Networks, Filters & Transmission Lines Instrumentation & Ctrl 4th Sem Syllabus for Diploma BTEUP 2017

Networks, Filters & Transmission Lines detail BTEUP Diploma syllabus for Instrumentation And Control, effective from 2017 is collected from BTEUP 2017 Syllabus official website and presented for diploma students. The course details such as 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 & ctrl 4th sem bteup diploma syllabus 2017 you can visit Instrumentation & Ctrl 4th Sem BTEUP Diploma Syllabus 2017 Subjects. The detail syllabus for networks, filters & transmission lines is as follows.

Rationale:

The electronic circuits are too much complicated. To understand the working of electronic circuitary a systematic knowledge of the tools of circuit analysis is required. A student having knowledge of the basic tools like network throrems one port/two port network, symmetrical/asymmetrical network, attenuators, filters and transmission lines will be able to share any type of responsibility in the industry atmosphere.

DETAILED CONTENTS

1. REVIEW OF NETWORK THEOREMS:

Review of the following, network theorem; superposition, Thevenin’s Norton’s and maximum power transfer.

2. NETWORKS:

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3. SYMMETRICAL AND ASYMMETRICAL NETWORK :

1. Symmetrical Network :
1. Concept and significance of characteristics impedance, propagation constant,attenuation constant, phase shift constant and insertion loss.
2. Expression for characteristic impedance, propagation constant, attenuation constant and phase-shift constant in terms of Zo, Zoc and Zsc for the following
1. T Network.
2. n, pi Network.
2. Asymmertrical Network :
1. Concept and significance of iterative impedance image impedance, image transfer constant and insertion loss.
2. The half section (L-section) : Splitting of symmetrical T & n(p
3. sections into half sections, derivation of iterative impedence, image impedence open and short circuit impedence of half section.
3. Star-Delta Transformation : Equivalence of T and n(p
1. network.

4. ATTENUATORS:

1. Units of attenuation (decible and nepers)
2. General characteristics of attenuators.
3. Analysis and design of simple attenuator of following types
1. Symmetrical T and n type.
2. L type.

5. FILTERS:

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6. TRANSMISSION LINE:

1. Transmission lines and their application : Shapes of different types of transmission lines; including 300 ohm antenna feeder cable, 75 ohm co-axial cable, optical fibre cable, Also other different types of cables.
2. Distributed ( or primary) constants of a transmission line equivalent circuit of infinite line;
3. Necessity of the concept of an infinite line; Definition of characteristic impedance of line ; concept of short line termination in Zo currents no voltages long an infinite line; graphical representation; propagation constent, attenuation and phase shift constant of the line.
4. Relationship of characteristics impedence, propagation canstant, attenuation constant and phase constant in term of distributed constants of the line, smith charts.
5. Conditions for minimum distortion and minimum attenuation of signal on the line; necessity and different methods of loading the communication lines.
6. Concept of reflection and standing waves on a transmission line; definition of reflection coefficient in terms of characteristics impedance and load impedance; Definition of standing wave ratio (SWR), relation between VSWR and voltage reflection coefficient, maximim impedance on a line in term of characteristics impedance and VWSR.
7. Transmission line equation; expression for voltage, current and impedance at a point on the lines for lines with and without losses. Expression for the imput impedance of the line. Solving Transmission line problems using Smith Chart.
8. Input impedance of an open and short circuited line and its graphical representation.
9. Transmission line at high frequency, effect of high frequencies on the losses of a transmission line; Application of transmission line as a and imdedance transformer ( e.g. reactive components quarter wave and half wave transformer ).
10. Principle of impedance matching using single stub; comparison of open and short circuit stubs.
11. Expression for characteristic impedance of open wire and coaxial lines ( No derivation).

Reference Books:

1. J. P. Ryder-Network Filters & Transmission Line- PHI
2. A. Chakravorty- An Introduction to Network, Filters & Transmission Line- Dhanpat rai & Co.
3. D. R. Chaudhry- Network Analysis-Dhanpat Rai & Co.
4. V. K. Aatre- Network Theory & Filter Design- New Age International Pub.

List of Experiments:

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For detail syllabus of all other subjects of BE Instrumentation & Ctrl, effective from 2017 do visit Instrumentation & Ctrl 4th Sem BTEUP syllabus for 2017.

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