Preview

ECET220 W6 iLab

Satisfactory Essays
Open Document
Open Document
503 Words
Grammar
Grammar
Plagiarism
Plagiarism
Writing
Writing
Score
Score
ECET220 W6 iLab
Laboratory Report Cover/Worksheet
DeVry University
College of Engineering and Information Sciences

Course Number: ECET220
Professor:
Laboratory Number:
Laboratory Title: Differentiator and Integrator Circuits

Submittal Date:

Objectives:

Results:

Conclusions:

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)

Is the output of the Multisim differentiator circuit the derivative of the input triangular wave? (Yes or No)

Is the output of the hardware differentiator circuit the derivative of the input sine waveform? (Yes or No)

Is the output of the hardware differentiator circuit the derivative of the input triangular wave? (Yes or No)

What is the theoretical value of the gain for the differentiator circuit of Figure 5? (Eq. 4)

What is the actual value of the gain for the differentiator circuit of Figure 5?

Compare the results of the simulation and hardware differentiator circuit with the theoretical values:

IV. D. 1. Input/output signals of the integrator circuit from Multisim scope with a sine wave input:
IV. D. 2. Input/output signals of the integrator circuit from Multisim scope with a square wave input:

IV. E. 1. Input/output signals of the hardware integrator circuit from oscilloscope with a sine wave input:

You May Also Find These Documents Helpful

  • Good Essays

    M19 Lab

    • 548 Words
    • 3 Pages

    6. Calculate and record the magnitude and phase angle of the voltage (vR) this current causes to drop across the 1 kΩ resistor. (Remember, i R = iT in series circuits.)…

    • 548 Words
    • 3 Pages
    Good Essays
  • Satisfactory Essays

    ECT114 week 3 lab

    • 299 Words
    • 2 Pages

    c. Sketch the output of Figure 1 based on the input waveforms shown below. Copy Figure 2 into MS-PAINT and use line draw to sketch your output then replace Figure 2 with your waveforms. (2 points)…

    • 299 Words
    • 2 Pages
    Satisfactory Essays
  • Satisfactory Essays

    2. We have an amplifier with a 1 MHz bandwidth and a 20 V input signal. The…

    • 797 Words
    • 4 Pages
    Satisfactory Essays
  • Satisfactory Essays

    Nt1310 Unit 9

    • 386 Words
    • 2 Pages

    Which part of the sine-wave expression cannot be varied in accordance with the low-frequency intelligence to create a modulated signal?…

    • 386 Words
    • 2 Pages
    Satisfactory Essays
  • Satisfactory Essays

    Week 1 HW Graded

    • 1751 Words
    • 26 Pages

    (TCO 1)Which output waveform would be produced if input A and input B were the inputs to an AND gate?…

    • 1751 Words
    • 26 Pages
    Satisfactory Essays
  • Good Essays

    Problems1

    • 605 Words
    • 2 Pages

    Many problems in this homework make use of a few MATLAB/Octave .m files that are provided on…

    • 605 Words
    • 2 Pages
    Good Essays
  • Satisfactory Essays

    Creating Speech Outlines

    • 724 Words
    • 3 Pages

    Chain Rule using a table )) and ( ) ( 4. Let ( ) ( ( )) , ( ) ( ( )) , ( ) ( ( ( ) ) . Using the table to compute the following derivatives. a. ( ) b. ( ) c. ( ) d. ( ) e. ( ) f. ( ) 0 -1 1 2 -2 1 0 5 4 2 2 3 3 5 10 3 5 -5 1 20 4 1 -8 3 15 5 0 -10 2 20…

    • 724 Words
    • 3 Pages
    Satisfactory Essays
  • Satisfactory Essays

    ecet lab1

    • 263 Words
    • 2 Pages

    1. If a power supply showed 30.00 on its display and to the right of it showed mV, what voltage do you think this would represent?…

    • 263 Words
    • 2 Pages
    Satisfactory Essays
  • Better Essays

    Tities

    • 4160 Words
    • 17 Pages

    Textbook: Chap. 2 pages 80-85, Chap. 2, Sec. 2-3, Chap. 3, Sec. 1, Chap. 2 page 80…

    • 4160 Words
    • 17 Pages
    Better Essays
  • Good Essays

    Company History of Hp

    • 1916 Words
    • 8 Pages

    Bill 's study of negative feedback results in HP 's first product the resistance-capacitance audio oscillator (HP 200A), an electronic instrument used to test sound equipment.…

    • 1916 Words
    • 8 Pages
    Good Essays
  • Good Essays

    Integrating Adc

    • 806 Words
    • 4 Pages

    The input signal is applied to an integrator; at the same time a counter is started, counting clock pulses. After a pre-determined amount of time (T), a reference voltage having opposite polarity is applied to the integrator. At that instant, the accumulated charge on the integrating capacitor is proportional to the average value of the input over the interval T. The integral of the reference is an opposite-going ramp having a slope of VREF/RC. At the same time, the counter is again counting from zero. When the integrator output reaches zero, the count is stopped, and the analog circuitry is reset. Since the charge gained is proportional to VIN × T, and the equal amount of charge lost is proportional to VREF × tx, then the number of counts relative to the full scale count is proportional to tx/T, or VIN/VREF. If the output of the counter is a binary number, it will therefore be a binary representation of the input voltage.…

    • 806 Words
    • 4 Pages
    Good Essays
  • Satisfactory Essays

    In this problem, we will do this problem using the discriminator developed in problems 4.26, and 4.28 to construct the Matlab simulation system.…

    • 836 Words
    • 4 Pages
    Satisfactory Essays
  • Powerful Essays

    FILTERS

    • 16841 Words
    • 68 Pages

    Links: ANALOG FILTERS Up to Book Cover Filter Wizard App Data Converters Page CHAPTER 8 ANALOG FILTERS SECTION 8.1: INTRODUCTION SECTION 8.2: THE TRANSFER FUNCTION THE S-PLANE FO and Q HIGH-PASS FILTER BAND-PASS FILTER BAND-REJECT (NOTCH) FILTER ALL-PASS FILTER PHASE RESPONSE THE EFFECT OF NONLINEAR PHASE SECTION 8.3: TIME DOMAIN RESPONSE IMPULSE RESPONSE STEP RESPONSE SECTION 8.4: STANDARD RESPONSES BUTTERWORTH CHEBYSHEV BESSEL LINEAR PHASE with EQUIRIPPLE ERROR TRANSITIONAL FILTERS COMPARISON OF ALL-POLE RESPONSES ELLIPTICAL MAXIMALLY FLAT DELAY with CHEBYSHEV STOP BAND INVERSE CHEBYSHEV USING THE PROTOTYPE RESPONSE CURVES RESPONSE CURVES BUTTERWORTH RESPONSE 0.01 dB CHEBYSHEV RESPONSE 0.1 dB CHEBYSHEV RESPONSE 0.25 dB CHEBYSHEV RESPONSE 0.5 dB CHEBYSHEV RESPONSE 1 dB CHEBYSHEV RESPONSE BESSEL RESPONSE LINEAR PHASE with EQUIRIPPLE ERROR of 0.05° RESPONSE LINEAR PHASE with EQUIRIPPLE ERROR of 0.5° RESPONSE GAUSSIAN TO 12 dB RESPONSE GAUSSIAN TO 6 dB RESPONSE 8.1 8.5 8.5 8.7 8.8 8.9 8.10 8.12 8.14 8.16 8.19 8.19 8.20 8.21 8.21 8.21 8.23 8.24 8.24 8.25 8.26 8.27 8.27 8.29 8.31 8.32 8.33 8.34 8.35 8.36 8.27 8.38 8.39 8.40 8.41 BASIC LINEAR DESIGN SECTION 8.4: STANDARD RESPONSES (cont.)…

    • 16841 Words
    • 68 Pages
    Powerful Essays
  • Satisfactory Essays

    hilbert transform

    • 326 Words
    • 4 Pages

    is the Hilbert transform of the input. Referring to Figure 2.46 (a), x(t) is the input to the…

    • 326 Words
    • 4 Pages
    Satisfactory Essays
  • Good Essays

    16. What kinds of analytical tests might be used to determine the inputs and outputs mentioned in the previous…

    • 1582 Words
    • 7 Pages
    Good Essays

Related Topics