Differentiator and Integrator Circuits
Laboratory Report Cover/Worksheet
DeVry University
College of Engineering and Information Sciences
Course Number: ECET220
Professor:
Laboratory Number: 6
Laboratory Title: Differentiator and Integrator Circuits
Submittal Date: 6/11/2014
Objectives:
1. To demonstrate the operation of a differentiator
2. To demonstrate the operation of an integrator
Results:
The differentiator circuit caused the cosine wave to output a sine wave and a triangle wave to output a square wave.
The Integrator circuit caused the sine wave to become a cosine wave and the square wave into a triangle wave.
Conclusions:
The differentiator circuit differentiates the wave being imputed into a lower level wave , and the Integrator circuit allows for the output to be the integral of the input, a higher level wave.
Team:
Name
Program
Signature
Name
Program
Signature
Name
Program
Signature
Observations/Measurements:
IV. A. 1. Input/output signals of the differentiator circuit from Multisim scope with a sine wave input:
IV. A. 2. Input/output signals of the differentiator circuit from Multisim scope with a triangular wave input:
IV. B. 1. Input/output signals of the hardware differentiator circuit from oscilloscope with a sine wave input:
IV. B. 2. Input/output signals of the hardware differentiator circuit from oscilloscope with a triangular wave input:
IV. C. 1. Answer the following questions:
Questions
Answers
Is the output of the Multisim differentiator circuit the derivative of the input sine waveform? (Yes or No)
YES
Is the output of the Multisim differentiator circuit the derivative of the input triangular wave? (Yes or No)
YES
Is the output of the hardware differentiator circuit the derivative of the input sine waveform? (Yes or No)
YES
Is the output of the hardware differentiator circuit the derivative of the input triangular
DeVry University
College of Engineering and Information Sciences
Course Number: ECET220
Professor:
Laboratory Number: 6
Laboratory Title: Differentiator and Integrator Circuits
Submittal Date: 6/11/2014
Objectives:
1. To demonstrate the operation of a differentiator
2. To demonstrate the operation of an integrator
Results:
The differentiator circuit caused the cosine wave to output a sine wave and a triangle wave to output a square wave.
The Integrator circuit caused the sine wave to become a cosine wave and the square wave into a triangle wave.
Conclusions:
The differentiator circuit differentiates the wave being imputed into a lower level wave , and the Integrator circuit allows for the output to be the integral of the input, a higher level wave.
Team:
Name
Program
Signature
Name
Program
Signature
Name
Program
Signature
Observations/Measurements:
IV. A. 1. Input/output signals of the differentiator circuit from Multisim scope with a sine wave input:
IV. A. 2. Input/output signals of the differentiator circuit from Multisim scope with a triangular wave input:
IV. B. 1. Input/output signals of the hardware differentiator circuit from oscilloscope with a sine wave input:
IV. B. 2. Input/output signals of the hardware differentiator circuit from oscilloscope with a triangular wave input:
IV. C. 1. Answer the following questions:
Questions
Answers
Is the output of the Multisim differentiator circuit the derivative of the input sine waveform? (Yes or No)
YES
Is the output of the Multisim differentiator circuit the derivative of the input triangular wave? (Yes or No)
YES
Is the output of the hardware differentiator circuit the derivative of the input sine waveform? (Yes or No)
YES
Is the output of the hardware differentiator circuit the derivative of the input triangular