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Table of contents
1 Introduction
1.1 Background and Motivation
1.2 Objectives
1.3 Outline of the Thesis
2 Theoretical Background
2.1 ISM Band
2.1.1 ISM Band Operation
2.1.2 Application
2.2 Radio Receiver Basics
2.3 Network Analysis
2.3.1 Two-Port Network
2.3.2 S-Parameter
2.4 Types of Noises
2.4.1 Thermal Noise
2.4.2 Shot Noise
2.4.3 Flicker Noise
2.5 Noise Figure
2.6 Active Device: FET
2.7 Design Process of BFP-LNA
2.7.1 Band-Pass Filter
2.7.2 Low-Noise-Amplifier (LNA)
2.7.3 Matching Network between BPF and LN A
3 Design of LNA
3.1 Design Specification
3.2 Transistor Selection
3.2.1 Features
3.2.2 Applications
3.3 Q-Point Determination
3.4 DC Biasing Network
3.5 Design of LNA with S2P File
3.5.1 Stability
3.5.2 Using Ideal Components without Biasing Network
3.5.3 Using non-Ideal Components without Biasing Network
3.5.4 Using Ideal Components with Biasing Network
3.5.5 Using non-Ideal Components with Biasing Network
3.6 Design of LNA with Electrical Model
3.6.1 Design with Ideal Components
3.6.2 Design with non-Ideal Components
3.7 Layout Design of LNA
3.7.1 Design with non-Ideal Components
4 Design of BPF-LNA
4.1 Design Specifications of BPF
4.2 Design of Maximally Flat BPF
4.2.1 Design with Lumped Components
4.2.2 Design with Distributed Elements
4.3 Design of BPF-LNA with Lumped Components
4.3.1 Schematic Design with Ideal Components
4.3.1 Layout Design
4.4 Design of BPF-LNA with Distributed Elements
4.4.1 Design of Schematic
4.4.2 Design of Layout
5 Prototypes & Measurements
5.1 Prototype of LNA
5.1.1 Measurement Results
5.2 Prototype of BPF-LNA with Lumped Elements
5.2.1 Measurement Results
5.3 Prototype of BPF-LNA with Distributed Elements
5.3.1 Measurement Results
5.4 Comparison of Layouts and Measured Results
6 Conclusion and Future Works
6.1 Conclusion
6.2 Future Works
7 References
