Power Electronics (Converter Control) Full Course

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👉 👉{ This Specialization contain 4 Courses, This video Covers course number 3,
Other courses link is down below,

⭐️(1,2) Introduction to Power Electronics , Converter Circuits
⭐️(3) Converter Control

This course teaches how to design a feedback system to control a switching converter. The equivalent circuit models derived in the previous courses are extended to model small-signal ac variations. These models are then solved, to find the important transfer functions of the converter and its regulator system. Finally, the feedback loop is modeled, analyzed, and designed to meet requirements such as output regulation, bandwidth and transient response, and rejection of disturbances.

⭐⭐⭐⭐🕑TIME STAMP📋⭐⭐⭐⭐⭐

👉Converter control

👉AC EQUIVALENT CIRCUIT MODELING
0:00:00 Introduction to AC Modeling
0:28:15 Averaged AC modeling
0:36:25 Discussion of Averaging
0:51:31 Perturbation and linearization
1:09:24 Construction of Equivalent Circuit
1:21:15 Modeling the pulse width modulator
1:31:40 The Canonical model
1:51:48 State Space averaging

👉CONVERTER TRANSFER FUNCTIONS - PART 1
1:54:16 Introduction to Design oriented analysis
2:07:42 Review of bode diagrams pole
2:33:10 Other basic terms
2:41:45 Combinations
3:02:33 Second order response resonance
3:20:47 The low q approximation
3:30:07 Analytical factoring of higher order polynimials

👉CONVERTER TRANSFER FUNCTIONS - PART 2
3:46:25 Analysis of converter transfer functions
4:02:48 Transfer functions of basic converters
4:13:12 Graphical construction of impedances
4:32:35 Graphical construction of parallel and more complex impedances
4:49:54 Graphical construction of converter transfer functions

👉CONTROLLER DESIGN
5:05:15 Introduction
5:26:41 Construction of closed loop transfer Functions
5:37:35 Stability
5:58:51 Phase margin vs closed loop q
6:19:10 Regulator Design
6:38:35 Design example
6:56:50 AMP Compensator design
7:25:57 Another example point of load regulator

⭐ Important Notes ⭐
⌨️ This course is created in collaboration with university of colorado boulder

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Requirments of power electronics,
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  1. My Lesson
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Комментарии
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{ This Specialization contain 4 Courses, This video Covers course number 3,
Other courses link is down below,

(1, 2) Introduction to Power Electronics, Converter Circuits
t.ly/NK1h

(3) Converter Control
(4) Magnetics for Power Electronics Converter t.ly/bnUH }

TIME STAMP

Converter control

AC EQUIVALENT CIRCUIT MODELING
0:00:00 Introduction to AC Modeling
0:28:15 Averaged AC modeling
0:36:25 Discussion of Averaging
0:51:31 Perturbation and linearization
1:09:24 Construction of Equivalent Circuit
1:21:15 Modeling the pulse width modulator
1:31:40 The Canonical model
1:51:48 State Space averaging

CONVERTER TRANSFER FUNCTIONS - PART 1
1:54:16 Introduction to Design oriented analysis
2:07:42 Review of bode diagrams pole
2:33:10 Other basic terms
2:41:45 Combinations
3:02:33 Second order response resonance
3:20:47 The low q approximation
3:30:07 Analytical factoring of higher order polynimials

CONVERTER TRANSFER FUNCTIONS - PART 2
3:46:25 Analysis of converter transfer functions
4:02:48 Transfer functions of basic converters
4:13:12 Graphical construction of impedances
4:32:35 Graphical construction of parallel and more complex impedances
4:49:54 Graphical construction of converter transfer functions

CONTROLLER DESIGN
5:05:15 Introduction
5:26:41 Construction of closed loop transfer Functions
5:37:35 Stability
5:58:51 Phase margin vs closed loop q
6:19:10 Regulator Design
6:38:35 Design example
6:56:50 AMP Compensator design
7:25:57 Another example point of load regulator

MyLesson
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Martin Michelle Johnson Gary Lopez William

LloydBates-tx
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Hola, querría informar de lo que parece un error.
En el video (3:57:00) aparece la expresión G(d0) y en el denominador tiene D´ elevado a 2. Después, en la diapositiva numero 80 del capitulo 8 aparece expresado sin elevar a dos esa D´. ¿Cuál de las dos expresiones es la correcta?

Además, en los 3 videos de todo el curso, cuando se llega a las 3 horas de video, la traducción simultanea desaparece. ¿Podrían mirar si hay algún error con la edición del video o algo así? Es muy ventajoso tener subtítulos traducidos a nuestro idioma para entender con mas detalle estas clase.

Muchas gracias por el esfuerzo y por este maravilloso material. Saludos

DaniDes
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Thank you so much for such a clear explanation and your effort. It is very helpful.

Derdinekederalayinagider
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Wow, if only we hard Lecturers like him this world could be the best for power electronics

OnlyOneDee
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4:49:27 Shouldn't series equivalent be the larger of the two?

utsavv
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Thanks very much. Please, can you share Coursera weekly quiz solutions.
Thanks!

obinnaonodugo
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Many thanks dear Professor, very helpful series. I just found an error at about 4:49:30, the impedance for RL part, the equivalent impedance should be R at low frequency.

esijal