313325: Circuits & Networks Syllabus for Electronics & Telecomm Engg 3rd Sem K Scheme MSBTE PDF

Circuits & Networks detailed Syllabus for Electronics & Telecomm Engg (EJ), K scheme PDF has been taken from the MSBTE official website and presented for the diploma students. For Subject Code, Subject Name, Lectures, Tutorial, Practical/Drawing, Credits, Theory (Max & Min) Marks, Practical (Max & Min) Marks, Total Marks, and other information, do visit full semester subjects post given below.

For all other MSBTE Electronics & Telecomm Engg 3rd Sem K Scheme Syllabus PDF, do visit MSBTE Electronics & Telecomm Engg 3rd Sem K Scheme Syllabus PDF Subjects. The detailed Syllabus for circuits & networks is as follows.

Rationale

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Course Outcomes:

Students will be able to achieve & demonstrate the following COs on completion of course based learning

1. Calculate voltage and current of the given circuit using nodal and mesh analysis.
2. Use various network theorems to calculate circuit parameters.
3. Determine the circuit parameters of two port network.
4. Calculate the electrical parameters of single phase A.C. circuit.
5. Find the resonance condition of electric/electronic circuits.

Unit I

DC Network Analysis 1.1 Terms related to circuit and network: Node, Branch, Loop, Mesh 1.2 Kirchhoff‘s Current Law (KCL) and Kirchhoff’s Voltage Law (KVL) 1.3 Nodal Analysis 1.4 Mesh Analysis 1.5 Star-delta and delta- star conversion 1.6 Conversion of voltage to current source and current to voltage source 1.7 Transient Response : RL series circuit, RC series circuit , RLC Series circuit Lecture Using Chalk-Board Video Demonstrations Assignments

Unit II

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Unit III

Analysis of two port network 3.1 Network Types: Active and Passive, Bilateral and Unilateral, Linear and Nonlinear, Symmetrical and Asymmetrical, Single port and Two port network 3.2 Open circuit(Z) and short circuit(Y) parameters 3.3 Transmission (ABCD) parameters 3.4 Interconnection of two port network- series, parallel and cascade configuration 3.5 Attenuators: Definition, types-T and Pi, features, frequency response, applications, comparison 3.6 Passive Filters: Definition, types- Low pass filter (LPF),high pass filter (HPF), band pass filter(BPF) and band stop filter (BSF), features, frequency response, applications, comparison Lecture Using Chalk-Board Video Demonstrations Assignments

Unit IV

Single Phase A.C. Circuit 4.1 AC circuit with series element: R-L, R-C and R-L-C circuits, voltage and current waveform, impedance, reactance, phasor diagram, impedance triangle 4.2 Different types of Power: power factor, active (real) power, apparent power, reactive power, power triangle, power triangle of series AC circuit 4.3 AC circuit with parallel element: Resistance in parallel with pure inductance and capacitance and for series combination of resistance and inductance in parallel with capacitance, voltage and current waveform, impedance, reactance, phasor diagram, impedance triangle, power triangle for above circuit 4.4 Definition of admittance, conductance and susceptance 4.5 Initial and final conditions in switching circuits, meaning of t=0-, t=0+, t= infinity, R, L and C at initial and final conditions Lecture Using Chalk-Board Video Demonstrations Assignment

Unit V

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Suggested Micro Project / Assignment

Micro project

• Prepare a report on real life applications of resonance (e.g. musical instruments)
• Prepare power point presentation on source transformation, star- delta transformation, mesh and nodal analysis and give presentation in the class.
• Build a circuit on breadboard with multiple resistors connected in series and measure voltage across each resistor.

Verify using KVL.

• Prepare a chart for comparison of single phase series RLC and parallel RLC circuit and draw input and output waveforms also.
• Build a circuit to change brightness of lamp/change the speed of fan/ change the temperature of heater using basic components.
• Build a circuit on breadboard with multiple resistors connected in parallel and measure current across each resistor.

Verify using KCL.

Assignment

• Calculate the Z, Y and ABCD parameters for the given two port network.
• Find circuit parameters of Single Phase AC series(R-L, R-C,R-L-C) and parallel (R-L, R-C,R-L-C) circuit, also draw its phasor diagram.
• Find the resonance condition for the specified series and RLC circuit and calculate current, voltage, bandwidth, quality factor .Observe the behaviour of R, L and C with change in frequency for series circuit.
• Identify the number of loops and nodes in the given circuit and solve the circuit using Nodal analysis and Mesh analysis.
• Simplify complex circuit using Thevenin’s theorem, Norton’s theorem and draw equivalent circuit for given circuit.

Activities For Specific Learning / Skills Development

• Verification of various network analysis and theorems in Virtual Laboratory (https://asnm-iitkgp.vlabs.ac.in/).
• Verification of various network analysis and theorems using Simulation Software (MATLAB, PSPICE).
• Perform R-L-C circuit analysis in Virtual Laboratory (https://asnm-iitkgp.vlabs.ac.in/exp/rlc-circuit-analysis/).
• Experimental verification of frequency response of R-L-C series Circuit (https://asnm-iitkgp.vlabs.ac.in/exp/rlc-series-circuit/).
• Test the resonance in Series RLC circuit using Simulation Software (MATLAB, PSPICE).

Laboratory Equipment

1. Voltmeter PMMC Type: DC, 0-150/300 V, 0-250/500 V, 0-75/150 V 11,12,13,14,16
2. Ammeter PMMC Type: DC, 0-1.5/3 Amp, 0-2.5/5 Amp, 0-5/10 Amp 12
3. Single phase Autotransformer 0-270 V,50Hz,10 A 20,21,22,23,24,25
4. Digital Storage Oscilloscope: 2 and 4 analog channel models 100 and bandwidth models Up to 1 GS/s sampling rate. 70 MHz 26,27,28
5. Signal Generator, Frequency : 0.1Hz ~ 5MHz ; Output waveforms : Sine, triangle, square, positive and negative pulse 26,27,28
6. Decade capacitor Box with Decades of 1nF, 10nF, 100nF, 1µF, 10µF 28,29,30
7. Decade Resistance Box with range 1 ohm to 1000 M ohm 28,29,30
8. Decade Inductor Box with Decades of 10µH, 100µH, 1mH, 10mH, 100mH 28,29,30
9. Ammeters MI type: AC/DC, 0-1 Amp, 0-1.5 Amp, 0-2.5 Amp, 0-5 Amp All
10. Voltmeter MI Type: AC/DC, 0-150/300 V, 0-250/500 V, 0-75/150 V All

Suggested Learning Materials / 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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Learning Websites & Portals

1. www.scilab.org/scilab Open source simulator for simulation of theorems
2. www.ni.com/multisim Open source simulator for simulation of theorems and circuit analysis
3. https://www.nptelvideos.com/course.php?id=462 NPTEL Circuit Theory Video Lectures
4. https://asnm-iitkgp.vlabs.ac.in/ Virtual laboratory link for theorems, R-L-C circuit analysis and its frequency response
5. https://www.udemy.com/course/electrical-circuit-fo electric al-electronics-engineering/ r- Basics, circuit element, circuit solving, network theorems, transient analysis
6. https://everycircuit.com/app Online and mobile app to design and simulate electronic circuits

For detail Syllabus of all other subjects of Electronics & Telecomm Engg, K scheme do visit Electronics & Telecomm Engg 3rd Sem Syllabus for K scheme.

For all Electronics & Telecomm Engg results, visit MSBTE Electronics & Telecomm Engg all semester results direct links.