Rf Circuit Design detailed syllabus scheme for Electronics & Telecommunication Engineering (ET), 2017 onwards has been taken from the DBATU official website and presented for the Bachelor of Technology students. For Subject Code, Course Title, Lecutres, Tutorials, Practice, Credits, and other information, do visit full semester subjects post given below.
For 8th Sem Scheme of Electronics & Telecommunication Engineering (ET), 2017 Onwards, do visit ET 8th Sem Scheme, 2017 Onwards. For the Elective-XII scheme of 8th Sem 2017 onwards, refer to ET 8th Sem Elective-XII Scheme 2017 Onwards. The detail syllabus for rf circuit design is as follows.
Rf Circuit Design Syllabus for Electronics & Telecommunication Engineering (ET) 4th Year 8th Sem 2017 DBATU
Course Objectives:
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Course Outcomes:
After successfully completion of the course students will be able to
- Understand behavior of passive components at high frequency and modeling of HF circuit.
- Design HF amplifiers with gain bandwidth parameters.
- Understand Mixer types and characteristics.
- Gain the knowledge about PLLs and Oscillators with respect to their circuit topologies.
Unit 1
RF Behavior of Passive Components
HF Resistors, HF Capacitors, HF Inductors, Chip Components. Circuit Board Considerations: Chip Resistors, Chip Capacitors, Surface Mounted Inductors.
Unit 2
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Unit 3
High Frequency Amplifier Design
Shunt Peaked Amplifier, Shunt Series peak Amplifier, Two port bandwidth enhancement, Design example. Bandwidth enhancement techniques. Tuned Amplifier: Common Source Amplifier with Single Tuned Load, Analysis of Tuned Amplifier. Neutralization and uni lateralization. Characteristics of RF amplifier. Amplifier power relations. Stability considerations. Stabilization methods.
Unit 4
Low Noise Amplifier Design
MOSFET two port noise parameters, LNA topologies, Power-constrained noise optimization. Design examples: Single ended LNA, Differential LNA. Linearity and large signal performance. Spurious free dynamic range.
Unit 5
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Unit 6
Mixers
Mixer Fundamentals. Significant Characteristics of Mixer: Conversion Gain, Noise Figure, Linearity and Isolation, Spurs. Non Linear Systems as Linear Mixers. Multiplier Based Mixers: Single Balanced Mixer, Linearization techniques of Mixer, Active Double Balanced Mixer. Passive Double Balanced Mixer, Diode Ring Mixers.
Reference/Text Book:
- Reinhold Ludwig, Pavel Bretchko, RF Circuit Design Theory and Applications, Pearson Education.
- Thomas H. Lee, The Design of CMOS Radio-Frequency Integrated Circuits, Second Edition, Cambridge Publications.
- T. Yettrdal, Yunhg Cheng, Devices modeling for analog and RF COMS circuits design, John Wiley publication.
- Calvin Plett, Radio frequency Integrated Circuits Design, Artech house.
For detail syllabus of all subjects of Electronics & Telecommunication Engineering (ET) 8th Sem 2017 onwards, visit ET 8th Sem Subjects of 2017 Onwards.