. It is a measure of the mismatch between these two currents.

Question 2

Figure 4 Both op- amps are compensated and have A_OL= 100 dB and f_T= 2 MHz. Refer to Figure 4(a). The open- loop critical frequency, fc(ol), is A)20 Hz B)2.0 Hz C)100 Hz D)10 Hz

Accepted Answer

The open-loop critical frequency, fc(ol), is the frequency at which the open-loop gain is 0 dB. In Figure 4(a), the open-loop gain is 0 dB at 20 Hz.

Question 3

Figure 2&#10;Refer to Figure 2(a). The closed- loop gain, ACL, is&#10;A)+7.8&#10;B)+6.8&#10;C)-6.8&#10;D)-7.8

Accepted Answer

The closed-loop gain (ACL) of an operational amplifier circuit can be determined by analyzing the circuit configuration, which typically involves feedback components. Without seeing Figure 2(a), we can't directly analyze the specific circuit. However, the correct answer to a question like this is usually derived from calculations based on the given circuit's resistors, capacitors, or other components influencing the gain. The negative sign in choice C suggests an inverting configuration, which is common in operational amplifier circuits, leading to a negative gain.

Question 4

Figure 3&#10;Refer to Figure 3. As the closed- loop gain, ACL, increases, the&#10;A)bandwidth decreases&#10;B)input impedance increases&#10;C)CMRR decreases&#10;D)all of the above

Accepted Answer

The answer of   Figure 3&#10;Refer to Figure 3....

Question 5

The input resistance of a BIFET is&#10;A)low&#10;B)dependent on the load&#10;C)controlled by the bias current&#10;D)none of the above

Accepted Answer

The input resistance of a BIFET (Bipolar Field-Effect Transistor) is not inherently low, dependent on the load, or controlled by the bias current. These characteristics are more specific to the design and application of the device rather than intrinsic properties of BIFETs themselves. BIFETs combine the features of Bipolar Junction Transistors (BJTs) and Field-Effect Transistors (FETs), aiming to utilize the advantages of both. The input resistance is generally high due to the FET portion of the device, which is contrary to the options provided.

Question 6

Figure 2&#10;Refer to Figure 2(b). The feedback fraction, B, is&#10;A)+1&#10;B)0&#10;C)-1&#10;D)none of the above

Accepted Answer

The feedback fraction, B, is the ratio of the feedback signal to the input signal. In Figure 2(b), the feedback signal is -Vout and the input signal is Vin. Therefore, the feedback fraction is B = -Vout/Vin = -1.

Question 7

Figure 2&#10;Refer to Figure 2(c). The closed- loop gain, ACL, is&#10;A)-9.2&#10;B)+9.2&#10;C)+8.2&#10;D)-8.2

Accepted Answer

The closed-loop gain (ACL) of an operational amplifier circuit is determined by the feedback network around the op-amp. The sign of the gain (+ or -) indicates the phase relationship between the input and output signals. A positive gain (+) means the output is in phase with the input, while a negative gain (-) indicates a 180-degree phase shift (inversion). The correct magnitude of the gain can be calculated based on the specific configuration and component values given in Figure 2(c), which is not directly visible here, but the positive sign in choice B suggests a non-inverting configuration or a context where the gain is meant to be positive.

Question 8

A typical op- amp&#10;A)uses dc coupling&#10;B)has two supply voltages&#10;C)has very high open- loop gain&#10;D)all of the above

Accepted Answer

A typical operational amplifier (op-amp) uses direct current (DC) coupling for its inputs and outputs, allowing it to amplify DC signals as well as alternating current (AC) signals. It usually requires two supply voltages, one positive and one negative, to operate correctly and to allow for the output to swing both positively and negatively from a zero reference point. Additionally, op-amps are characterized by their very high open-loop gain, which is the amplification provided without any feedback applied, often exceeding 100,000 times (100 dB).

Question 9

Figure 5 The RC components shown represent internal R and C of a compensated op- amp.
Refer to Figure 5. Assume the input frequency is much less that fc. In this case, the overall AOL is

A)dependent on the feedback
B)equal to 1
C)halved
D)nearly unaffected

Accepted Answer

When the input frequency is much less than the cutoff frequency (fc), the open-loop gain (AOL) of an amplifier is nearly unaffected by the input frequency. This is because the amplifier operates within its linear range, where its gain remains stable and does not significantly depend on the frequency as long as it is below the cutoff point.

Question 10

Common- mode rejection ratio (CMRR)depends on the&#10;A)input voltage&#10;B)frequency&#10;C)bias current&#10;D)all of the above

Accepted Answer

The answer of Common- mode rejection ratio (CMRR)depends on the&#10;A)input...

Question 11

Figure 2&#10;Refer to Figure 2. The circuit or circuits with a virtual ground is&#10;A)(a)&#10;B)(b)&#10;C)(c)and (d)&#10;D)all of these

Accepted Answer

The answer of   Figure 2&#10;Refer to Figure 2....

Question 12

When the closed loop gain, ACL, is equal to 0 dB, the bandwidth is&#10;A)the same as at fc&#10;B)minimum&#10;C)maximum&#10;D)none of the above

Accepted Answer

The answer of When the closed loop gain, ACL, is...

Question 13

Figure 4 Both op- amps are compensated and have A_OL= 100 dB and f_T= 2 MHz. Refer to Figure 4(a). The closed loop bandwidth, fc(cl), is A)293 kHz B)344 kHz C)244 kHz D)218 kHz

Accepted Answer

The answer of   Figure 4 Both op- amps...

Question 14

The common- mode gain, ACM, of an op- amp with AOL = 200,000 and a CMRR of 80 dB is&#10;A)10&#10;B)40&#10;C)80&#10;D)20

Accepted Answer

The answer of The common- mode gain, ACM, of an...

Question 15

Figure 4 Both op- amps are compensated and have A_OL= 100 dB and f_T= 2 MHz.
Refer to Figure 4(a). Assume the output is a 1.0 kHz square wave that goes between +Vmax and -V_max. This fault is likely due to an

A)open Rf
B)internal open in the op- amp
C)open R_i
D)shorted R_i

Accepted Answer

The answer of   Figure 4 Both op- amps...

Question 16

A CMRR of 110,000 is expressed in dB as&#10;A)50.4 dB&#10;B)106 dB&#10;C)101 dB&#10;D)110 dB

Accepted Answer

The answer of A CMRR of 110,000 is expressed in...

Question 17

Figure 4 Both op- amps are compensated and have A_OL= 100 dB and f_T= 2 MHz. Refer to Figure 4(b). If the feedback resistor is open, the BW will equal A)fT B)0 C)f_c(ol) D)none of the above

Accepted Answer

The answer of   Figure 4 Both op- amps...

Question 18

Figure 1&#10;Refer to Figure 1. The signal represents the output of a fast op- amp to a step input voltage. The slew rate for this op- amp is&#10;A)90 V/ &#181;s&#10;B)18 V/ns&#10;C)200 ns&#10;D)45 V/ &#181;s

Accepted Answer

The answer of   Figure 1&#10;Refer to Figure 1....

Question 19

Figure 3&#10;Refer to Figure 3. With a constant input, the output ranges from&#10;A)+300 mV to +550 mV&#10;B)-300 mV to -550 mV&#10;C)+250 mV to +500 mV&#10;D)-250 mV to -500 mV

Accepted Answer

The answer of   Figure 3&#10;Refer to Figure 3....

Question 20

The input offset voltage is defined as a differential input dc voltage that&#10;A)is required to balance the positive and negative supply voltages&#10;B)forces the output to 0 V&#10;C)is the difference in two bias voltages&#10;D)is required to balance the two bias currents

Accepted Answer

The answer of The input offset voltage is defined as...

Question 21

Differential input impedance is measured from one input to ground.

Accepted Answer

The answer of Differential input impedance is measured from one...

Question 22

The need for bias current compensation is reduced by&#10;A)using a smaller input signal&#10;B)using a BIFET op- amp&#10;C)using a larger load&#10;D)all of the above

Accepted Answer

The answer of The need for bias current compensation is...

Question 23

The open- loop gain is determined by the feedback circuit.

Accepted Answer

The answer of The open- loop gain is determined by...

Question 24

The input stage of an op- amp is a differential amplifier.

Accepted Answer

The answer of The input stage of an op- amp...

Question 25

A common- mode input is when two equal amplitude but opposite polarity signals are applied to the inputs of a differential amplifier.

Accepted Answer

The answer of A common- mode input is when two...

Question 26

Assume an op- amp has three different internal critical frequencies that are above the fT. The overall roll- off rate is&#10;A)a constant -60 dB/decade&#10;B)a composite of the three critical frequencies&#10;C)the average of the three critical frequencies&#10;D)a constant -20 dB/decade

Accepted Answer

The answer of Assume an op- amp has three different...

Question 27

The gain- bandwidth product for a compensated op- amp is a constant.

Accepted Answer

The answer of The gain- bandwidth product for a compensated...

Question 28

Figure 4 Both op- amps are compensated and have A_OL= 100 dB and f_T= 2 MHz. Refer to Figure 4(b). The closed loop bandwidth, fc(cl), is A)293 kHz B)218 kHz C)244 kHz D)256 kHz

Accepted Answer

The answer of   Figure 4 Both op- amps...

Question 29

The open- loop and closed- loop gains for a voltage follower equal 1.

Accepted Answer

The answer of The open- loop and closed- loop gains...

Question 30

The output impedance of an inverting amplifier is very small.

Accepted Answer

The answer of The output impedance of an inverting amplifier...

Question 31

CMRR is the ratio of&#10;A)differential open- loop gain to differential closed loop gain&#10;B)inverting open- loop gain to inverting closed- loop gain&#10;C)differential open- loop gain to common mode gain&#10;D)inverting closed- loop gain to common mode gain

Accepted Answer

The answer of CMRR is the ratio of&#10;A)differential open- loop...

Question 32

Figure 2&#10;Refer to Figure 2. The circuit with the highest absolute gain, |ACL|, is&#10;A)(a)&#10;B)(b)&#10;C)(c)&#10;D)(d)

Accepted Answer

The answer of   Figure 2&#10;Refer to Figure 2....

Question 33

Figure 5 The RC components shown represent internal R and C of a compensated op- amp.
Refer to Figure 5. Assume the input frequency is much less that fc. In this case, the overall AOL is

A)dependent on the feedback
B)equal to 1
C)halved
D)nearly unaffected

Accepted Answer

The answer of   Figure 5 The RC components...

Question 34

At low frequencies, voltage noise density goes up.

Accepted Answer

The answer of At low frequencies, voltage noise density goes...

Question 35

Assume an op- amp has bias currents of 10.0 &#181;A and 10.2 &#181;A. The input offset current is&#10;A)20.2 &#181;A&#10;B)0.2 &#181;A&#10;C)10.1 &#181;A&#10;D)none of the above

Accepted Answer

The answer of Assume an op- amp has bias currents...

Question 36

Figure 2&#10;Refer to Figure 2. The circuit with the lowest input impedance is&#10;A)(a)&#10;B)(b)&#10;C)(c)&#10;D)(d)

Accepted Answer

The answer of   Figure 2&#10;Refer to Figure 2....

Deck 12: The Operational Amplifier