6. An AC precision integrator is desired for a particular application to perform the operation: Vo(t) = -1200 vi(t) dt The primes indicate the ac portions of the respective functions. The lowest frequency other than a possible de component of the input signal is estimated to be 1.5 kHz. Determine a suitable design.

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6. An AC precision integrator is desired for a particular application to perform the operation:
Vo'(t) = -1200 Vi(t) dt
The primes indicate the ac portions of the respective functions. The lowest frequency other than a
possible de component of the input signal is estimated to be 1.5 kHz. Determine a suitable design.
7. A low frequency differentiator is desired for a particular application n to perform the operation
Vo(t) = -0.002 dvi(t)/ dt
Based on a periodic signal with a frequency of 1 kHz, determine a suitable design.
8. Design an astable 555 timer circuit to produce 1kHz square wave, where TH = 0.35 ms and T₁ = 0.65 ms.
Select C = 0.01 UE, Determine R₁ and Ra.
9. Design a monostable 555 timer circuit to produce an output pulse 5 ms wide.
10. Using op amps with Xsat = +/- 13 V, design a square/ triangular wave function generator circuit to
generate 2 kHz triangular wave with a peak-to-peak voltage of 12 V.
11. Design a non inverting Schmitt trigger circuit with VT to be adjustable from = 5V to 10 V.
12. Design a 5 pole low pass active Butterworth filter with a 3dB cutoff frequency of 5 kHz using (a) unity
gain design (b) equal Component design.
Transcribed Image Text:6. An AC precision integrator is desired for a particular application to perform the operation: Vo'(t) = -1200 Vi(t) dt The primes indicate the ac portions of the respective functions. The lowest frequency other than a possible de component of the input signal is estimated to be 1.5 kHz. Determine a suitable design. 7. A low frequency differentiator is desired for a particular application n to perform the operation Vo(t) = -0.002 dvi(t)/ dt Based on a periodic signal with a frequency of 1 kHz, determine a suitable design. 8. Design an astable 555 timer circuit to produce 1kHz square wave, where TH = 0.35 ms and T₁ = 0.65 ms. Select C = 0.01 UE, Determine R₁ and Ra. 9. Design a monostable 555 timer circuit to produce an output pulse 5 ms wide. 10. Using op amps with Xsat = +/- 13 V, design a square/ triangular wave function generator circuit to generate 2 kHz triangular wave with a peak-to-peak voltage of 12 V. 11. Design a non inverting Schmitt trigger circuit with VT to be adjustable from = 5V to 10 V. 12. Design a 5 pole low pass active Butterworth filter with a 3dB cutoff frequency of 5 kHz using (a) unity gain design (b) equal Component design.
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