Synchronization in Electronic Systems

Lecture 1. Introduction to Self-Oscillating Systems and Their Dynamics
Lecture 2. Basics of Synchronization Theory: History and Key Concepts
Lecture 3. Mathematical Models of Synchronization of Self-Oscillating
Systems
Lecture 4. Phase Dynamics and Phase Control in Synchronized Systems
Lecture 5. Basic Models. Synchronization Criterion
Lecture 6. Basic Models. Chaotic Oscillators.
Lecture 7. Basic Models. Phase Oscillators
Lecture 8. Kuramoto Transition.
Lecture 9. Synchronization in Electrical and Mechanical Oscillators.
Lecture 10. Methods of Stability Analysis in Synchronized Systems.
Lecture 11. Experimental Study of Synchronization in an Ensemble of Coupled Electronic Oscillators
Lecture 12. Modern Trends and Applications of Synchronization of Self-Oscillating Systems

 

Video lessons

 

Lesson 1. Brief introduction to the spacecraft https://youtu.be/hsOeZzw9zX8

Lesson 2. Launch of spacecraft  https://youtu.be/JzugmhQtOIk

Lesson 3. Planning the UniSat Project https://youtu.be/JzugmhQtOIk

Lesson 4. Main functions and components of the UniSat space system https://youtu.be/WBd_zWeb9TA

Lesson 5. Development of the flight mission of the UniSat space system https://youtu.be/dJCSgpvnQS0

Lesson 6. Power supply system: design basics https://youtu.be/Hmf-esBs8gU

Lesson 7. Power supply system: main functions https://youtu.be/QBzqJcY7d5Q

Lesson 8. Communication protocol https://youtu.be/J5e12At8cP4

Lesson 9. UniSat Ground Segment https://youtu.be/p853F77DLLs

Lesson 10. Designing the structure of a satellite https://youtu.be/9VnqRrDV-GA

Lesson 11. Testing, building and launching  https://youtu.be/UNGJPC__UEg