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Design Principles of RF and Microwave Filters and Amplifiers

Design Principles of RF and Microwave Filters and Amplifiers. Instructor: Prof. Amitabha Bhattacharya, Department of Electronics and EC Engineering, IIT Kharagpur. The course will introduce design principles of RF and microwave filters and amplifiers. The lectures would try to emphasize on the need to understand the key concepts behind a microwave filter or amplifier design so that the students themselves can design a microwave filter or an amplifier. The course would lay the foundation for further exploring the vast area of microwave engineering analysis and design. (from nptel.ac.in)

Lecture 18 - Quantitative Characterisation of Nonlinearity of Large Signal Amplifier


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Lecture 01 - Image Impedance Based RF Filter Design
Lecture 02 - Concept of Image Impedance and Propagation Constant
Lecture 03 - Symmetrical Lossless Network Description for Filter Design
Lecture 04 - Constant K Prototype Filter Design
Lecture 05 - M-Derived Prototype Filter Design
Lecture 06 - Introduction to Insertion Loss Based Microwave Filter Design
Lecture 07 - Prototype Low Pass Filter Design
Lecture 08 - Filter Transformation
Lecture 09 - Microwave Filter Implementation
Lecture 10 - Tutorial of an Insertion Loss Based Microwave Filter Design
Lecture 11 - Gain Definitions of Microwave Amplifiers
Lecture 12 - Stability Analysis of Microwave Amplifiers
Lecture 13 - Conditional Stability Enforcement for Microwave Amplifiers
Lecture 14 - Amplifier Design of Maximizing Transducer Gain
Lecture 15 - Amplifier Design for Specified Gain
Lecture 16 - Amplifier Design for Specified Noise Performance
Lecture 17 - Broadband Amplifier Design
Lecture 18 - Quantitative Characterisation of Nonlinearity of Large Signal Amplifier
Lecture 19 - Quantitative Characterisation of Nonlinearity of Large Signal Amplifier (cont.)
Lecture 20 - Measurement of Nonlinearity