MATLAB | Design SEPIC Controllers for Robustness @MATLAB | Uploaded February 2024 | Updated October 2024, 1 week ago.
Learn how to design a digital controller for a SEPIC (single-ended primary-inductor converter) that satisfies design requirements while being robust to variations in passive component values. See how to use sensitivity analysis to identify passive components of the SEPIC circuit that have the highest impact on controller performance. Learn how to use optimization techniques to tune controller gains so that the design meets requirements even as passive component values vary.
Check out all of the videos in this series: youtube.com/playlist?list=PLn8PRpmsu08qdiAW-Z4xUZ5sE4v7GK3fv
Learn more:
- Speed Up Digital Control Design of DC-DC Converters with Simulink: bit.ly/2kt4wvp
- Design Optimization for Robustness to Model Component Tolerances: bit.ly/3HB7oxf
- How to Develop DC-DC Converter Control in Simulink (6 videos): bit.ly/3RefHm7
- MATLAB and Simulink for Power Conversion Control: bit.ly/48vDN40
- Take the Quiz: How Much Do You Know About Power Electronics Control Design?: bit.ly/3S3LoQq
- Join the Power Electronics Control Design Community: bit.ly/2ZY7NCq
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Learn more about MATLAB: goo.gl/8QV7ZZ
Learn more about Simulink: goo.gl/nqnbLe
See what's new in MATLAB and Simulink: goo.gl/pgGtod
© 2024 The MathWorks, Inc. MATLAB and Simulink are registered trademarks of The MathWorks, Inc.
See mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.
Learn how to design a digital controller for a SEPIC (single-ended primary-inductor converter) that satisfies design requirements while being robust to variations in passive component values. See how to use sensitivity analysis to identify passive components of the SEPIC circuit that have the highest impact on controller performance. Learn how to use optimization techniques to tune controller gains so that the design meets requirements even as passive component values vary.
Check out all of the videos in this series: youtube.com/playlist?list=PLn8PRpmsu08qdiAW-Z4xUZ5sE4v7GK3fv
Learn more:
- Speed Up Digital Control Design of DC-DC Converters with Simulink: bit.ly/2kt4wvp
- Design Optimization for Robustness to Model Component Tolerances: bit.ly/3HB7oxf
- How to Develop DC-DC Converter Control in Simulink (6 videos): bit.ly/3RefHm7
- MATLAB and Simulink for Power Conversion Control: bit.ly/48vDN40
- Take the Quiz: How Much Do You Know About Power Electronics Control Design?: bit.ly/3S3LoQq
- Join the Power Electronics Control Design Community: bit.ly/2ZY7NCq
--------------------------------------------------------------------------------------------------------
Get a free product trial: goo.gl/ZHFb5u
Learn more about MATLAB: goo.gl/8QV7ZZ
Learn more about Simulink: goo.gl/nqnbLe
See what's new in MATLAB and Simulink: goo.gl/pgGtod
© 2024 The MathWorks, Inc. MATLAB and Simulink are registered trademarks of The MathWorks, Inc.
See mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.
