Microwave and millimeter wave circuit analysis and design

Course Introduction: This digital course covers three topics: microwave/millimeter wave active and passive circuits, microwave/millimeter wave signal source design, and radio frequency transceiver system parameters.

□ Course objectives: To train students to have a full understanding of radio frequency transceiver systems and circuits, and to provide students with design examples to understand the implementation of various key radio frequency circuits.

■ Course unit:
Unit 1. Frequency synthesizer
1-1 Introduction to frequency synthesizer
1-2 Frequency synthesizer architecture
1-3 Frequency control and switching speed
1-4 Frequency synthesizer model
1-5 Frequency response of frequency synthesizer
1- 6 Signal tracking and locking of frequency synthesizer
1-7 Frequency synthesizer’s frequency locking range and stabilization time
1-8 Phasor and phase noise analysis
1-9 Phase noise of frequency synthesizer
1-10 Stability of frequency synthesizer Degree
1-11 Fractional frequency synthesizer
1-12 Difference integral modulation fractional frequency synthesizer

Unit 2.
2-1 Power and gain expression method (Part1)
2-1 Power and gain expression method (Part2)
2-2 Phase noise (Part1)
2-2 Phase noise (Part2)
2-3 Common nonlinear parameters of RF transceiver systems (Part1)
2-3 Common nonlinear parameters of RF transceiver systems (Part2)
2-3 Common RF transceivers System nonlinear parameters (Part3)
2-3 Common nonlinear parameters of RF transceiver systems (Part4)
2-3 Common nonlinear parameters of RF transceiver systems (Part5)
2-3 Common nonlinear parameters of RF transceiver systems (Part6)
2 -4 Noise index and sensitivity (Part1)
2-4 Noise index and sensitivity (Part2)
2-4 Noise index and sensitivity (Part3)

Unit 3-1. Transceiver circuit and system
3-1 Part1 Transceiver-Signal Transmitting and Receiving
3-1 Part2 Transmitting End-Upconverter Mixer and Power Amplifier
3-1 Part3 Transmitting and Receiving End-Filter and Switch
3-1 Part4 Receiving End-Low Noise Amplifier and Down-frequency Mixer
Unit 3-2. Frequency Modulation Radar Design and Application
3-2 Part1 Frequency Modulation Continuous Wave Radar
3-2 Part2 Monopulse Radar
3-2 Part3 CMOS Radar Design and Application
Unit 3-3. Network Analysis and Its Application
3-3 Part1 Dual Port network-impedance and admittance parameters and their analysis on balun
3-3 Part2 Dual-port network-analysis of transmission matrix
3-3 Part3 Single-frequency power divider and dual-frequency rat path coupler
3-3 Part4 Miniaturization Coupler Design
3-3 Part5 Multi-port Measurement and Buried Method
Unit 3-4. CMOS Active Circuit
3-4 Part1 CMOS Low Noise Amplifier
3-4 Part2 Millimeter Wave CMOS Circuit Considerations
3-4 Part3 CMOS Power Amplifier
3 - 4 Part4 Double Push Voltage Controlled Oscillator

• Chapter 1：Introduction to frequency synthesizers (11 minutes and 32 seconds)

• Chapter 2：Frequency synthesizer architecture (37 minutes and 46 seconds)

• Chapter 3：Frequency control and switching speed (41 minutes and 2 seconds)

• Chapter 4：frequency synthesizer model (36 minutes and 12 seconds)

• Chapter 5：Frequency response of frequency synthesizer (32 minutes and 39 seconds)

• Chapter 6：Frequency synthesizer signal tracking and locking (36 minutes and 50 seconds)

• Chapter 7：Frequency locking range and settling time of the frequency synthesizer (28 minutes and 50 seconds)

• Chapter 8：Phasor and Phase Noise Analysis (33 minutes and 49 seconds)

• Chapter 9：Frequency synthesizer phase noise (31 minutes and 0 seconds)

• Chapter 10：Frequency synthesizer stability (21 minutes and 39 seconds)

• Chapter 11：Fractional Frequency Synthesizer (27 minutes and 12 seconds)

• Chapter 12：Differential integral modulated fractional frequency synthesizer (37 minutes and 33 seconds)

• Chapter 13：Power and gain expression methods (19 minutes and 26 seconds)

• Chapter 14：Power and gain expression method (Part 2) (19 minutes and 45 seconds)

• Chapter 15：Phase noise (Part1) (23 minutes and 24 seconds)

• Chapter 16：Phase noise (Part2) (21 minutes and 36 seconds)

• Chapter 17：Common nonlinear parameters of radio frequency transceiver systems (Part 1) (21 minutes and 13 seconds)

• Chapter 18：Common nonlinear parameters of radio frequency transceiver systems (Part 3) (21 minutes and 18 seconds)

• Chapter 19：Common nonlinear parameters of radio frequency transceiver systems (Part 4) (25 minutes and 39 seconds)

• Chapter 20：Common nonlinear parameters of radio frequency transceiver systems (Part5) (23 minutes and 55 seconds)

• Chapter 21：Common nonlinear parameters of radio frequency transceiver systems (Part 6) (28 minutes and 0 seconds)

• Chapter 22：Noise Index and Sensitivity (Part1) (34 minutes and 48 seconds)

• Chapter 23：Noise Index and Sensitivity (Part2) (39 minutes and 13 seconds)

• Chapter 24：Noise index and sensitivity (Part3) (24 minutes and 9 seconds)

• Chapter 25：Transceiver - signal transmission and reception (14 minutes and 56 seconds)

• Chapter 26：Transmitter-upconverter mixer and power amplifier (15 minutes and 21 seconds)

• Chapter 27：Transceiver-filter and switch (13 minutes and 50 seconds)

• Chapter 28：Receiving end-low noise amplifier and down-frequency mixer (27 minutes and 24 seconds)

• Chapter 29：frequency modulated continuous wave radar (23 minutes and 47 seconds)

• Chapter 30：monopulse radar (25 minutes and 39 seconds)

• Chapter 31：CMOS radar design and application (29 minutes and 22 seconds)

• Chapter 32：Dual-port network-impedance and admittance parameters and their analysis in balun (28 minutes and 55 seconds)

• Chapter 33：Dual-port network-transmission matrix analysis (22 minutes and 46 seconds)

• Chapter 34：Single frequency power divider and dual frequency mouse path coupler (24 minutes and 2 seconds)

• Chapter 35：Miniaturized Coupler Design (23 minutes and 3 seconds)

• Chapter 36：Multi-port measurement and deburialization methods (19 minutes and 17 seconds)

• Chapter 37：CMOS low noise amplifier (27 minutes and 39 seconds)

• Chapter 38：Millimeter wave CMOS circuit considerations (22 minutes and 23 seconds)

• Chapter 39：CMOS power amplifier (27 minutes and 12 seconds)

• Chapter 40：Double Push Voltage Controlled Oscillator (23 minutes and 14 seconds)