![]() Resonant Mode Converter Topologies - Additional Topics Zero Voltage Switching Resonant Power ConversionĪverage Current Mode Control of Switching Power Supplies Placing Leakage and Wiring Inductances in the High Frequency Circuit Model SEM700 (1990) High Power Factor Preregulator for Off-Line Power Supplies Magnetic Amplifier Control for Simple, Low-Cost, Secondary Regulation SEM600 (1988)ġ MHz 150W Resonant Converter Design Review The Right-Half-Plane Zero - A Simplified Explanation The Effects of Leakage Inductance on Multi-Output Flyback CircuitsĬoupled Filter Inductors in Multi-Output Buck RegulatorsĪ 300W, 300KHz Current-Mode Half-Bridge Converter with Multiple Outputs Practical Considerations in Current Mode Power Supplies Power Conversion Design Guide SEM500 (1986) Simulation of Switching Power Supply Performance Using the Personal Computerĭesign Review: 150 Watt Current-Mode Flyback Switching Power Supply Design Review - 60 Watt Flyback RegulatorĪppendix II: Effective RL and C in the Feedback Loop SEM400 (1985)Ĭurrent-Mode Control of Switching Power Suppliesĭesign of Flyback Transformers and Filter Inductors SEM300 (1984)Īppendix A: Error Amplifier and Compensation Network DesignĪppendix C: Flyback-Discontinuous Inductor Current-Direct Duty Cycle Cont. Here you will find seminar books from 1984 till present. Over time they have covered virtually all important switching power supply design topics and their archives provide excellent reference info for the SMPS designers. They combine tutorial review of basic principles and “hands-on” design examples on various power conversion topics. Design properly damped multi-stage input filters.Texas Instruments (formerly Unitrode) seminars are part of TI analog technical training during which they also update on their new controllers and other power management integrated circuits.Design properly damped single-stage input filters.Understand input filter design principles based on attenuation requirements and impedance interactions.Understand conducted electromagnetic interference (EMI) and the need for input filter.Techniques of Design-Oriented Analysis (ECEA 5706)Īfter completing this course, you will be able to:.Averaged-Switch Modeling and Simulation (ECEA 5705).Introduction to Power Electronics (ECEA 5700).We strongly recommend students complete the CU Boulder Power Electronics specialization as well as Courses #1 (Averaged-Switch Modeling and Simulation) and #2 (Techniques of Design-Oriented Analysis) before enrolling in this course (the course numbers provided below are for students in the CU Boulder's MS-EE program): You will be able to design properly damped single and multi-section filters to meet the conducted EMI attenuation requirements without compromising frequency responses or stability of closed-loop controlled power converters. After completion of this course, you will gain an understanding of issues related to electromagnetic interference (EMI) and electromagnetic compatibility (EMC), the need for input filters and the effects input filters may have on converter responses. ![]() This is Course #3 in the Modeling and Control of Power Electronics course sequence. This course can also be taken for academic credit as ECEA 5707, part of CU Boulder’s Master of Science in Electrical Engineering degree.
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