Electronic Instrumentation Experiment 1 * Part A: Circuit Basics, Equipment, Sound Waves * Part B:...
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Transcript of Electronic Instrumentation Experiment 1 * Part A: Circuit Basics, Equipment, Sound Waves * Part B:...
![Page 1: Electronic Instrumentation Experiment 1 * Part A: Circuit Basics, Equipment, Sound Waves * Part B: Resistors, Circuit Analysis, Voltage Dividers * Part.](https://reader036.fdocuments.in/reader036/viewer/2022062515/56649c9c5503460f9495b6de/html5/thumbnails/1.jpg)
Electronic InstrumentationExperiment 1
* Part A: Circuit Basics, Equipment, Sound Waves
* Part B: Resistors, Circuit Analysis, Voltage Dividers
* Part C: Capture/PSpice
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Motivation Modern Systems
• mechanical component• electrical component• (computer component)
You will be able to communicate with EE’s You will be able to take the electronics
sections of the FE exam You will be using Engineering problem
solving skills.
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Automobile Electronics
Previously all mechanical systems have become increasingly electronic
Over the past few years, for example, the automobile has begun to use more computers (microcontrollers)
How many microcontrollers are typically found in a modern automobile?
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Automobile Electronics
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Part A
Circuit Basics Equipment Sound Waves
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Physical Model for a DC circuitpump = voltage source
water = flow of current
ocean = ground
pipe = wire
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Physical Model for Resistancepebbles in pipe = resistance to flow of current
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Symbols
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Physics vs. Electronics
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Ohm’s Law : V = IR
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Alternating Current Generators
http://micro.magnet.fsu.edu/electromag/java/generator/ac.html
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AC Circuits
Note symbol for AC voltage source
Rtitv )()(
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Review of Sinusoids
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More on Phase Shift
Time
0s 0.4ms 0.8ms 1.2ms 1.6ms 2.0msV(V1:+)
-1.0V
0V
1.0V
Negative phase shift: “Lag in phase, lead in time”
Positive phase shift: “Lead in phase, lag in time”
Time
0s 0.4ms 0.8ms 1.2ms 1.6ms 2.0msV(V1:+)
-1.0V
0V
1.0V
radKmKmst 5.0))(2)(08.0()1(208.00
radKmKmst 5.0))(2)(08.0()1(208.00
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Special Cases of Phase Shift
T
tftt 0
00 22
Time
0s 0.5ms 1.0msV(V1:+)
-1.0V
0V
1.0V
Time
0s 0.5ms 1.0msV(V1:+)
-1.0V
0V
1.0V
Time
0s 0.5ms 1.0msV(V1:+)
-1.0V
0V
1.0V
Time
0s 0.5ms 1.0msV(V1:+)
-1.0V
0V
1.0V
rad0 rad
rad2 rad2
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General form of the Sinusoid
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Sinusoid Units
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DC Source E3631A –Only for section 2
TOGGLE OUTPUT ON/OFF
ADJUST VOLTAGE LEVEL
0 to 6 VOLTS GROUND GROUND
0 to 25 VOLTS
-25 to 0 VOLTS
Do Not Use
Note: The connection that looks like the ground symbol is the ground for the building, not the return path for the circuit.
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DC Source for JEC-4201
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Function Generator 33120A – Only available in JEC 4107
Note: The SYNC connection will give you a signal, but it will not be the one you have set the function generator to display. Do not accidentally plug into it.
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Function Generator
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Digital Multimeter 34401A – We will have some hand held meters in section 1 for resistance measurements
Note: Always use the voltage plugs on the right as indicated.
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Digital Multimeter
The IOBoard can read voltages but it isn’t an Ohmmeter, We will use hand held meters for resistance measurements
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Oscilloscope 54600B – you guessed it – JEC 4107
Note: Black lead of scope channel is ALWAYS ground
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Protoboards
Note: Banana connectors are not connected internally to the holes in the board.Check continuity of power rails at top and bottom.
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Reading Resistors
http://www.dannyg.com/javascript/res/resload.htm
Bands: XYZT Resistance = %10 TXY Z
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How Ears Work
http://members.aol.com/tonyjeffs/text/dia.htm
Pitch = frequency Amplitude = loudnessSome pitches sound louder to your ears.
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Part A – Do the lab now Use your kit if you purchased one, purchase one if you
haven’t Some of Part A can be done without the kit, just with
the IOBoard If you don’t have a kit
• Make sure that you have the software loaded and that the IOBoard is working
• We have some spare protoboards and speakers• There will be time during the next 2 classes to catch up
Next class we start Part B of Experiment 1 Any questions?
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Part B Resistors Voltage Dividers Impedance Capacitors and Inductors Equipment Impedances Circuit Analysis Agilent Intuilink Software
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Combining Resistors in Series
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Combining Resistors in Parallel
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Measuring Voltage
Voltage across resistors:CBRBAR VVVVVV 21
Total Voltage: 211 RR VVV
Voltage at points wrt GND: 01 2 CRBA VVVVV
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Voltage Dividers
The voltage is divided up in a manner that is proportional to the resistances of the resistors in a series circuit.
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More on Voltage Dividers V
KKK
KKV 5
131
134
Always add up resistors relative to ground to get the voltage at a point.
You cannot use a voltage divider on a non-series circuit.
VKK
KV 5
81
84
You can use a voltage divider on a series portion of a circuit.
VKK
KV 4
44
42
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Impedance vs. Resistance Resistance is a property of a material that causes a
reduction in the rate of flow of electrons. Impedance is the reduction in the rate of flow of
electrons caused by the material (resistance) AND other the properties of the component involved (reactance).
Resistors have no reactance. So the impedance of a resistor is equal to its resistance only.
Reactance varies with the frequency of the input. Resistance remains the same at all frequencies.
Both impedance and resistance are measured in ohms.
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Impedance Definition: A general measure of how a component
or group of components pushes against the current flowing through it.
Impedance = resistance + reactance Impedance is used to refer to the behavior of
circuits with resistors, capacitors and other components.
When we consider components in a theoretical circuit diagram, the impedance of inductors and capacitors is their reactance only. Any resistance is modeled separately as a resistor. So theoretical capacitors and inductors have impedance, but no resistance.
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Comparison of Components
IRV
21 RRRT
12
11
1 RRRT
R
R
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CapacitorsCapacitors consist of two plates with a dielectric material in-between. When a potential difference is placed across the plates, a charge builds up until it is large enough to cause a discharge across the plates through the material.
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Reading Capacitors
Larger capacitors have the number of microfarads written on them directly. Smaller capacitors use a code based on the number of picofarads. We generally use microfarads, so…
XYZ = XY * 10Z * 10-6 F
- towards ground
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Capacitors in Series
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Capacitors in Parallel
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Understanding Capacitor Behavior
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Capacitor Impedance
Note: Real capacitors have effectively no resistance, so impedance is reactance for all capacitors.
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Comparison of Components
RIV RR
21 RRRT
12
11
1 RRRT
R
R
C
dt
dVCI C
C
12
11
1 CCCT
21 CCCT
circuitshort
circuitopen
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Inductors
An inductor is a coil of wire through which a current is passed. The current can be either AC or DC.
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Inductors
This generates a magnetic field, which induces a voltage proportional to the rate of change of the current.
dt
dILV L
L
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Combining Inductors
Inductances add like resistances Series
Parallel
L L L L N 1 2 . . .
1 1 1 1
1 2L L L L N
. . .
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Inductor Impedance
Note: Real inductors always have a small resistance (that is not shown in these circuits). The impedance of the theoretical inductor shown is only its reactance.
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Comparison of Components
RIV RR
21 RRRT
12
11
1 RRRT
R
R
C
dt
dVCI C
C
12
11
1 CCCT
21 CCCT
circuitshort
circuitopen
dt
dILV L
L
L
21 LLLT
12
11
1 LLLT
circuitshort
circuitopen
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Equipment Impedances Each measuring device changes the circuit
when you use it. The impedance of the device helps you
understand how much. Device Impedances
• Function Generator: 50 ohms• ‘Scope: 1Meg ohms• DMM (DC voltage): 10Meg ohms• DMM (AC voltage): 1Meg ohms• DMM (DC current): 5 ohms (negligible)
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Effect of Impedance on Circuit
Function generator thinks it is putting out the same thing. Output is clearly different.
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Effect of Impedance on Circuit
The IOBoard function generator has an output impedance of much less than 50Ω, so we can ignore it. Our battery however is a different story, as you will see in the experiment.
2
5050
50
inout
inout
VV
VV
inout
inout
VV
VV
50101
1016
6
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sum of voltages in any loop is zero
sum of currents entering a junction is the same as the sum of the currents leaving a junction
Kirchoff’s Laws
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Circuit Analysis (Combination Method)
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Useful Aside: SI Suffixes
mk
km
MM
nG
Gn
11
11
11
pico p 10-12
nano n 10-9
micro (u) 10-6
milli m 10-3
Kilo k 103
Mega M (Meg) 106
Giga G 109
Tera T 1012
mkk
ex 1.01
10
1
10
1.
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Part C
Capture• Create circuits visually• Set up simulation parameters
PSpice• Analyzes circuit• Displays results
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Capture
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Simulations 1000
# timetorunsizestep
freq
cyclestimetorun
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PSpice Note: To get copy of trace into word use Window menu ”copy to clipboard”
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Cursors Note: You can drag the left mouse button to move one cursor and the right mouse button to move the other.
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Adding TracesNote: To add a trace use Trace menu ”Add Trace”
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Part D
Oscilloscopes Lissajous Figures
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Cathode Ray Tubes
http://www.chem.uiuc.edu/clcwebsite/video/Cath.avi
x input
y input
Variation in potential difference (voltage) placed on plates causes electron beam to bend different amounts.
“Sweep” refers to refreshing repeatedly at a fixed rate.
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Cathode Ray Tube Animation
http://webclass.cqu.edu.au/Units/81120_FOCT_Hardware/Study_Material/Study_Guide/chap2/toc.html
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Oscilloscopes
http://boson.physics.sc.edu/~hoskins/Demos/CathodeRay.html
Horizontal sweeps at a constant rate. Vertical plates are attached to an external voltage, the signal you attach to the scope.
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Lissajous Figures
http://encyclozine.com/Science/Mathematics/Graphs/Lissajous/
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Lissajous Figures
Normally the scope will plot a voltage signal with respect to time. In a Lissajous figure, two voltage signals are plotted against each other.
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Lissajous Example 1
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Lissajous Example 2
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Lissajous Example 3
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More Figures