Code EC3551 deals with the subject from the Anna University Regulation 2021, related to affiliated institutions, syllabus of B.E Electronics and Telecommunication Engineering. In this article, we discuss the Transmission Lines And Rf Systems Syllabus.
We intend to provide the syllabus of EC3551 – Transmission Lines And Rf Systems, we include the textbooks and references from the faculty of experts. You can get the required information unit-wise. The following links will help you to get proper information. I hope you can find the details in the article given below.
If you want to know more about the syllabus of B.E Computer Science and Engineering (Cyber security) Syllabus connected to an affiliated institution’s four-year undergraduate degree program. We provide you with a detailed Year-wise, semester-wise, and Subject-wise syllabus in the following link B.E Electronics and Telecommunication Engineering Syllabus Anna University, Regulation 2021.
Aim of Objectives:
- To introduce the various types of transmission lines and its characteristics.
- To understand high-frequency line, power and impedance measurements.
- To impart technical knowledge in impedance matching using the Smith Chart.
- To introduce passive filters and basic knowledge of active RF components.
- To learn the concepts of a RF system transceiver design.
EC3551 – Transmission Lines And Rf Systems Syllabus
Unit – I: Transmission Line Theory
General theory of Transmission lines – the transmission line – general solution – The infinite line Wavelength, velocity of propagation – Waveform distortion – the distortion less line – Loading and different methods of loading – Line not terminated in Z 0 – Reflection coefficient – calculation of current, voltage, power delivered and efficiency of transmission – Input and transfer impedance Open and short-circuited lines – reflection factor and reflection loss.
Unit – II: High-Frequency Transmission Lines
Transmission line equations at radio frequencies – Line of Zero dissipation – Voltage and current on the dissipation-less line, Standing Waves, Nodes, Standing Wave Ratio – Input impedance of the dissipation-less line – Open and short-circuited lines – Power and impedance measurement on lines Reflection losses – Measurement of VSWR and wavelength.
Unit – III: Impedance Matching In High-Frequency Line
Impedance matching: Quarter wave transformer, One Eighth wave line, Half wave line – Impedance matching by stubs- Single stub and double stub matching – Smith chart – Application of Smith chart, Solutions of problems using Smith chart – Single and double stub matching using Smith chart.
Unit – IV: Waveguides
Waves between parallel planes of perfect conductors – Transverse Electric waves and Transverse Magnetic waves, Characteristics of TE and TM waves, Transverse Electromagnetic waves, TM and TE waves in Rectangular waveguides, TM and TE waves in Circular waveguides.
Unit – V: Rf System Design Concepts
Active RF components: Semiconductor basics in RF, bipolar junction transistors, RF field effect transistors, High electron mobility transistors, Fundamentals of MMIC, Basic concepts of RF design: Filters, couplers, power dividers, Amplifier power relations, Low noise amplifiers, Power amplifiers.
Text Books:
- John D Ryder, “Networks lines and fields”, Prentice Hall of India, New Delhi,2005. (Unit I–IV)
- Mathew M. Radmanesh, “Radio Frequency & Microwave Electronics”, Pearson Education Asia, Second Edition, 2002. (Unit – V)
- Annapurna Das, Sisir K. Das, “Microwave Engineering”, McGraw Hill Education (India) Private Limited, Third edition, 2000. (Unit – V)
References:
- Reinhold Ludwig and Powel Bretchko, “RF Circuit Design” – Theory and Applications, Pearson Education Asia, First Edition, 2001.
- D. K. Misra, “Radio Frequency and Microwave Communication Circuits”- Analysis and Design, John Wiley & Sons, 2004.
- Richard Chi-Hsi Li -, “RF Circuit Design” – A John Wiley & Sons, Inc, Publications.
- W. Alan Davis, Krishna Agarwal, “Radio Frequency Circuit Design”, John Willy & Sons, 2001.
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