18EE-302C: Electrical Circuits Syllabus for Electrical & Electronics Engineering 3rd Sem C18 Curriculum TSSBTET

Electrical Circuits detailed Syllabus for Electrical & Electronics Engineering (DEEE), C18 curriculum has been taken from the TSSBTET official website and presented for the diploma students. For Course Code, Course Name, Lectures, Tutorial, Practical/Drawing, Internal Marks, Max Marks, Total Marks, Min Marks and other information, do visit full semester subjects post given below.

For all other Diploma in Electrical & Electronics Engineering (DEEE) Syllabus for 3rd Sem C18 Curriculum TSSBTET, do visit Diploma in Electrical & Electronics Engineering (DEEE) Syllabus for 3rd Sem C18 Curriculum TSSBTET Subjects. The detailed Syllabus for electrical circuits is as follows.

Prerequisites:

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Course Outcome:

At the end of the course, the student will have the ability to:

1. Apply Kirchhoffs laws and star delta transformations to complex circuits
2. Apply network theorems to solve DC circuits
3. Familiarize the fundamentals of alternating quantities
4. Solve problems on single phase A.C. series circuits
5. Solve problems on single phase A.C. parallel circuits
6. Solve problems on poly phase balanced circuits

Unit 1 – Kirchhoffs Laws and Star – Delta Transformation

Active and Passive circuits – Junction, branch and loop in circuits -Insufficiency of Ohms law to solve complex circuits, Kirchhoff s laws – Mesh analysis – Nodal analysis – Star – Delta configurations, star-delta transformations.

Unit 2- Network Theorems

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Unit 3 – Fundamentals of A.C

Definition of Alternating quantity, cycle, time period, frequency, amplitude, instantaneous value and angular velocity – Average value – effective value/R.M.S value – form factor – peak factor – definitions and derivations – calculations of these values for sine wave, half wave rectified sine wave, full wave rectified sine wave, triangular and square wave forms – Representation of alternating quantities by equation, graphs and phasor diagrams – Phase and phase difference-Understanding of j notation for alternating quantities transformation from polar to rectangular notations and vice-versa.

Unit 4 – Single Phase A.C. Series Circuits

Resistance, inductance and capacitance as circuit elements – concept of reactance, Derive the expression forvoltage, current, impedance, power including waveforms and phasor diagrams in pure resistive, inductive and capacitive circuits – Derive the impedance, current, phase angle, power and power factor in R-L, R-C, L-C &R-L-C series circuits including phasor diagrams. Impedance triangle, phase angle, power factor, active and reactive components of power in above circuits – Definition of Resonance in series circuits and expression for resonant frequency-Q-factor-Importance of Q- factor- Problems on series circuits and series resonance.

Unit 5 – Single Phase A.C. Parallel Circuits

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Unit 6 – Poly Phase Circuits

Definition of Poly phase – Generation of 2 phase and 3 phase EMFs – Representation of 2 phase and 3 phase EMFs by equations, waveforms and phasors – phase sequence – Current in neutral in 2 phase and 3 phase system – phasor diagram showing relation between phase and line quantities, Relation between phase and Line values of voltages and currents – 3 phase power equation – Problems on 3 phase balanced circuits -Advantages of poly-phase systems over single-phase systems.

Recommended Books

1. Electrical Technology – Vol – I by B.L. Theraja- S.Chand &co.
2. Introduction to Electrical Engg. by V.K.Mehta
3. Electrical Technology by Hughes.
4. Problems in Electrical Engg. by Parker Smith
5. Engineering Circuit analysis by William Hayt and Jack E,kemmerly-TMH
6. Electrical Circuits by A.Chakraborthy- Dhanapat Rai and Sons
7. Network and Systems by D. Roy Chowdary- New age international publishers
8. Electric Circuit Theory by K. Rajeshwaran-Pearson educations,2004
9. Network Analysis by Van Valkenburg, PHI.
10. Electrical Circuits by Joseph Edminister- Schaum series
11. Fundamentals of Electric circuits – Alexander Sadiku- TMH
12. Electric circuits by Mahmood Nahvi, Joseph A Edminister-TMH.

Suggested E-learning references

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
.

Course Outcome:

After completion of the subject, the student shall be able to

Unit 1:

• Differentiate between active and passive circuits.
• Define junction in circuits
• Define loop in circuits
• Define branch in circuits
• State the limitations of Ohms law.
• State Kirchhoffs current law
• State Kirchoffs voltage law.
• Solve problems by applying KVL and KCL
• Explain mesh analysis
• Explain nodal analysis
• Solve simple problems on mesh analysis and nodal analysis
• Explain star and delta circuits
• Explain the concept of circuit transformation and equivalent circuits
• Develop transformation formulae for star- delta transformations
• Solve problems on star delta transformation

Unit 2:

• Define ideal voltage source
• Define ideal current source
• Explain source transformation technique
• Solve simple problems on source transformation
• State Superposition theorem.
• State Thevenins theorem.
• State Nortons theorem
• State maximum power transfer theorem.

(All the theorems with reference to D.C only)

• Derive the condition for maximum power transfer
• Solve simple problems on network theorems

Unit 3:

• Define alternating quantity
• Define cycle of an alternating quantity
• Define frequency of an alternating quantity
• Define time period of an alternating quantity
• Define amplitude of an alternating quantity
• Define angular velocity of an alternating quantity
• Define the instantaneous value of an alternating quantity
• Define maximum value of an alternating quantity
• Define average value of an alternating quantity
• Define R.M.S value of an alternating quantity
• Define form factor of an alternating quantity
• Define peak factor of an alternating quantity
• Calculate the maximum value, average value, R.M.S value, form factor and peak factor of sine wave
• Calculate the maximum value, average value, R.M.S value, form factor and peak factor of half wave rectified sine wave
• Calculate the maximum value, average value, R.M.S value, form factor and peak factor of full wave rectified sine wave
• Calculate the maximum value, average value, R.M.S value, form factor and peak factor of triangular wave
• Calculate the maximum value, average value, R.M.S value, form factor and peak factor of square wave
• Define the terms phase and phase difference (No problems).
• Define j operator.
• Convert polar quantities to rectangular quantities and vice-versa.

Unit :

• Define the terms resistance, inductance and capacitance
• Define reactance
• Define active power, reactive power and apparent power
• Mention the units of active power, reactive power and apparent power
• Draw current, voltage waveforms, phasor diagram of pure resistive circuit
• Derive the expression for voltage, current, impedance, power in pure resistive circuit
• Draw current, voltage waveforms, phasor diagram of pure inductive circuit
• Derive the expression for voltage, current, impedance, power in pure inductive circuit
• Draw current, voltage waveforms, phasor diagram of pure capacitive circuit
• Derive the expression for voltage, current, impedance, power in pure capacitive circuit
• Draw current, voltage waveforms, phasor diagram, power triangle, impedance triangle of R-L series circuit
• Derive the expression for voltage, current, impedance, power and power factor in R-L series circuit
• Draw current, voltage waveforms, phasor diagram, power triangle, impedance triangle of R-C series circuit
• Derive the expression for voltage, current, impedance, power and power factor in R-C series circuit
• Draw current, voltage waveforms, phasor diagram, power triangle, impedance triangle of L-C series circuit
• Derive the expression for voltage, current, impedance, power and power factor in L-C series circuit
• Draw current, voltage waveforms, phasor diagram, power triangle, impedance triangle of R-L-C series circuit
• Derive the expression for voltage, current, impedance, power and power factor in R-L-C series circuit
• Compute apparent power, active power and reactive of series circuits
• Solve simple problems on R-L, R-C, L-C, R-L-C series circuits
• Define resonance in series circuits
• State the condition for resonance in series circuit
• Derive resonant frequency of single phase series RLC circuit.
• Solve simple problems on series resonance
• Define Q- factor of single phase series RLC circuit
• State the importance of Q-factor.
• Derive the expression for Q-factor of single phase series RLC circuit
• Solve simple problems on Q-factor

Unit 5:

• Draw current, voltage waveforms, phasor diagram, power triangle, impedance triangle of R-L parallel circuit
• Derive the expression for voltage, current, impedance, power and power factor in R-L parallel circuit
• Draw current, voltage waveforms, phasor diagram, power triangle, impedance triangle of R-C parallel circuit
• Derive the expression for voltage, current, impedance, power and power factor in R-C parallel circuit
• Draw current, voltage waveforms, phasor diagram, power triangle, impedance triangle of L-C parallel circuit
• Derive the expression for voltage, current, impedance, power and power factor in L-C parallel circuit
• Draw current, voltage waveforms, phasor diagram, power triangle, impedance triangle of R-L-C parallel circuit
• Derive the expression for voltage, current, impedance, power and power factor in R-L-C parallel circuit
• Compute apparent power, active power and reactive of parallel circuits
• Solve simple problems on R-L, R-C, L-C, R-L-C parallel circuits
• Solve simple problems on parallel circuits by vector method
• Solve simple problems on parallel circuits by j- notation method
• Define resonance in parallel circuits
• State the condition for resonance in parallel circuit
• Derive resonant frequency of single phase parallel RLC circuit.
• Solve simple problems on parallel resonance
• Define Q- factor of single phase parallel RLC circuit
• Derive the expression for Q-factor of single phase parallel RLC circuit
• Solve simple problems on Q-factor

Unit 6:

• Define the term Poly Phase.
• Explain the method of generation of 2 phase emfs
• Explain the method of generation of 3 phase emfs.
• Write the expressions for Poly phase emfs
• Represent poly phase emfs by phasor diagram
• Represent poly phase emfs by waveforms
• Define phase sequence
• Compute the current flowing neutral conductor in 2-phase system
• Compute the current flowing neutral conductor in 3-phase system
• Derive the relation between line and phase values of current and voltage in 3 phase star circuit
• Derive the relation between line and phase values of current and voltage in 3 phase delta circuits.
• Derive the equation for power in 3 phase circuit.
• Solve simple problems in three-phase system with balanced loads.
• List the advantages of 3 phase system over single phase system.

Suggested Student Activities

1. Prepare a chart on various electrical circuit theorems and their practical applications.
2. Write a report on practical applications of Single phase AC circuits and Three phase AC circuits with their operating voltages and other electrical parameters.
3. Visit nearby Industry to familiarize with single phase and poly phase circuits
4. Quiz
5. Group discussion
6. Surprise test

For detail Syllabus of all other subjects of Electrical & Electronics Engineering, C18 curriculum do visit Diploma In Electrical & Electronics Engineering 3rd Sem Syllabus for C18 curriculum.

For all Electrical & Electronics Engineering results, visit TSSBTET DEEE all semester results direct links.