Loading...

Messages

Proposals

Stuck in your homework and missing deadline? Get urgent help in $10/Page with 24 hours deadline

Get Urgent Writing Help In Your Essays, Assignments, Homeworks, Dissertation, Thesis Or Coursework & Achieve A+ Grades.

Privacy Guaranteed - 100% Plagiarism Free Writing - Free Turnitin Report - Professional And Experienced Writers - 24/7 Online Support

Series parallel circuit lab report conclusion

25/11/2021 Client: muhammad11 Deadline: 2 Day

EET 202

LAB EXPERIMENT INSTRUCTIONS

AC circuit analysis II

Lab # 3

RL Series and Parallel Circuits

Experiment #1: Series RL Circuits

Objectives:

After p11erforming this experiment you will be able to:

1. Compute the inductive reactance of an inductor from voltage measurement in a series RL circuit

2. Draw the impedance and voltage phasor diagram for series RL circuit.

3. Measure the phase angle in a series circuit using either of the two methods.

Materials Needed:

Resistor: 10 KΩ - 1 Piece.

Inductor: 100 mH – 1 Piece.

Summary of Theory:

When a sine wave drives a linear series circuit, the phase relationship between the current and the voltage are determined by the components in the circuit. The current and voltage are always in phase across resistors. With capacitors, the current is always leading the voltage by 90o, but for inductors, the voltage always leads the current by 90o.

Figure 3-1-1(a) illustrates a series RL circuit. The graphical representation of the phasors for this circuit is shown in Figure 3-1-1(b) and (c) respectively. As in the series RC circuit, the total impedance is obtained by adding the resistance and inductive reactance using the algebra for complex numbers. In this example, the current is 1.0 mA, and the total impedance is 5 KΩ. The current is the same in all components of a series circuit, so the current is drawn as a reference in the direction of the x-axis. If the current is multiplied by the impedance phasors, the voltage phasors are obtained and shown in Figure 3-1-(c).

image25.png

Figure 3-1-1 (a)

Procedure:

In this experiment, you learn how to make measurement of the phases angle. Actual inductors may have enough resistance to affect the phase angle in the circuit. You will use a series resistor that is large compared to the inductor’s resistance to avoid this error.

1. Measure the actual resistance of a 10 KΩ resistor and the inductance of a 100 mH inductor. If the inductor cannot be measured, record the listed value. Record the measured values in Table 3-1-1.

2. Connect the circuit shown in Fig 3-1-2. Set the generator voltage with the circuit connected to 3.0 VPP at a frequency of 25 KHz. The generator should have no dc offset. Measure the generator voltage and frequency with oscilloscope as many meters cannot respond to 25 KHz frequency. Use peak-to-peak readings for all the voltage and current measurements in this experiment.

image1.png

Figure 3-1-1 (b)

image24.png

Figure 3-1-1 (c)

Component

Listed Value

Measured Value

L1

100 mH

R1

10 KΩ

Table 3-1-1

image2.png

Figure 3-1-2

3. Using a two-channel oscilloscope, measure the peak-to-peak voltage across the resistor (VR) and the peak-to-peak voltage across the inductor (VL)

(see Fig. 3-1-3). Measure the voltage across the inductor using the difference technique described in experiment #2 of the Lab # 1. Record the voltage reading in Table 3-1-2.

VR

VL

I

XL

ZT

Table 3-1-2

4. Compute the peak-to-peak current in the circuit by applying Ohm’s Law to the resistor. That is

image3.wmf
R

V

I

R

=

Enter the computed current in Table 3-1-2.

5. Compute the inductive reactance, XL by applying Ohm’s Law to the inductor. The reactance is

image4.wmf
L

L

V

X

I

=

Enter Computed reactance in Table 3-1-2.
6. Calculate the total impedance (ZT) by applying Ohm’s Law to the entire circuit. Use the generator voltage set in step 2 (VS) and the current determined in step 4. Enter the computed impedance in Table 3-1-2.

7. Using the values listed in Table 3-1-1 and 3-1-2 draw the impedance phasors on the Plot 3-1-1(a) and the voltage phasors on the Plot 3-1-1(b) for the circuit at a frequency of 25 KHz.

image5.png

Plot 3-1-1

8. Compute the phase angle between VR and VS using trigonometric relation.

image6.wmf
1

L

R

V

Tan

V

q

-

æö

=

ç÷

èø

Enter the computed phase angle in Table 3-1-3.
9. Two methods for measuring phase angle will be used. The first method can be used with any oscilloscope. The second can only be used with oscilloscopes that have a “fine” or variable SEC/DIV control. Measure the phase angle between VR and VS using one or both methods. The measured phase angle will be recorded in Table 3-1-3.

Phase Angle Measurement: Method #1:

a) Connect the oscilloscope so that the channel 1 is across the generator and channel 2 is across the resistor. [See Fig 3-1-3]. Obtain a stable display showing between one and two cycles while viewing channel 1 (VS). The scope should be triggered from channel 1.

b) Measure the period T of the signal from the generator. Record it in Table 3-1-3. You will use this time, T, in step (e).

image7.png

Figure 3-1-3

c) Set the oscilloscope to view both channels. Do not have channel 2 inverted. Adjust the amplitude of the signals using the VOLTS/DIV, VERT POSITION, and vernier controls until both channels appear to have the same amplitude as seen on the scope face.

d) Spread the signal horizontally using the SEC/DIV control until both signals are just visible across the screen. The SEC/DIV control must remain calibrated. Measure the time between the two signals,

image8.wmf
t

D

, by counting the number of divisions along a horizontal graticule of the oscilloscope and multiplying the SEC/DIV setting. (See Fig. 3-1-4). Record the measured
image9.wmf
t

D

in Table 3-1-3.
e) The phase angle may now be computed from the equation.

image10.wmf
360

t

T

q

D

æö

=´°

ç÷

èø

Enter the measured phase angle in Table 3-1-3 under the phase angle – method 1.

Computed Phase Angle

image11.wmf
q

Measured Period

image12.wmf
T

Time Difference

image13.wmf
t

D

Phase Angle

Method 1

image14.wmf
q

Method 2

image15.wmf
q

Table 3-1-3

image16.png

Figure 3-1-4

Phase Angle Measurement – Method #2:

a) In this method the oscilloscope face will represent degrees, and the phase angle can be measured directly. The probes are connected as before. View channel 1 and obtain a stable display. Then adjust the SEC/DIV control and its vernier until you have exactly one cycle across the scope face. This is equivalent to 360o in 10 divisions, so each division is worth 36o.

b) Now switch the scope to view both channels. As before, adjust the amplitude of the signals using the VOLTS/DIV, VERT POSITION and vernier control until both channels appear to have the same amplitude.

c) Measure the number of divisions between the signals and multiply by 36o per division. Record the measured phase angle in Table 3-1-3 under phase angle-method 2.

Experiment #2: Parallel RL circuits:

Objectives:

After performing this experiment, you will be able to:

1. Determine the current phasor diagram for a parallel RL circuit.

2. Measure the phase angle between the current voltage for a parallel RL circuit.

3. Explain how an actual circuit differs from the ideal model of a circuit.

Materials Needed:

Resistors: 3.3 KΩ - 1 Piece, 47Ω - 2 Pieces.

Inductor: 100 mH – 1 Piece.

Summary of Theory:

In a parallel RL circuit, the current phasors will be drawn with reference to the voltage phasor. The direction of the current phasor in a resistor is always in direction of the voltage. Since current lags the voltage in an inductor, the current phasor is drawn at an angle of – 90o from the voltage reference. A parallel RL circuit and the associated phasors are shown in Figure 3-2-1.

image17.jpg

Figure 3-2-1

The practical inductors contain resistance that frequently is large enough to affect the purely reactive inductor phasor drawn in Figure 3-2-1. The resistance of an inductor can be thought of as a resistor in series with a pure inductor. The effect on the phasor diagram is to reduce an angle between IL and IR. In a practical circuit, this angle will be slightly less than the -90o shown in the Figure 3-2-1. This experiment illustrates the difference between the approximations of circuit performance based on ideal components and the actual measured values.

Recalling the previous experiment – RL series circuit, the phase angle between the source voltage, VS, and the resistor voltage, VR in a series circuit were measured. The oscilloscope is a voltage-sensitive device, so comparing these voltages is straightforward. In parallel circuits, the phase angle of interest is usually between the total current, IT, and one of the branch currents. To use the oscilloscope to measure the phase angle in a parallel circuit, we must convert the current to a voltage. This was done by inserting a small resistor in the branch where the current is to be measured. The resistor must be small enough not to have a major effect on the circuit.

Procedure:

1. Measure the actual resistance of a resistor with a color-code value of 3.3 KΩ and resistance of two current-sensing resistors of 47Ω each. Measure the inductance of a 100 mH inductor. Use the listed value if you cannot measure the inductor. Record the measured values in Table 3-2-1.

2. Measure the winding resistance of the inductor, RW , with an ohmmeter. Record the resistance in Table 3-2-1.

3. Construct the circuit shown in Figure 3-2-2. Notice that the reference ground connection is at the low side of the generator. This connection will enable you to use a generator that does not have a “floating” common connection. Using your oscilloscope, set the generator to a voltage of 6.0 VPP at 5 KHZ. Check both the voltage and frequency with your oscilloscope. Record all voltages and currents in this experiment as peak-to-peak values.

image18.png

Table 3-2-1

image19.png

Figure 3-2-2

4. Using the oscilloscope, measure the peak-to-peak voltages across R1, RS1 and RS2. Use the two channel difference method (described in Lab#1) to measure the voltage across the two ungrounded resistors. Apply Ohm’s Law to Compute the Current in each branch. Record the measured voltage drops and the computed currents in Table 3-2-1. Since L1 is in series with RS2, enter the same current for both.

5. Using the computed peak-to-peak currents from Table 3-2-1, draw the current phasors for the circuit on the Plot 3-2-1. [Ignore the effects of the sense resistors].

image20.png

Plot 3-2-1.

image21.wmf
1

L

R

I

Tan

I

q

-

æö

ç÷

ç÷

èø

=

Phase Angle

Between

Computed

Measured

IT and IR

IR and IL

90o

IT and IL

Table 3-2-2

6. The phasor diagram illustrates the relationship between the total current and the current in each branch. Using the measured currents, compute the phase angle between the total current (IT) and the current in R1 (IR). Then compute the phase angle between the total current (IT) and the current in L1 (IL). Enter the computed phase angles in Table 3-2-2 (Note that the computed angles should add up to 90o, the angle between IR and IL.

7. In this step, you will measure the phase angle between the generator voltage and current. This angle is approximately equal to the angle between IT and IR as show in Figure 3-2-1. (Why?). Connect the oscilloscope probes as shown in Figure 3-2-3. Measure the phase angle using one of the methods in the previous experiment. The signal amplitudes in each channel are quite different, so the vertical sensitivity controls should be adjusted to make each signal appear to have the same amplitude on the scope. Record the measured angle between IT and IR in Table 3-2-2.

image22.jpg

Figure 3-2-3

8. Replace RS1 with jumper. This procedure enables you to the reference the low side of R1 and RS2. Measure the angle between IL and IR by connecting the probes as shown in Fig 3-2-4. Ideally this measurement should be 90o, but because of the coil resistance, you will likely find a smaller value. Adjust both channels for the same apparent amplitude on the scope face. Record your measured result in the second line in the Table 3-2-2.

image23.png

Figure 3-2-4

9. By subtracting the angle measured in step 7 from the angle measured step 8, you can find the phase angle between IT and IL. Record this as the measured value on the third line of the Table 3-2-2.

Homework is Completed By:

Writer Writer Name Amount Client Comments & Rating
Instant Homework Helper

ONLINE

Instant Homework Helper

$36

She helped me in last minute in a very reasonable price. She is a lifesaver, I got A+ grade in my homework, I will surely hire her again for my next assignments, Thumbs Up!

Order & Get This Solution Within 3 Hours in $25/Page

Custom Original Solution And Get A+ Grades

  • 100% Plagiarism Free
  • Proper APA/MLA/Harvard Referencing
  • Delivery in 3 Hours After Placing Order
  • Free Turnitin Report
  • Unlimited Revisions
  • Privacy Guaranteed

Order & Get This Solution Within 6 Hours in $20/Page

Custom Original Solution And Get A+ Grades

  • 100% Plagiarism Free
  • Proper APA/MLA/Harvard Referencing
  • Delivery in 6 Hours After Placing Order
  • Free Turnitin Report
  • Unlimited Revisions
  • Privacy Guaranteed

Order & Get This Solution Within 12 Hours in $15/Page

Custom Original Solution And Get A+ Grades

  • 100% Plagiarism Free
  • Proper APA/MLA/Harvard Referencing
  • Delivery in 12 Hours After Placing Order
  • Free Turnitin Report
  • Unlimited Revisions
  • Privacy Guaranteed

6 writers have sent their proposals to do this homework:

Top Class Results
Homework Guru
Calculation Master
Ideas & Innovations
Coursework Assignment Help
Assignment Solver
Writer Writer Name Offer Chat
Top Class Results

ONLINE

Top Class Results

This project is my strength and I can fulfill your requirements properly within your given deadline. I always give plagiarism-free work to my clients at very competitive prices.

$15 Chat With Writer
Homework Guru

ONLINE

Homework Guru

I can assist you in plagiarism free writing as I have already done several related projects of writing. I have a master qualification with 5 years’ experience in; Essay Writing, Case Study Writing, Report Writing.

$16 Chat With Writer
Calculation Master

ONLINE

Calculation Master

I find your project quite stimulating and related to my profession. I can surely contribute you with your project.

$29 Chat With Writer
Ideas & Innovations

ONLINE

Ideas & Innovations

This project is my strength and I can fulfill your requirements properly within your given deadline. I always give plagiarism-free work to my clients at very competitive prices.

$24 Chat With Writer
Coursework Assignment Help

ONLINE

Coursework Assignment Help

As per my knowledge I can assist you in writing a perfect Planning, Marketing Research, Business Pitches, Business Proposals, Business Feasibility Reports and Content within your given deadline and budget.

$39 Chat With Writer
Assignment Solver

ONLINE

Assignment Solver

I have done dissertations, thesis, reports related to these topics, and I cover all the CHAPTERS accordingly and provide proper updates on the project.

$43 Chat With Writer

Let our expert academic writers to help you in achieving a+ grades in your homework, assignment, quiz or exam.

Similar Homework Questions

Responses - Cal thomas is the american dream over - Indian writing in english history - Euro discount rate - Discussion response - Contaminated groundwater cannot cleanse itself why - 2 pages, Management term project, in 3 hours - Mathematics - Atlantic wire and rigging - Contraindications to a facial - Sociology#7 - Valved pulse jet plans - Professional working proficiency meaning - Bbb vvv gg mahal - Developing savory rosti crisps at dreddo dan's - Report Non Metallic Material - Bbc scotland comedy shows - Central battery system emergency lighting wiring - Definition of facial expressions in drama - Determine the equivalent force couple system at point o - Examples of different persons respond differently to the same situation - Louis vuitton outlet usa - Ansos web scheduler prime healthcare - Non inverting amplifier gain - Walmart employee job satisfaction - Ausconsumer choice com au - Pick any number and multiply the number by 2 - 37 cervara avenue stirling - As11 - Inditex case study harvard - +971561686603 Abortion pills in Dubai/Abu Dhabi-mifepristone & misoprostol in DUBAI - A level business coursework - Dnvgl st n001 pdf free download - Www northampton ac uk - Students should not have phones in school - Project management achieving competitive advantage 4th edition pdf free - Akira lash studio columbia sc - Annie sue baulkham hills - Non volatile residue test - Walden nurs 6630 midterm exam - Ds 7732ni i4 16p firmware - Module 08 Case Study - Social psychology 10th edition pdf aronson - Barton, Boin, Buckle, Smith, Stallings, Perry, and Quarantelli - Origins of yin yoga - Assessor feedback to candidate examples - Discussion, APA 6, 2 References, Similarities Less 5% - Class in america gregory mantsios - Print unable 4f brother - Graph y 1 3 2 - Assonance examples in the tell tale heart - Powerpoint Should Consist Of 18 Slides. Rubric Is Attached .PLEASE FALLOW THE RUBRIC - Steps involved in nervous coordination - Cubby investments pt liverpool - Supplementary services hold strategic value for a firm because they: - Titans and gods family tree - In the final drive assembly the pinion gear drives the - How to write an oral presentation vce - Silver nitrate reacts with barium chloride - Good palliative geriatric practice algorithm - Explain 5 moments of hand hygiene - Capacitors physics lab report - Discussion_2nd_role - Ibm data breach calculator - Remington 1100 carrier release - Consumer directed health plan cdhp target audience - Bbc japanese language and people - Neb prestained protein ladder - Adams v lindsell postal rule - The power of optimism alan loy mcginnis pdf - Classification lab answer key - Presented below is an aging schedule for halleran company - Mastering physics introduction to static equilibrium - Seismograph lab answer key - A process with no beginning work in process - Beyond fat city summary - Explain how the discussion of moneyball - Http www codeblocks org downloads - Argoshield light vs universal - Prodiscover basic for mac - Case Study on Real Estate - Module 2 discussion - Case Study related to diabetes - The little eagle handbook with exercises - Hollanders model of personality - Dr scott cunneen wife - Secret agent periodic table answers - Choir of hard knocks clarko - Top efficiency %%+27835179056 %%% SAFE abortion pills for sale NAMIBIA Botswana kwazulu_natal WITBANK SECUNDA PONGOLA - One Paragraph per question - Due Today in 4 hours - Algebra 2 honors curriculum - Lab 6: State InfoSec and Privacy Regulations - Related linked diversification - Eng 122 week 1 content quiz - What does kiana mean in hawaiian - Paper writing - A common operating picture ____________ decision making in a crisis - ETHICS - Chapter 24 differential analysis and product pricing - Civilization