18EE-105C: Basic Electrical Engineering Syllabus for Electrical & Electronics Engineering 1st Sem C18 Curriculum TSSBTET

Basic Electrical Engineering 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 1st Sem C18 Curriculum TSSBTET, do visit Diploma in Electrical & Electronics Engineering (DEEE) Syllabus for 1st Sem C18 Curriculum TSSBTET Subjects. The detailed Syllabus for basic electrical engineering is as follows.

Prerequisites:

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Course Objective:

To introduce the students to

1. Concepts of basic electrical engineering
2. Electrical engineering materials, their properties and applications

Course Outcome:

1. Apply the basic principles of electricity
2. Solve the problems on series and parallel resistance circuits
3. Distinguish between work, power, energy, apply heating effects of electric current and solve problems on domestic electricity bill
4. Classify conducting materials, state their properties and give their electrical engineering applications
5. Categorize insulating materials, special purpose materials, state their properties and applications
6. Explain the properties and applications of various magnetic materials

Unit 1 – Basic Principles of Electricity

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Unit 2- Series and Parallel Resistance Circuits

Resistance in series, parallel and series – parallel combinations – voltage division in series circuits, current division in parallel circuits – simple problems.

Unit 3 -Work Power and Energy, Heating Effects of Electric Current

Work, power and energy – conversion of units – efficiency – mechanical equivalent of heat – Joules law -heat produced due to flow of current in resistance- thermal efficiency – problems – domestic consumer electricity bill calculation – applications of heating effects of electric current.

Unit 4 – Conducting Materials

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Unit 5 – Insulating Materials and Special Purpose Materials

Insulating materials : Properties – insulation resistance – factors effecting insulation resistance – classification of insulation materials based on temperature – properties – applications – thermoplastic & thermosetting resins. Special purpose materials: protective materials – thermocouple – bimetals – soldering – fuses – galvanizing and impregnating -enamel coated copper wires – nanomaterials.

Unit 6 – Magnetic Materials

Magnetic materials : Definition of terms related to magnetism – classification of magnetic materials – soft & hard magnetic materials- B-H Curves – hysteresis loop – hysteresis loss – Steinmetz equation- eddy current loss – Curie point – magnetostriction.

Recommended Books

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.
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Course Outcome:

Apply the Basic Principles of Electricity

• Distinguish between conductor, insulator and semiconductor.
• Draw energy level diagrams of conductors, insulators and semiconductors.
• Define
1. electric current
2. EMF
3. voltage
• State Ohms Law.
• Explain Ohms Law
• List the limitations of Ohms Law.
• Explain the concept of resistance to flow of electrons.
• Define the terms
1. specific resistance
2. conductance and
3. conductivity.
• Deduce the relation R = ( pl ) / a
• Solve simple problems based on the Ohms Law & R = (pl) / a
• Explain the effects of temperature on resistance
• Develop the expression for resistance at any temperature as Rt=Ro(1+aot)
• Define temperature coefficient of resistance and give its unit.
• Develop the formula for coefficient of resistance at any temperature as at=ao/(1+aot)
• Solve problems based on the Rt= Ro(1+aot) &at=ao/(1+aot).

Develop the Expressions and Solve the Problems On Series and Parallel Resistance Circuits

• Develop the expressions for equivalent resistance with simple series connections.
• Develop the expressions for equivalent resistance with simple parallel connections.
• Solve problems on equivalent resistance in the case of series circuits.
• Solve problems on equivalent resistance in the case of parallel circuits.
• Solve problems on equivalent resistance in the case of series-parallel circuits.
• Solve problems on division of voltage when resistors are connected in series.
• Solve problems on division of current when resistors are connected in parallel.

Distinguish Between Work, Power, Energy, Apply Heating Effects of Electric Current and Solve Problems On Domestic Electricity Bill

• Define work, power and energy and state their SI units
• Express work, power and energy in Electrical, Mechanical and Thermal Units
• Solve problems on work, power and energy in Electrical, Mechanical and Thermal units.
• Explain the Mechanical equivalent of heat.
• State Joules law
• State the heat produced due to flow of current.
• Define thermal efficiency.
• Solve problems on the above.
• Calculate electricity bill for domestic consumers.
• Explain the applications of heat produced due to electric current in
1. Metal Filament lamps
2. Electric kettle
3. Electric cooker
4. Electric Iron
5. Space heaters
6. Geyser
7. Infrared lamp.

Classify Conducting Materials and Special Purpose Materials, State Their Properties and Give Their Electrical Engineering Applications

• Define conducting materials.
• State the properties of conducting materials.
• Define the terms
1. hardening
2. annealing
• Explain the effects of hardening and annealing on copper with regard to electrical and mechanical properties.
• State the requirements of low resistivity materials.
• List some examples of
1. low resistivity materials
2. high resistivity materials
• Mention the properties & applications of Copper and Aluminium.
• Distinguish between Copper and Aluminium.
• Mention the properties & applications of ACSR conductors.
• State the requirements of high resistive materials.
• State the types of high resistive materials.
• List the properties & applications of high resistive materials
1. Manganin
2. Eureka
3. Constantan
4. Nichrome
5. Tungsten
6. Carbon

Categorize Insulating Materials, Special Purpose Materials, State Their Properties and Applications

• Define insulating materials
• State the important electrical properties of insulating materials
• Explain factors affecting insulating resistance.
• Classify insulating materials based on temperature.
• State the properties and applications of
1. Impregnated paper ii)Asbestos
2. Mica
3. Ceramics.
• Explain Thermoplastic & Thermosetting resins with examples.
• Explain the properties of PVC
• List the applications of PVC.
• State the properties and applications of the following gases
1. Nitrogen
2. Hydrogen
3. SulphurHexafluoride (SF6).
• State the need for protective materials
• Explain the thermo couple materials.
• State the bimetals.
• State the soldering materials.
• Define fuse
• State the different types of materials used for fuse.
• Explain the process of galvanizing and impregnating.
• State the need for enamel coated copper wires and mention its applications.
• List the application of nanomaterials.

Explain the Properties and Applications of Various Magnetic Materials

• Define the terms
1. magnetic field
2. magnetic flux
3. magnetic flux density
4. MMF
5. magnetizing field strength
6. permeability
7. susceptance
8. reluctance
• Classify the magnetic material as:
1. ferro
2. para
3. diamagnetic materials with examples
• Explain
1. soft magnetic materials
2. hard magnetic materials
• Draw and explain BH Curve
• Draw and explain Hysteresis loop.
• Explain Hysteresis loss and state Steinmetz equation (No Problems).
• Explain Eddy Current Losses.
• State Curie point.
• Define Magnetostriction.

Suggested Student Activities

1. Student visits Library to refer to Electrical Manuals
2. Student visits the Lab to identify the available electrical equipment
3. Visit nearby Industry to familiarize with electrical and electronics devices and components
4. Quiz
5. Group discussion
6. Surprise test

Suggested E-Learning

1. http://electrical4u.com/
2. www.nptel.ac.in
3. https://ocw.mit.edu/courses/electrical-engineering-and-computer-science/

Course Outcome:

1. Apply the basic principles of electricity
2. Solve the problems on series and parallel resistance circuits
3. Distinguish between work, power, energy, apply heating effects of electric current and solve problems on domestic electricity bill
4. Classify conducting materials, state their properties and give their electrical engineering applications
5. Categorize insulating materials, special purpose materials, state their properties and applications
6. Explain the properties and applications of various magnetic materials

For detail Syllabus of all other subjects of Electrical & Electronics Engineering, C18 curriculum do visit Diploma In Electrical & Electronics Engineering 1st Sem Syllabus for C18 curriculum.

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