Simulations Of Power Extraction Circuits For Mobile Ionospheric Heating
2017 IEEE INTERNATIONAL CONFERENCE ON PLASMA SCIENCE (ICOPS)(2017)
摘要
The resonant circuit in an Inductive Output Tube (IOT) extracts kinetic energy of the modulated electron beam converting it ti electromagnetic energy. For the application considered here, mobile low-frequency sources (3–10 MHz) for ionospheric heating, high efficiency is important, and thus class D operation is desired. The broad frequency range requires the circuit to be tunable, and the need for a constant decelerating voltage requires constant impedance [1]. This paper discusses the design and construction of a resonant circuit with a highly coupled transformer that has the above features. The design and optimization of the circuit was performed with Orcad Spice and the transformer design was designed using Cadence Autodesk Inventor and a finite element electromagnetic field solver, Maxwell 3D and HFSS simulator software.
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关键词
power extraction circuits,mobile ionospheric heating,resonant circuit,IOT,kinetic energy,modulated electron beam,low-frequency sources,high efficiency,class D operation,broad frequency range,constant decelerating voltage,constant impedance,construction,highly coupled transformer,optimization,transformer design,finite element electromagnetic field,inductive output tube,electromagnetic energy,ionospheric heating,Orcad Spice,Cadence Autodesk Inventor,finite element electromagnetic field solver,Maxwell 3D,HFSS simulator software,frequency 3.0 MHz to 10.0 MHz
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