JNTUH B.Tech 4th Year 2 sem Electronics and Communication Engineering R13 (4-2) RF Circuit Design (Elective – V) R13 syllabus.

JNTUH B.Tech 4th year (4-2) RF Circuit Design gives you detail information of RF Circuit Design (Elective – V) R13 syllabus It will be help full to understand you complete curriculum of the year.

Course Objectives

The course objectives are

• To educate students fundamental RF circuit and system design skills.
• To introduce students the basic transmission line theory, single and multiport networks, RF component modelling.
• To offer students experience on designing matching and biasing networks & RF transistor amplifier design.

UNIT —I

Introduction: Importance of RF Design-Dimensions and Units-Frequency Spectrum-RF Behavior of Passive Components: High Frequency Resistors, High Frequency Capacitors, High Frequency lnductors.-Chip Components and Circuit Board Considerations: Chip Resistors, Chip Capacitors, and Surface Mount inductors.

Review of Transmission Lines: Types of Transmission Lines-Equivalent Circuit representation—R, L, C, G parameters of Different Line configurations— Terminated Lossless Transmission Lines-Special Terminations: Short Circuit, Open Circuit and Quarter 1Vave Transmission Lines— Sourced and Loaded Transmission Lines: Power Considerations, Input Impedance Matching,Return Loss and Insertion Loss.

UNIT —II

Single and Multi-Port Networks: The Smith Chart: Reflection Coefficient,Normalized Impedance-Impedance Transformation: Standing wave Ratio, Special Transformation Conditions-Admittance Transformation-Parallel and Series RL & RC Connections-Basic Definitions of Single and Multi-Por l works-interconnection Networks.RF Filter Design: Scattering Parameters: Definition, Meaning, Chair Scattering Matrix, Conversion Between S- and Z-parameter S, Signal FIov Chart Modeling, Generalization-Basic Resonator and Filter Configurations Low Pass, High Pass, Band Pass and Band Stop type Filters-Filte Implementation using Unit Element and Kuroda’s Identities Transformations Coupled Filters.

UNIT -III

Active RF Component Modelling: RF Diode Models: Nonlinear and Linear Models-Transistor Models: Large Signal and Small Signal BJT Models, Large Signal and Small Signal FET Models- Scattering Parameter, Device Characterization.

Download iStudy Android App for complete JNTUH syllabus, results, timetables and all other updates. There are no ads and no pdfs and will make your life way easier.

TEXT BOOKS

• RF Circuit Design — Theory and Applications – Reinhold Ludwig, Pavel Bsetchko — Pearson Education India, 2000.
• Radio Frequency and Microwave Communication Circuits — Analysis and Design – Devendra K.Misra — Wiley Student Edition — John Wiley & Sons, Inc.

REFERENCE BOOKS

• Radio Frequency and Microwave Electronics — Matthew M. Radmanesh — PEI.
• RF Circuit Design — Christopher Bowick, Cheryl Aljuni and John Biyler, Elsevier Science, 2008.
• Secrets of RF Circuit Design – Joseph J.Carr, TMH, 2000.
• Design of RF and Microwave Amplifiers and Oscillators – Peter L.D. Abrif, Artech House, 2000.

For more information about all JNTU updates please stay connected to us on FB and don’t hesitate to ask any questions in the comment.