Experiment # 4
Wheatstone Bridge experiment
Patrick Conley
Department of Electrical Engineering
Missouri S&T
EE 2101 3C
Patrick Conley & Jessica Murphey
4/4/17
Abstract:
In this lab we had to construct a Wheatstone Bridge circuit and
find the value of the
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EXPERIMENT NUMBER 6
MEASUREMENT OF CAPACITORS
Purpose:
To design and construct a capacitor of a specified value and measure its actual capacitance.
Preliminary:
Calculate the foil length needed to construct a capacitor of the value specified by the in
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EXPERIMENT NUMBER 5
BASIC OSCILLOSCOPE OPERATIONS
The oscilloscope is the most versatile and most important tool in this lab and is
probably the best tool an electrical engineer uses. This outline guides you through the
basic operations of a specific os
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EXPERIMENT NUMBER 3
ANALYSIS OF RESISTIVE NETWORKS
USING PSPICE
Purpose:
To learn to use a circuit simulator package for analysis of networks containing resistances,
independent sources, and dependent sources.
Preliminary:
Read through this experiment a
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EXPERIMENT NUMBER 2
RESISTIVE NETWORKS
The resistors used in this laboratory are carbon composition resistors, consisting of
graphite or some other type of carbon embedded in a filler material. Graphite is a
moderately good conductor, so by varying the
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EXPERIMENT NUMBER 10
TRANSIENT ANALYSIS USING PSPICE
Purpose:
To learn to use a circuit simulator package for plotting the response of a circuit in the time
domain.
Preliminary:
Read through this experiment and all of Appendix D.
Background:
Analyticall
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EXPERIMENT NUMBER 9
INDUCTOR CURRENT-VOLTAGE RELATIONSHIP
Purpose: To demonstrate the relationship between the voltage and current of a inductor.
Theory:
An inductor is a linear circuit element whose voltage and current are related by a
differential equ
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EXPERIMENT NUMBER 8
CAPACITOR CURRENT-VOLTAGE RELATIONSHIP
Purpose: To demonstrate the relationship between the voltage and current of a capacitor.
Theory:
A capacitor is a linear circuit element whose voltage and current are related by a
differential e
EXPERIMENT NUMBER 7
RMS and Average Values
You may need to review the equations for calculating RMS and average values of
a periodic waveform. Prior to performing this lab, determine the ratio between the
RMS value and the peak value for sinusoid, triangl
Designing a 5~11 GHz signal generator based on PLL
Prepared by:
Kumar Pathak
[email protected]
Project Goal
The goal of this project is to design a 5~11 GHz signal generator based on PLL.
System block diagram
General description
The system block diagram is s