Single Inductor Multiple Output Switching Dc Dc Converters : Free Programs, Utilities and Apps4/8/2016 Article Library > Voltage- and Current-Mode Control for PWM Signal Generation in DC-to-DC Switching Regulators. An adjustable switched-mode power supply for laboratory use. A switched-mode power supply (switching-mode power supply, switch-mode power supply, switched power supply, SMPS, or switcher) is an electronic power supply that. Description. The LTC3528/LTC3528B are synchronous, fixed frequency step-up DC/DC converters with output disconnect. High efficiency synchronous rectification, in addition to a 700mV start-up voltage and operation down to 500mV. Mazda, Fraidoon. F., Power Electronics Handbook, 3rd ed., Oxford [England]: Newnes; Boston: Butterworth, 1997. 441 p. This book provides a practical guide to the design of power circuits, characteristics of power semiconductor. 16 Analog Applications Journal Texas Instruments Incorporated High-Performance Analog Products www.ti.com/aaj 2Q 2010 Power Management Designing DC/DC converters based on ZETA topology Introduction Similar to the SEPIC DC/DC.Power Electronics Books - M. Abstracts of books starting with M in the SMPS Technology Knowledge Base of Switching- Mode Power Supply Design. Donald, Inventing Accuracy - A Historical Sociology of Nuclear Missile Guidance, The MIT Press, Cambridge, Massachusetts, 1. The author's goal in this book is to throw light on a key modern technology, the guidance of ballistic missiles, as a historical product and social creation. It has implications for all technology development. Topics include: A historical sociology of nuclear missile guidance; inventing a black box; engineering a revolution; the beryllium baby and the technological trajectory; transforming the fleet ballistic missile; the Soviet Union and strategic missile guidance; the construction of technical facts; patterns in the web; epilogue, uninventing the bomb; estimating the accuracy of American and Soviet strategic ballistic missiles; the convention mathematics of attacks on point targets; and list of those interviewed. Michel, Controlling radiated emissions by design, 2nd ed. Boston, MA : Kluwer Academic Publishers, 2. Topics include: Foreword, preface, generalities on radiated interference, electric and magnetic fields from simple circuit shapes, fields radiated by nonsinusoidal sources, general strategy for designing a low- radiation product, controlling radiated emissions at chip/integrated circuit level, printed circuit board design, emission control in mother boards and backplanes, controlling radiated field from switchmode power supplies, reducing radiated EMI via internal cabling and packaging, box shielding, controlling radiation from external cables, principal radiated emission specifications & test methods, troubleshooting radiated EMI problems, appendices, references, and index., Michel, EMI troubleshooting techniques, New York : Mc. Graw- Hill, c 2. 00. A methodical approach to locating the cause of and correcting EMI/RFI breakdowns. Topics include: Brush- Up on EMI/EMC Basics, Optimal Selection of EMI Fixes, Diagnostic and Troubleshooting, Conduction Type Fixes: Capacitive and Inductive Types, Power Line Filters, Power Line Isolation Transformers, Conditioners, & UPS, Signal Line Isolation Transformers, Transient Suppressors, Grounding & Impedance Reduction Fixes, Radiation Fixes, and Practical Hints for Some EMI Measurements., Power Supply Projects, Maplin Project Series, Butterworth Heinemann, Mass., 1. Publisher's description.) Using circuit diagrams, PCB layouts, parts lists and clear construction and installation details, .. R. M. (editor), Smart Power for Power Conversion, Intertec Communications, Ventura, CA, 1. A collection of papers on computer aided power supply design. Topics include computer aided engineering; feedback control system analysis systems; power supply design software; simulation and modeling; SPICE software for the personal computer; power supply simulation software; expert systems; expert systems for power supply design., Fraidoon. F., Power Electronics Handbook, 3rd ed., Oxford [England]: Newnes; Boston: Butterworth, 1. This book provides a practical guide to the design of power circuits, characteristics of power semiconductor designs, power components and design techniques. In the new edition the sections on power and control components have been updated, the section on EMC covers the latest standards and a new section on automobile applications has been added. Topics include: Part 1: Components - power semiconductor devices; Thermal design; Power semiconductor control components; Electromagnetic compatibility; Power semiconductor circuits - a resume; Static switches; A. C. line control converters; Forced commutation techniques; D. C. to D. C. converters; D. C. link frequency changers; Part 2: Applications - power semiconductor circuit applications; Smart Power; Appendix 1: List of symbols; Appendix 2: Glossary of terms; Bibliography; Index [Source: Publisher (Elsevier) website]. F. F., Power Electronics Handbook: Components, Circuits, and Applications, Butterworth, 1. Publisher's description.) This book is a collection of information on different power components and techniques, describing the design of power circuits and the characteristics of power semiconductor devices., C. W. T., Transformer and Inductor Design Handbook, 2nd ed., Marcel Dekker, Inc., 1. This useful Second Edition gives an in- depth look at how the core geometry Kg approach affects power transformation regulation capability, transformer design, inductor energy- handling capability, gapped inductor design, and toroidal inductor design. Topics include: Fundamentals of Magnetics and the Selection of Materials for Static Inverter and Converter Transformers; Transformer Design Tradeoffs; Power Transformer Design; Simplified Cut Core Inductor Design; Toroidal Powder Core Selection With DC Current; Window Utilization Factor KU; Transformer- Inductor Efficiency, Regulation, and Temperature Rise; Inductor Design With No DC Flux; Constant- Voltage Transformer Design; Current Transformer Design; Three- Phase Transformer Design; and Magnetic Component Test Circuits., Colonel William T., Transformer and inductor design handbook, New York: M. Dekker, c 1. 97. 8. Replaced by 1. 98. Out of print but can still be found used., Colonel William T., Magnetic core selection for transformers and inductors: a user's guide to practice and specification, 2nd ed., New York: M. Dekker, c 1. 99. 7. Written as a companion to the highly acclaimed Transformer and Inductor Design Handbook, Second Edition (Marcel Dekker, Inc.). Topics include: Magnetic- Core Power- Handling Ability; Transformer Output Circuits; Transformer and Inductor Design Examples; Magnetic- Core Material Tradeoff; Conversion Data for Magnet Wire; Cased Toroids; High Flux, MPP, Sendust, Kool Mu, and Iron Powder Cords; Ferrite Cores; Laminations; C Cores; Caseless Toroids; E Cores; and PC Board Mounts/Headers and Transformer Mounting Brackets., C. W. T., Magnetic Core Selection for Transformers and Inductors: a user's guide to practice and specification, Marcel Dekker, Inc., 1. Supplements Mc. Lyman's first book. Includes expanded information on core characteristics in table form with Kg factors. Some manufacturers now make this material available on diskettes for use on personal computers. Topics include magnetic- core power handling ability, transformer output circuits, transformer and inductor design examples, magnetic core material tradeoff, conversion data for magnetic wire, cased toroids, MPP and iron powder cores, ferrite cores, laminations, C cores, caseless toroids, E cores, and transformer mounting brackets., C. W. T., Designing Magnetic Components for High Frequency DC- DC Converters, KG Magnetics, San Marino, CA, 1. Written primarily to assist the circuit designer with the design of power magnetics for different topologies used in dc- to- dc converters. There are 2. 2 design examples with step by step design procedures. Topics include: Push- Pull Converter, Weinberg Converter, Single- Ended Forward Boost Converter, Half Bridge Converter, Full Bridge Converter, Single Ended. Mag- Amp, Input Inductor, Push- Pull Output Filter, Two Transistor Forward Converter, Inverted Buck/Boost, Buck Converter, Coupled Inductor, Buck- Boost Isolated Converter, Single Ended Filter and more., Colonel William T., High reliability magnetic devices: design and fabrication, New York: Marcel Dekker, c 2. A pictorial guide to the design and fabrication of magnetic components. Topics include: A History of High Reliability Custom Magnetic Components, 1. Present; Introduction; Symbols; Transformer and Inductor Design Philosophy; Magnetic Materials; Magnetic Cores; Window Utilization, Magnet Wire, and Insulation; Coil Winding Layer, Foil, and Toroidal; Soldering and Magnet Wire Terminations; Packaging, Enclosures, Mounts, and Headers; Polymeric Impregnate, Embedment, and Adhesives; High Voltage Design Guidelines; Testing, Evaluation, and Quality Assurance; and Index. Saied (editor), Advanced Motion Control Systems, Intertec Communications, 1. A collection of papers for motion control engineers. Topics include application of advanced control algorithms; use of digital signal processors to allow real time execution of complex algorithms at a reasonably high sampling rate; use of faster, more reliable power switches; taking advantage of cost- effective, high- resolution, rugged sensors for industrial environments; microprocessor controlled industrial ac drives; adaptive control (self- tuning and MRAC approach); application of digital signal processors in motion control systems; robust control; and digital position sensors (absolute and incremental)., R. D., and Slobodan Cuk, Advances in Switched- Mode Power Conversion, Volumes I and II, 2nd Edition, TESLAco, 1. Available from TESLAco, #1. Mauchly, Irvine, CA 9. Phone (7. 14) 7. 27- 1. First edition c 1. The first two volumes in the collected papers of the Power Electronics Group of the California Institute of Technology. See Cuk for the third volume. LTC3. 52. 8/LTC3. B - 1. A, 1. MHz Synchronous Step- Up DC/DC Converters in 3mm x 2mm DFNDescription. The LTC3. 52. 8/LTC3. B are synchronous, fixed frequency step- up DC/DC converters with output disconnect. High efficiency synchronous rectification, in addition to a 7. V start- up voltage and operation down to 5. V once started, provides longer run- time for single or multiple cell battery- powered products. A switching frequency of 1. MHz minimizes solution foot- print by allowing the use of tiny, low prole inductors and ceramic capacitors. The current mode PWM is internally compensated, simplifying the design process. The LTC3. 52. 8 enters Burst Mode operation at light loads, while the LTC3. B features continuous switching at light loads. Anti- ringing circuitry reduces EMI by damping the inductor in discontinuous mode. Additional features include a low shutdown current, open- drain power good output, short- circuit protection and thermal overload protection. The LTC3. 52. 8/LTC3. B are offered in an 8- lead 3mm x 2mm x 0.
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