DocumentCode
3236603
Title
Principle design of 300 KHz meco RF kicker bipolar solid state modulator
Author
Kotlyar, Y. ; Eng, W. ; Pai, C. ; Sandberg, J. ; Tuozzolo, J. ; Zhang, W.
Author_Institution
Brookhaven Nat. Lab., Upton, NY
fYear
2004
fDate
23-26 May 2004
Firstpage
250
Lastpage
253
Abstract
A high speed, high repetition rate, bipolar solid-state high voltage modulator is under development at Brookhaven National Laboratory for muon electron conversion (MECO) experiment. The modulator will be used to drive a RF kicker consisting of a pair of parallel deflecting plates. The principle design is based on the inductive-adder topology. This system requires a fast pulse rise and fall time of approximately 20 ns, a pulse width of 100ns, a pulse repetition rate of 300 kHz, and a 60 kHz sinewave amplitude modulation. Fast high voltage MOSFETs are used as main switching devices. Different magnetic materials are being investigated for the adder core magnets. The main circuit design, critical subsystems, and major technical issues will be discussed. The circuit simulation, component selection and evaluation, and preliminary test results will be presented
Keywords
amplitude modulation; circuit simulation; field effect transistor switches; magnetic cores; magnetic materials; nanostructured materials; radiofrequency amplifiers; 300 kHz; 60 kHz; Brookhaven National Laboratory; MECO; RF kicker; bipolar solid-state high voltage modulator; circuit simulation; critical subsystem; high voltage MOSFET; inductive-adder topology; magnetic materials; muon electron conversion experiment; parallel deflecting plates; sinewave amplitude modulation; switching devices; Amplitude modulation; Circuit testing; Electrons; Laboratories; Mesons; Radio frequency; Solid state circuits; Space vector pulse width modulation; Topology; Voltage;
fLanguage
English
Publisher
ieee
Conference_Titel
Power Modulator Symposium, 2004 and 2004 High-Voltage Workshop. Conference Record of the Twenty-Sixth International
Conference_Location
San Francisco, CA
Print_ISBN
0-7803-8586-1
Type
conf
DOI
10.1109/MODSYM.2004.1433556
Filename
1433556
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