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- For the differentiator circuit shown in Fig. 9.21(i), determine (Solved)
For the differentiator circuit shown in Fig. 9.21(i), determine
(i) the expression for the output voltage
(ii) the output voltage for the given input.
Date posted: August 16, 2019.
- For the differentiator circuit shown in Fig. 9.20, determine the output voltage if the input goes from 0V to 10V in 0.4s. Assume the input...(Solved)
For the differentiator circuit shown in Fig. 9.20, determine the output voltage if the input goes from 0V to 10V in 0.4s. Assume the input voltage changes at constant rate.
Date posted: August 16, 2019.
- Fig. 9.19 (i) shows the square wave input to a differentiator circuit. Find the output voltage if input goes from 0V to 5V in 0.1...(Solved)
Fig. 9.19 (i) shows the square wave input to a differentiator circuit. Find the output voltage if input goes from 0V to 5V in 0.1 ms.
Date posted: August 16, 2019.
- Discuss the OP-Amp Differentiator(Solved)
Discuss the OP-Amp Differentiator
Date posted: August 16, 2019.
- For the integrator circuit shown in Fig. 9.16 (i), how long does it take for the output to reach saturation?(Solved)
For the integrator circuit shown in Fig. 9.16 (i), how long does it take for the output to reach saturation?
Date posted: August 16, 2019.
- Determine the rate of change of the output voltage in response to a single pulse input to the integrator circuit shown in Fig. 9.15 (i).(Solved)
(i) Determine the rate of change of the output voltage in response to a single pulse input to the integrator circuit shown in Fig. 9.15 (i).
(ii) Draw the output waveform.
Date posted: August 16, 2019.
- Determine the lower frequency limit (critical frequency) for the integrator circuit shown in Fig. 9.14.(Solved)
Determine the lower frequency limit (critical frequency) for the integrator circuit shown in Fig. 9.14.
Date posted: August 16, 2019.
- Fig. 9.13 (i) shows the OP-amp integrator and the square wave input. Find the output voltage.(Solved)
Fig. 9.13 (i) shows the OP-amp integrator and the square wave input. Find the output voltage.
Date posted: August 16, 2019.
- What is the Critical Frequency of Integrators?(Solved)
What is the Critical Frequency of Integrators?
Date posted: August 16, 2019.
- Explain the Circuit Analysis and Output voltage of an OP-Amp Integrator(Solved)
Explain the Circuit Analysis and Output voltage of an OP-Amp Integrator
Date posted: August 16, 2019.
- Define OP-Amp Integrators and Differentiators(Solved)
Define OP-Amp Integrators and Differentiators
Date posted: August 16, 2019.
- Give the Applications of Summing Amplifiers(Solved)
Give the Applications of Summing Amplifiers
Date posted: August 16, 2019.
- Explain what Summing Amplifiers are and how it works(Solved)
Explain what Summing Amplifiers are and how it works
Date posted: August 16, 2019.
- Two voltages of + 0.6V and – 1.4 V are applied to the two input resistors of a summing amplifier.(Solved)
Two voltages of + 0.6V and – 1.4 V are applied to the two input resistors of a summing amplifier. The respective input resistors are 400 kilo-ohms and 100 kilo-ohms and feedback resistor is 200 kilo-ohms. Determine the output voltage.
Date posted: August 16, 2019.
- Determine the output voltage for the summing amplifier shown in Fig. 9.6(Solved)
Determine the output voltage for the summing amplifier shown in Fig. 9.6
Date posted: August 16, 2019.
- Determine the output voltage for the summing amplifier shown in Fig. 9.5.(Solved)
Determine the output voltage for the summing amplifier shown in Fig. 9.5.
Date posted: August 16, 2019.
- Determine the output voltage for the summing amplifier in Fig. 9.4.(Solved)
Determine the output voltage for the summing amplifier in Fig. 9.4.
Date posted: August 16, 2019.
- Show an OP-Amp with Negative Feedback(Solved)
Show an OP-Amp with Negative Feedback
Date posted: August 16, 2019.
- What is the Frequency Response of an OP-Amp?(Solved)
What is the Frequency Response of an OP-Amp?
Date posted: August 16, 2019.
- The amplifier in Fig. 7.44 is being used to amplify an input signal to a peak output voltage of 100 mV. What is the maximum...(Solved)
The amplifier in Fig. 7.44 is being used to amplify an input signal to a peak output voltage of 100 mV. What is the maximum operating frequency of the amplifier?
Date posted: August 16, 2019.
- Determine the maximum operating frequency for the circuit shown in Fig. 7.44. The slew rate is 0.5 V/µs.(Solved)
Determine the maximum operating frequency for the circuit shown in Fig. 7.44. The slew rate is 0.5 V/μs.
Date posted: August 16, 2019.
- What is the definition of Slew Rate?(Solved)
What is the definition of Slew Rate?
Date posted: August 16, 2019.
- An OP-amp has a gain-bandwidth product of 1.5 MHz. (Solved)
An OP-amp has a gain-bandwidth product of 1.5 MHz. Find the operating bandwidth for the following closed-loop gains (i) ACL = 1 (ii) ACL = 10 (iii) ACL = 100.
Date posted: August 16, 2019.
- An OP-amp has a gain-bandwidth product of 15 MHz. Determine the bandwidth of OP- amp when ACL = 500. Also find the maximum value of...(Solved)
An OP-amp has a gain-bandwidth product of 15 MHz. Determine the bandwidth of OP- amp when ACL = 500. Also find the maximum value of ACL when f2 = 200 kHz.
Date posted: August 16, 2019.
- Explain the Output Voltage from OP-Amp(Solved)
Explain the Output Voltage from OP-Amp
Date posted: August 16, 2019.
- Show the schematic symbol of an operational amplifier(Solved)
Show the schematic symbol of an operational amplifier
Date posted: August 16, 2019.
- The differential amplifier shown in Fig. 7.14 has a differential voltage gain of 2500 and a CMRR of 30,000.(Solved)
The differential amplifier shown in Fig. 7.14 has a differential voltage gain of 2500 and a CMRR of 30,000. A single-ended input signal of 500 μV r.m.s. is applied. At the same time, 1V, 50 Hz interference signal appears on both inputs as a result of radiated pick-up from the a.c. power system.
(i) Determine the common-mode gain.
(ii) Express the CMRR in dB.
(iii) Determine the r.m.s. output signal.
(iv) Determine the r.m.s. interference voltage on the output.
Date posted: August 15, 2019.
- A differential amplifier has a voltage gain of 150 and a CMRR of 90 dB.(Solved)
A differential amplifier has a voltage gain of 150 and a CMRR of 90 dB. The input signals are 50 mV and 100 mV with 1 mV of noise on each input. Find (i) the output signal (ii) the noise on the output.
Date posted: August 15, 2019.
- A differential amplifier has an output of 1V with a differential input of 10 mV and an output of 5 mV with a common-mode input...(Solved)
A differential amplifier has an output of 1V with a differential input of 10 mV and an output of 5 mV with a common-mode input of 10 mV. Find the CMRR in dB.
Date posted: August 15, 2019.
- A certain differential amplifier has a differential voltage gain of 2000 and a common mode gain of 0.2. Determine CMRR and express it in dB.(Solved)
A certain differential amplifier has a differential voltage gain of 2000 and a common mode gain of 0.2. Determine CMRR and express it in dB.
Date posted: August 15, 2019.