15MC32T: Analog Electronics Mechatronics 3rd Sem Syllabus for Diploma DTE Karnataka C15 Scheme

Analog Electronics detail DTE Kar Diploma syllabus for Mechatronics Engineering (MC), C15 scheme is extracted from DTE Karnataka official website and presented for diploma students. The course code (15MC32T), 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 mechatronics 3rd sem syllabus for diploma c15 scheme dte karnataka you can visit Mechatronics 3rd Sem Syllabus for Diploma C15 Scheme DTE Karnataka Subjects. The detail syllabus for analog electronics is as follows.

Pre-requisites:

Knowledge of Applied science and Basic Electrical and Electronics Engineering

Course Objectives:

Understand the circuit aspects of Linear power supplies, Amplifiers, Oscillators, OPAMPs and Multi vibrators.

Course Outcomes:

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Unit-I POWER SUPPLIES

Block diagram of Linear Power supply, operation of, HWR, Bridge rectifier. Filter:- Necessity of filters, L type and Pi type filters. Voltage Regulators: Zener diode regulator, Series voltage regulator, IC Voltage Regulators: IC 723, IC 78XX and 79XX.Block diagram of UPS and SMPS

Unit-II AMPLIFIERS

Working of transistors in CB, CE and CC configuration. Necessity of Biasing and different biasing circuits. Multi Stage Amplifiers, frequency response of Two stage RC coupled amplifier Power Amplifier: Difference between voltage and power amplifier, operation of Class A, class B, class AB and class C, Push pull power amplifier, FET Amplifier:

Unit-III OSCILLATORS

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Unit-IV OP-AMP LINEAR APPLICATIONS

Differential Amplifier: Operational Amplifier: Block diagram, characteristics of ideal Op-Amp, IC 741 Linear Applications of Op-Amp: Inverting amplifier, Non-inverting amplifier, Summer, Subtractor, Voltage follower, Differentiator, Integrator.

Unit-V OP-AMP NON-LINEAR APPLICATIONS

Non-Linear Applications of Op-Amp Schmitt trigger. Oscillators: RC Phase shift Oscillators using OPAMP. Active Filters: Advantage of active filters over passive filters. The operation of Low pass, high pass, band pass and band stop filters.

Unit-VI APPLICATIONS OF IC AS A TIMER, PLL AND PWM

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Reference Books:

1. A Text Book Of Electrical Technology – B.L.Theraja Volume I and II
2. Electronic Principles – Malvino
3. Op-Amp and Other Linear Integrated Circuits – Gayekwad
4. Basic electrical Engineering, Kulashreshta, TMH

e-References/ URLS

1. http://www.allaboutcircuits.com/
2. http://www.allaboutcircuits.com/videos

Student Activity

1. Build hobby circuit such as door bell, calling bell, blinking LED etc
2. Students can Build a Miniature circuits consists of Transistors, OP-AMP and IC555.

Note:

1. Group of max four students should do any one of the above activity or any other similar activity related to the course Cos and get it approved from concerned Teacher and HOD.
2. No group should have activity repeated or similar
3. Teacher should ensure activities by group must cover all COs

Model Question Paper:

(CIE)

1. Explain the feedback technique OR Explain Barkhausen’s criterion for sustained oscillations
2. Explain the working of Colpitt’s oscillator with neat circuit diagram. OR Explain the working of Hartley oscillator with neat circuit diagram
3. Explain the working of op-amp as Summing Amplifier OR Explain the working of op-amp as Difference Amplifier.
4. Explain the block diagram of Op-Amp OR Explain the working of op-amp as Integrator

Model Question Paper:

PART- A

Answer any six questions. 5X6=30 marks

1. Explain the Linear power supplies with neat block diagram.
2. Differentiate between voltage amplifiers and power amplifiers.
3. How amplifiers are classified according to the method of operation
4. Explain the feedback technique
5. Explain Barkhausen’s criterion for sustained oscillations.
6. Explain the block diagram of Op-Amp.
7. Explain the characteristics of an ideal Op-Amp.
8. Explain the working of Schmitt trigger circuit using OP-AMP
9. Explain PLL.

PART- B

Answer any seven full questions. 10×7=70 Marks

1. Describe the term Rectification.
2. Explain with a neat circuit diagram with necessary wave forms, the working of bridge rectifier (2+8)m
1. Describe the term Regulation.
2. Explain the working of zener diode voltage regulator. (2+8)m
1. Explain the term amplification.
2. Explain class AB amplifiers with circuit diagrams and necessary waveforms. (3+7)m
4. Explain the working of Hartley’s oscillator with neat circuit diagram. 10m
5. Explain the working of Crystal oscillator with neat circuit diagram 10m
1. Explain the working of op-amp as Non-Inverting amplifier
2. Explain the working of op-amp as Differentiator. (5+5)m
1. Explain the working of op-amp as Voltage follower.
2. Explain the working of op-amp as Summing Amplifier. (5+5)m
8. With a neat circuit diagram, explain the operation of active high pass filter. 10m
9. With a neat circuit diagram explain the operation of active Band pass filter. 10m
10. Explain the working of Astable multivibrator using IC 555 timer. 10m

For detail syllabus of all other subjects of BE Mechatronics, C15 scheme do visit Mechatronics 3rd Sem syllabus for C15 scheme.

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