15EI11T: Basics of Electrical and Electronics Engg. Instrumentation 1st Sem Syllabus for Diploma DTE Karnataka C15 Scheme

Basics of Electrical and Electronics Engg. detail DTE Kar Diploma syllabus for Electronics Instrumentation And Control Engineering (EI), C15 scheme is extracted from DTE Karnataka official website and presented for diploma students. The course code (15EI11T), and for exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below. The syllabus PDFs can be downloaded from official website.

For all other instrumentation 1st sem syllabus for diploma c15 scheme dte karnataka you can visit Instrumentation 1st Sem Syllabus for Diploma C15 Scheme DTE Karnataka Subjects. The detail syllabus for basics of electrical and electronics engg. is as follows.

Pre-requisites:

Basic Mathematics and Science up to 10th Standard.

Course Objectives:

1. Sufficient Knowledge regarding definitions & Laws of Electrical circuits is imparted
2. Understand the basic concepts of Electrostatic & Electromagnetic fields
3. Brief insight of AC Fundamentals.
4. Understand the use of semiconductors
5. Learn the concepts of Digital Electronics

Course Outcomes:

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UNIT-I ELECTRIC CIRCUIT FUNDAMENTALS:

Definition of Current, Voltage- EMF, Resistor,Resistance, specific resistance. Resistors in series, parallel & combination – derive equation, Simple problems. Ohm’s Law, Limitations of ohm’s law, simple problems. State Kirchhoff’s voltage and current laws.Power and Energy- Simple problems. Resistors -Specifications – ohmic value , Tolerance , Power rating, Thermal stability . Principle of operation of special resistors – LDR , VDR , Thermistor 12 Hours

UNIT-II ELECTROSTATICS& ELECTROMAGNETISM :

Electric charge: Electric field, Electric flux, Electric flux density, field strength, Dielectric, Coulomb’s law – statements, Definition of capacitor, capacitance, Absolute permittivity, Relative permittivity, Equation of capacitance – simple problems , Capacitors in series , parallel & combination – derive equation , simple problems .

ELECTROMAGNETISM: Definition of Magnetic field, Magnetic Flux, Magnetic Flux density.Faraday’s Laws of Electro Magnetic induction, Lenz’s Law – statement.Definition of
Inductor, Inductance, Self inductance, Mutual inductance, Self induced EMF, Mutually induced EMF. Working principle of Transformer turns ratio, voltage transformation ratio & current ratio- simple problems 14 Hours

UNIT-III AC FUNDAMENTALS:

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UNIT-IV SEMICONDUCTOR PHYSICS:

Atomic structure, Neil Bohr’s atomic theory,definition of conductors, insulators and semiconductors, energy level diagrams.

Semiconductors: Definition &properties, types – intrinsic and extrinsic,Doping,Types of dopants,Formation of P-type an N-type semiconductors, 6Hours

UNIT-V PN JUNCTION :

Formation, Definition of depletion region, barrier potential .Types of biasing , V-I characteristics, Definition of Knee Voltage , Forward current , reverse current , input resistance , output resistance , reverse breakdownvoltage. 5 Hours

UNIT-VI DIGITAL FUNDAMENTALS :

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Reference Books:

1. A Textbook of Electrical Technology, B.L.Theraja&A.K.Theraja, S. Chand Volume 1
2. Digital Principles & Applications – Malvino& Leach
3. Principles of Digital Electronics- by Floyd
4. Electronic Devices & Circuits – Millman&Halkias
5. Principles of Electronics V.K. Mehta
6. Fundamentals of Electrical Engg. & Electronics, B L Theraja , S. Chand

Student Activity (any one)

1. Take Quiz tests / assignments in BEEE. Documents have to be maintained as a record.
2. Do a power point presentation on Ohm’s law, Kirchoff’s law, Faraday’s law, Coulomb’s law etc( any one).Documents have to be maintained as a record.

Course Delivery:

• The course will be delivered through lectures and Power point presentations/ Video

Model Question Paper:

PART-A

1. State Ohm’s law. What are the limitations of Ohm’s law? 5
2. State Kirchhoff’s voltage law and Kirchhoff’s current law. 5
3. Define Field strength & Dielectric. 5
4. State Faraday’s laws of electromagnetic induction. 5
5. Define form factor & RMS value. 5
6. Explain intrinsic and extrinsic semiconductors with examples 5
7. Illustrate the formation ofPN Junction. 5
8. Write a note on ASCII 5
9. What are binary numbers ?With example explain binary to decimal conversion. 5

PART-B

1. Derive the equivalent resistance R for resistors connected in series 6
2. Two resistors of 10 ohms, 15 ohms, are connected in series. Determine the effective resistance. 4
1. Derive the equivalent resistance R for resistors connected in parallel 6
2. Determine power taken by a lamp when supplied by voltage of 100V & current 2A 4
1. What is Capacitor? What are the factors on which capacitance of capacitor depends? 6
2. Explain self inductance and mutual inductance. 4
1. Explain with circuit diagram charging and discharging of capacitor 6
2. Explain Coulomb’s law 4
1. Write the phasor diagram of voltage & current in pure resistive circuit 6
2. Find the RMS value of an alternating current which has a maximum value of 1.41 Amps 4
6. Explain conductor , insulator & semiconductor in terms of energy level diagram10
7. Explain the formation of P – Type semiconductor 10
8. Describe forward characteristics of a PN junction10
1. Write a note on Binary codes 6
2. convert 110010 to decimal number 4
1. ADD 1101 &1001 . Multiply 1001101 by 110 6
2. Subtract 10010 from 11100 by 1’s complement method 4

Model Question Paper:

(CIE)

1. State Ohm’s law and write ohm’s law equation
2. Find the voltage across a 10 ohm resistor when a current of 1.5 amps flows through it

or Determine the equivalent resistance of three 6Q resistors connected in series.

3. Two capacitors of 10 F, 15 F, are connected in series. Determine the effective capacitance

or Explain self-inductanceand mutual inductance

4. Explain Faraday’s law of electromagnetic induction

For detail syllabus of all other subjects of BE Instrumentation, C15 scheme do visit Instrumentation 1st Sem syllabus for C15 scheme.

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