Back to School Savings: Save up to 30% on print books and eBooks. No promo code needed.
Back to School Savings: Save up to 30%
EMC in Power Electronics
1st Edition - April 4, 1995
Author: Laszlo Tihanyi
9 7 8 - 0 - 0 8 - 0 5 7 2 5 0 - 5
Electronics professionals will find this book invaluable when designing power equipment, because it describes in detail how to cope with the problem of electromagnetic… Read more
Save 50% on book bundles
Immediately download your ebook while waiting for your print delivery. No promo code is needed.
Electronics professionals will find this book invaluable when designing power equipment, because it describes in detail how to cope with the problem of electromagnetic interference. The author shows how to meet the exacting US and European EMC standards for conducted emissions.The book includes a wide range of EMI analysis techniques. An important focus is on the energy content of interference transient signals (traditional analysis concentrates on amplitude and frequency). This provides a more accurate picture of the EMI situation. For those who do not want or need detailed analysis techniques, many approximation methods are also provided. These simplified techniques give accurate results for all but the most stringent applications. The book contains several worked examples and an extensive bibliography, and is sure to be useful to electronic design engineers and others who need to meet international EMC regulations and standards. Laszlo Tihanyi has worked on EMC for over 20 years. Formerly Head of the Department of Power Electronics at the Hungarian Research Institute for the Electrical Industry, he focused primarily on solving EMI problems in electronic systems and developing a dimensioning method for power line filters.
Introduction; History of EMC standardisation efforts; Description of electromagnetic disturbances; Conducted EMI measurement; EMI in power electronic equipment; EMI filter elements; Noise suppression; EMI filter circuit selection and measurement; EMI filter design; Testing for susceptibility to power line disturbances; Reduction techniques for internal EMI; Transient susceptibility analysis method; Bibliography; Index