• You can log in to your eeworld account to continue watching:
  • frequency synthesizer model
  • Login
  • Duration:36 minutes and 12 seconds
  • Date:2024/06/30
  • Uploader:桂花蒸
Introduction
keywords: circuit Millimeter wave
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
Unfold ↓

You Might Like

Recommended Posts

(Serial 08) Working Principle of Parallel Switching Power Supply
[p=null, 2, left][color=rgb(62, 62, 62)][font="][size=16px][b]1-4-1. Working principle of parallel switching power supply[/b][/size][/font][/color][/p][p=null, 2, left][color=rgb(62, 62, 62)][font="][
木犯001号 Power technology
[Help] A very basic circuit question! I can't do it
This question is from "Circuit" published by Higher Education Press, page 390, question 16-4.As shown in the figure, when I use the loop current method to calculate Y11 (that is, when calculating U1/I
itmssliyan Analog electronics
MSP430FR5739 enables applications to connect to the Internet of Things
[align=left][color=#000][size=4] These days, almost any household appliance can be prefixed with the word "smart". Think: a smart fridge that sends you a text message when the door is left open, a the
fish001 Microcontroller MCU
About the problem of registers hanging on the AXI bus
For example, HPS specifically controls the address [1:0] register, but no clear code is seen in the my_first_hps-fpga example
LiFan123 Altera SoC
I would like to ask the moderator for advice (7). Thank you for your help.
I am sorry to bother you again. The microwave power used in our experiment is only about 10dBm . In this case, is it appropriate to use the power divider used in indoor coverage systems such as GSM ?
xujia525 RF/Wirelessly
Antenna Test Method Selection Evaluation
[size=3] Matching an antenna to an application requires accurate antenna measurements. Antenna engineers need to determine how an antenna will perform in order to determine if it is suitable for a par
Jacktang RF/Wirelessly

Recommended Content

可能感兴趣器件

EEWorld
subscription
account

EEWorld
service
account

Automotive
development
circle

About Us Customer Service Contact Information Datasheet Sitemap LatestNews


Room 1530, 15th Floor, Building B, No.18 Zhongguancun Street, Haidian District, Beijing, Postal Code: 100190 China Telephone: 008610 8235 0740

Copyright © 2005-2024 EEWORLD.com.cn, Inc. All rights reserved 京B2-20211791 京ICP备10001474号-1 电信业务审批[2006]字第258号函 京公网安备 11010802033920号