Radio Frequency Integrated Circuits detail syllabus for Telecommunication Engineering (Telecom), 2017 scheme is taken from VTU official website and presented for VTU students. The course code (17TE745), 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.
For all other telecom 7th sem syllabus for be 2017 scheme vtu you can visit Telecom 7th Sem syllabus for BE 2017 Scheme VTU Subjects. For all other Professional Elective-3 subjects do refer to Professional Elective-3. The detail syllabus for radio frequency integrated circuits is as follows.
Course Objectives:
The objective of this course is to enable students to:
- Introduce the theory and concept of Radio Frequency Integrated system.
- Understand different types of key wireless/RF circuits including Amplifier, Switch, Mixer, Oscillator, frequency divider, Frequency doublers, Power divider and Transmission lines.
- Analyze the performance parameters of radio frequency circuits, S-parameters, Rise time, Delay, Bandwidth and Amplifiers and identify design trade-off of radio frequency communication systems.
- Design RLC Networks, High frequency amplifiers, Low Noise amplifiers and RF amplifiers.
Module 1
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Module 2
Characteristics of passive IC components: Introduction, Interconnect at radio frequencies: Skin effect, Resisters, Capacitors (Parallel plate capacitor, Interconnect capacitance), Inductors (Spiral and Bond wire), Transformers (Monolithic transformer realization), and Interconnect options at high frequency. A Review of MOS Device Physics: FETs, MOSFET physics, The long – channels approximation (Drain current in linear region, Drain current in saturation, Dynamic elements), Operation in weak inversion (sub threshold), MOS device physics in the short – channel regime, Other effects.
Module 3
Distributed Systems: Introduction, Link between lumped and distributed regimes, Driving-point Impedance of Iterated structures, Transmission lines in more detail, Behavior of Finite – length transmission lines. The Smith Chart and S-Parameters: Introduction, The smith chart, S-parameters, Band Width Estimation Techniques, Introduction, The method of open – circuit time constant (Observation and interpretations, Accuracy of open circuit time constant, Other important considerations), The method of short circuit time constant, Rise time, Delay and Bandwidth(Exclude: Application of the Rise time addition rule, Rise time addition and bandwidth shrinkage).
Module 4
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Module 5
Low Noise Amplifier Design: Introduction, Derivation of intrinsic MOSFET two port noise parameters, LNA topologies: Power match versus noise match, Power constrained noise optimization. Mixers: Introduction, Mixer fundamental, Nonlinear systems as linear mixers.
RF Power Amplifiers: Introduction, General considerations, Class A, AB, B and C power amplifier, Class D amplifiers, Class E amplifiers, Class F amplifiers, RF PA design examples.
Course Outcomes:
After studying this course, students will be able to:
- Understand Wireless systems, RLC networks, Passive Components, MOS devices, Transmission lines, Amplifiers and Mixer.
- Analyze characteristics of RLC Networks, Passive IC components, MOS devices, S-parameters, Rise time, Delay, Bandwidth and Amplifiers.
- Design RLC Networks, High frequency amplifiers, Low Noise amplifiers and RF amplifiers with general considerations.
Text Books:
The Design of CMOS Radio-Frequency Integrated Circuit, Thomas H. Lee, 2nd edition, Cambridge, 2004.
Reference Books:
Design of Analog CMOS Integrated Circuits, Razavi, Behzad, Tata McGraw Hill, 2005.
For detail syllabus of all other subjects of BE Telecom, 2017 regulation do visit Telecom 7th Sem syllabus for 2017 Regulation.
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