Computer Science – Performance
Scientific paper
Aug 1989
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989esasp.294..361g&link_type=abstract
In ESA, European Space Power, Volume 1 p 361-366 (SEE N90-17678 10-20)
Computer Science
Performance
Coupling, Field Effect Transistors, Magnetic Switching, Metal Oxide Semiconductors, Power Converters, Magnetic Materials, Oscillators, Performance Tests, Reliability Engineering
Scientific paper
Refinements in various types of magnetic components and their synthesis in high frequency switched mode power converters, including several innovative configurations, are presented. One of these configurations effectively reduces the parasitic reset inherent in saturable-core output regulators. This is done by combining two techniques, the use of passive components, and performing the design of the saturable-core component in a multi-filar fashion such that it also performs the function of a linear transformer at the time the rectifiers go through their reverse recovery transient. Experimental results demonstrate how these techniques in the design of magnetic components can improve the performance and reliability of both the circuit elements they directly interface with and those of the overall power converter. Another novel configuration is a stable high frequency transformer oscillator with a 2-milligram saturable core. Unique matching of magnetic components and MOSFET (metal oxide semiconductors field effect transistors) devices by the oscillator is demonstrated.
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