VIDEO SERIES
Designing a low-EMI power supply
As electronic systems become increasingly dense and interconnected, reducing the effects of electromagnetic interference (EMI) is becoming an increasingly critical system design consideration. EMI can no longer be an afterthought, as it can cause significant setbacks late in the design phase that cost both time and money. TI offers multiple features and technologies to mitigate EMI in all of the frequency bands of interest. Our devices and technologies can help designers not only improve filter size and cost but also reduce design time and complexity. To help you design a more efficient power supply that meets EMI requirements, start here with our comprehensive training series where we first provide the fundamentals of EMI and then dive deeper into the specific IC and package innovations, design tips regarding external component selection and layout and conclude with application-specific EMI topics.
Introduction to EMI
Presenter(s)
Resources
Topics
The fundamentals of EMI (2)
Reducing EMI through IC and package innovations (7)
Package optimization – HotRod™ and Enhanced HotRod QFN™
00:04:53Optimizing pinout and pin placement to mitigate EMI in your power supply design
00:03:50Reducing high-frequency EMI with integrated capacitors
00:05:30Improving EMI with true slew rate control
00:05:22Utilizing Dual-Random Spread Spectrum to improve EMI performance
00:06:29Reducing filter size and cost with an active EMI filter
00:07:16Pass CISPR 25 Class 5 without metallic shielding or common-mode choke
00:08:58Reducing EMI through input filter design, PCB and BOM optimization (5)
Layout tips for radiated EMI reduction in your designs
00:07:12Engineer It: Leverage TI’s online toolbox to tackle EMI before touching a soldering iron
00:24:13Understanding EMI and mitigating noise in DC/DC converters
00:34:51Engineer It: How to achieve great EMI performance with a non-synchronous converter
00:10:43Flyback transformer design considerations of efficiency and EMI
00:38:01Application-specific EMI considerations (5)
Optimizing automotive DC/DC converter designs for EMI and thermals
00:45:16How to design input EMI filters for an automotive DC/DC converter
00:11:29Automotive EMI reduction techniques, applications, and solutions
00:48:42Leveraging spread spectrum and slew rate control in automotive DC/DC converter designs
00:09:56Designing low EMI power converters for industrial and automotive systems
00:42:15Designing a low-EMI power supply
The fundamentals of EMI (2)
Reducing EMI through IC and package innovations (7)
Package optimization – HotRod™ and Enhanced HotRod QFN™
00:04:53Optimizing pinout and pin placement to mitigate EMI in your power supply design
00:03:50Reducing high-frequency EMI with integrated capacitors
00:05:30Improving EMI with true slew rate control
00:05:22Utilizing Dual-Random Spread Spectrum to improve EMI performance
00:06:29Reducing filter size and cost with an active EMI filter
00:07:16Pass CISPR 25 Class 5 without metallic shielding or common-mode choke
00:08:58Reducing EMI through input filter design, PCB and BOM optimization (5)
Layout tips for radiated EMI reduction in your designs
00:07:12Engineer It: Leverage TI’s online toolbox to tackle EMI before touching a soldering iron
00:24:13Understanding EMI and mitigating noise in DC/DC converters
00:34:51Engineer It: How to achieve great EMI performance with a non-synchronous converter
00:10:43Flyback transformer design considerations of efficiency and EMI
00:38:01Application-specific EMI considerations (5)
Optimizing automotive DC/DC converter designs for EMI and thermals
00:45:16How to design input EMI filters for an automotive DC/DC converter
00:11:29Automotive EMI reduction techniques, applications, and solutions
00:48:42Leveraging spread spectrum and slew rate control in automotive DC/DC converter designs
00:09:56Designing low EMI power converters for industrial and automotive systems
00:42:15