1. |
|
Lecture 01: Introdution to dc power conversion systems - I
|
Lecture 01: Introdution to dc power conversion systems - I |
|
2. |
|
Lecture 02: Introdution to dc power conversion systems - Ⅱ
|
Lecture 02: Introdution to dc power conversion systems - Ⅱ |
|
|
|
Lecture 03: Introdution to dc power conversion systems - III
|
Lecture 03: Introdution to dc power conversion systems - III |
|
3. |
|
Lecture 04: PWM converter modeling and power stage dynamics - I
|
Lecture 04: PWM converter modeling and power stage dynamics - I |
|
|
|
Lecture 05: PWM converter modeling and power stage dynamics - II
|
Lecture 05: PWM converter modeling and power stage dynamics - II |
|
4. |
|
Lecture 06: PWM converter modeling and power stage dynamics - III
|
Lecture 06: PWM converter modeling and power stage dynamics - III |
|
5. |
|
Lecture 07: PWM converter modeling and power stage dynamics - IV
|
Lecture 07: PWM converter modeling and power stage dynamics - IV |
|
|
|
Lecture 08: Dynamic performance of PWM Dc-to-Dc Converters - I
|
Lecture 08: Dynamic performance of PWM Dc-to-Dc Converters - I |
|
6. |
|
Lecture 09: Dynamic performance of PWM Dc-to-Dc Converters - II
|
Lecture 09: Dynamic performance of PWM Dc-to-Dc Converters - II |
|
|
|
Lecture 10: Closed-Loop Performance and Feedback Compensation-I
|
Lecture 10: Closed-Loop Performance and Feedback Compensation-I |
|
7. |
|
Lecture 11: Closed-Loop Performance and Feedback Compensation-II
|
Lecture 11: Closed-Loop Performance and Feedback Compensation-II |
|
8. |
|
Lecture 12: Closed-Loop Performance and Feedback Compensation-III
|
Lecture 12: Closed-Loop Performance and Feedback Compensation-III |
|
9. |
|
Lecture 13: Closed-Loop Performance and Feedback Compensation-IV
|
Lecture 13: Closed-Loop Performance and Feedback Compensation-IV |
|
|
|
Lecture 14: Midterm Project
|
Lecture 14: Midterm Project |
|
10. |
|
Lecture 15: Current mode control-functional basics and classical analysis - I
|
Lecture 15: Current mode control-functional basics and classical analysis - I |
|
|
|
Lecture 16: Current mode control-functional basics and classical analysis - II
|
Lecture 16: Current mode control-functional basics and classical analysis - II |
|
11. |
|
Lecture 17: Current mode control-functional basics and classical analysis - III
|
Lecture 17: Current mode control-functional basics and classical analysis - III |
|
|
|
Lecture 18: Current mode control-sampling effects and new control design procedures - I
|
Lecture 18: Current mode control-sampling effects and new control design procedures - I |
|
12. |
|
Lecture 19: Current mode control-sampling effects and new control design procedures - II
|
Lecture 19: Current mode control-sampling effects and new control design procedures - II |
|
13. |
|
Lecture 20: Current mode control-sampling effects and new control design procedures - III`
|
Lecture 20: Current mode control-sampling effects and new control design procedures - III` |
|
|
|
Lecture 21: Current mode control-sampling effects and new control design procedures - IV
|
Lecture 21: Current mode control-sampling effects and new control design procedures - IV |
|
14. |
|
Lecture 22: Current mode control-sampling effects and new control design procedures - V
|
Lecture 22: Current mode control-sampling effects and new control design procedures - V |
|
|
|
Lecture 23: Uncoupled converter and extra element theorem-I
|
Lecture 23: Uncoupled converter and extra element theorem-I |
|
15. |
|
Lecture 24: Uncoupled converter and extra element theorem-II
|
Lecture 24: Uncoupled converter and extra element theorem-II |
|
|
|
Lecture 25: Final Term Project
|
Lecture 25: Final Term Project |
|