Bsu university pulse radio
Electrically Driven Wideband Sources for Equipment Vulnerability Tests Proc. Radio-frequency radiation from FCG with a capacitive load Euro_Asian Pulsed Power Conference 2012Ī.A.Gurinovich, V.G.Baryshevsky et al. A Compact Repetitive High Power Microwave (HPM) Source ANTEM / AMEREM July 5-9, 2010 Ottawa, CanadaĪ.A.Gurinovich, V.G.Baryshevsky et al. IET European Pulsed Power Conference 2009 A compact high power microwave (HPM) source Proc. Wide range frequency tuning in vacuum electronic devices European Microwave Week 2003 The moving short circuit compresses the magnetic field, generating an intense electric current, which can be converted to high voltage pulse This creates a short circuit, cutting the stator off from its power supply. The explosion travels as a wave through the middle of the armature cylinder.Īs the explosion makes its way through the cylinder, the cylinder comes in contact with the stator winding. Baryshevsky FCG OperationĪn initial magnetic field is generated inside FCG.Ī fuze mechanism ignites the explosive material. We have developed physical and mathematical models, computer simulation, designing, manufacturing and experimental studies of flux compression generators of different types. This is accomplished in a compact and lightweight package (from 5 to 100 kg).
BSU UNIVERSITY PULSE RADIO GENERATOR
The explosive flux compression generator is a device which can transform the energy of explosion to peak electric energies of MegaJoules in tens to hundreds of microseconds of time.
The Digital Content, Design, Sales, and Web/IT teams support these two media outlets. Explosive Flux Compression Generators (FCG) University Pulse Radio provides students an opportunity to engage with audiences by allowing them to give their diverse perspectives in music, campus culture, and localized views of wider topics on a reliable platform.