Electronics II class can you do it?

edited by Mohammed Al-Gailani, Spring 2017 1

Safety and Equipment Familiarization Laboratory

ECE 3200 Electronics II

updated 16 January 2017

1. To learn how to work safely in the laboratory.

2. To learn the operation and limitations of various pieces of laboratory equipment.

3. Measure the output impedance of electronic circuit.

4. Measure capacitance experimentally using oscilloscope and function generator.

1. Identify the digital multimeter (DMM), the oscilloscope, and the function generator. Turn

them “on”. CAUTION! The built-in power supply contains terminals at dangerous

voltages. As always, do not allow yourself or your equipment, leads, etc. to come into

contact with any of these terminals.

2. Setup the oscilloscope to simultaneously display two signals v1(t) and v2(t) against time

where v1(t) is the oscilloscope compensation signal available from your oscilloscope (a

1kHz 0-5V 50% duty cycle square wave) and v2(t) = 2V + 2Vsin(2π1000t).

Use the DMM to set both the DC and AC components of v2(t). Verify that you did this

correctly by checking the waveform on the oscilloscope. Remember that the DMM in

“AC” mode measures the root-mean-square (RMS) component of the time-varying

portion of the waveform.

Set both input amplifiers in the “DC” coupling mode. Set the “TRIGGER” coupling to

“DC” and trigger mode to “AUTO”.

Display v1(t) on channel 1 and v2(t) on channel 2. Set the trigger controls to “trigger” the

scope trace when v2(t) = 3V and dv2/dt < 0 (falling edge). Use the “CURSOR” menu to

Objectives

Procedures

© 2012 Damon A. Miller

edited by Mohammed Al-Gailani, Spring 2017 2

setup cursors to measure the frequency of v1(t) and v2(t). You may set the trigger

coupling to channel 1 in order to stabilize the waveform on this channel.

Can stationary displays of both v1(t) and v2(t) be obtained by using the trigger controls?

Why or why not? Try “SET LEVEL TO 50%” or “FORCE TRIGGER”. Can you obtain a

stationary display of both v1(t) and v2(t) by adjusting the frequency of v2(t)? Explain.

3. Place the scope in channel 1 only mode and display about 5 cycles of v1(t) on the scope

screen. Exercise the “Single” button along with the “RUN/STOP” control. Describe the

results.

4. Place the scope in CH 2 only mode and re-establish the trigger conditions of procedure 2.

Readjust v2(t) to 2𝑉 + 2𝑉𝑠𝑖𝑛(2𝜋1000𝑡).

 Set the coupling for CH 2 to “AC” and describe the resulting change in the

DISPLAYED signal. What is the reason for this change?

Could you use the DMM to help answer these questions?

What effect does AC coupling have at “high” frequencies; at “low” frequencies?

When is it appropriate to use the following triggering modes?

i. AUTO

ii. NORM

5. Using the oscilloscope, the DMM, and several fixed resistors (perhaps a resistor decade

box):

a. experimentally determine the output resistance (Rout) of the function generator

when it is set to give an open circuit output of 2𝑉× 𝑠𝑖𝑛(62805 𝑡); and

b. examine the effect of frequency on Rout.

Does the DMM have sufficient bandwidth to be used in this examination? Does the

oscilloscope?

© 2012 Damon A. Miller

edited by Mohammed Al-Gailani, Spring 2017 3

6. Implement a circuit as shown in figure bellow. The values of R1 and C1 will be given to

you. Make use of the capacitor response to a step input to determine the capacitor value

experimentally using the capacitor output, 𝑉𝑜 = 𝑉𝑐(𝑡) = 𝑉𝑖[1 − 𝑒−𝑡/𝑅𝐶].

The square wave input simulates a step input to the circuit. How can we use the output

equation to measure the capacitor value?

EXERCISES (2 points bonus)

1. In two hundred words or more, describe and discuss the concept of oscilloscope

“triggering” and how it is implemented in modern oscilloscopes (i.e. how the

oscilloscope WORKS internally, and not simply how to use the scope). Develop your

description around a block diagram of the oscilloscope. Include “typical” internal

oscilloscope signal waveforms. Work a description of the function of the oscilloscope

“trigger” controls into your discussion. The use of one or more references, either those

Capacitor

Output

Square wave from the FG.

© 2012 Damon A. Miller

edited by Mohammed Al-Gailani, Spring 2017 4

cited above or some found on your own, should be useful here. Be sure to properly cite

sources of your information, figures, etc. Do not plagiarize!

2. Using precise engineering terminology and possibly with the aid of schematic diagrams

and charts, describe, discuss, and explain the effect that the vertical amplifier

COUPLING has on the performance of the oscilloscope. When is it appropriate to use

×AC coupling, DC coupling, and GND? Under what conditions might AC coupling

introduce errors into a measurement? Under what conditions might DC coupling

introduce errors into a measurement?

3.

a. Contrast and compare the AUTO with the NORM triggering mode.

b. Give a rule for selecting a triggering mode when the frequency of the triggering

signal is “low” and at the same time explain what is meant by “low” / ”high”

frequency in this case, i.e. quantify “low” and “high”.

4.

a. Define, discuss, and explain the differences between precision, accuracy,

resolution, sensitivity, and range as they pertain to measurements or measuring

instruments. Consult reference 2 or another suitable source.

b. Give numerical examples of each, i.e. for each one give a hypothetical set of data

and/or measurements taken by (or given for) a hypothetical instrument and show

what analysis/interpretation must be done on the data/measurements to obtain the

particular parameter. Then, give the resulting numerical value for that parameter.

5. Show that R (ohms) × C (Farad) has the units of time (second); RC=s.

Credits, Copyright, and Use

Refer to front matter available at http://homepages.wmich.edu/~miller/ECE3200.html

for material credits, further copyright information, and use guidelines.

© 2012 Damon A. Miller

edited by Mohammed Al-Gailani, Spring 2017 5

[1] Safety and Equipment Familiarization Laboratory from Dr. Millar Homage.

http://homepages.wmich.edu/~miller/ECE3200/SafetyAndEquipmentFamiliarizationLab

oratory.pdf

[2] Student Reference Manual for Electronic Instrumentation Laboratories, S. Wolf and R. F. M.

Smith, Pearson Prentice Hall, 1990 (1st ed.) or 2004 (2nd ed.).

[3] Ogata, K. (1997). Modern control engineering. Upper Saddle River, NJ: Prentice-Hall.

References

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