Coaxial helical reentrant multiplier forming line
A helical and coaxial technology, applied in the direction of transformer/inductor coil/winding/connection, transformer/inductor parts, circuits, etc., can solve the problems of long wire size and poor practicability, and achieve core length shortening, Good practicability and easy-to-achieve effects
Active Publication Date: 2019-05-07
NORTHWEST INST OF NUCLEAR TECH
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Problems solved by technology
The stepped forming line of the Darlington circuit only needs one main switch, and the load can be connected to the stepped forming line through a series of supplementary line segments to achieve multiple voltage output, but the forming line is too long and poor in practicability, which needs to be improved
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[0024] The idea adopted by the present invention to solve its technical problem is: based on the multiple voltage principle of the Smith stepped forming line, adopting the coaxial forming line form with better insulation capacity; using non-uniform spiral wire instead of multi-stage stepped forming line to shorten the length, Promote the practical application of the stepped multiple voltage forming line theory; the integration of the transformer and the forming line can achieve a high charging voltage. The forming line is equipped with a spiral multiple voltage forming line to achieve higher voltage output, and Compact structure.
[0025] The preferred mode of the present invention will be described in detail below with reference to the accompanying drawings.
[0026] The coaxial spiral reentry multiple pressure forming line structure includes three parts: forming line, main switch and load. The forming line is composed of an outer cylinder 1, a middle cylinder 2, a spiral inner c...
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Abstract
The invention belongs to the technical field of pulse power, and relates to a coaxial helical reentry multiple-voltage forming line for solving the problem that the charging ability of a pulse transformer restricts a pulse power device from generating a higher voltage. The coaxial helical reentry multi-voltage-multiplying forming line comprises three main parts: an outer line of the forming line, a helical reentry inner line and a main switch, wherein the helical reentry inner line contains a plurality of helical line segments with different pitches. The coaxial helical reentry multiple-voltage forming line provided by the invention has the beneficial effects that (1) the coaxial pulse forming line adopts a helical reentry structure to output a multiple-voltage, the structure is simple, and the implementation is easy; (2) the coaxial helical reentry multiple-voltage forming line provided by the invention breaks through the limited charging ability of the pulse transformer and propels the pulse power device to development the direction of a higher voltage; and (3) the coaxial helical reentry multiple-voltage forming line provided by the invention breaks through the charging ability of the built-in transformer, and replaces a transformer oil medium with low energy storage density with a solid medium with high energy storage density, and the miniature development of the pulse power technology of the built-in transformer can be promoted.
Description
Technical field [0001] The invention belongs to the technical field of pulse power, and relates to a coaxial spiral reentry multiple pressure forming line. Background technique [0002] Russia's Sinus series high-voltage pulse generators use compact technology that integrates a high-coupling transformer with an open-circuit magnetic core and a coaxial forming line. The charging amplitude of the built-in transformer mainly depends on the insulation capacity of the formed wire, that is, the radial size of the formed wire determines the charging capacity of the built-in transformer. The transformer is placed inside the forming line and integrated, which greatly improves the charging capacity, and the transformer charging amplitude of the Sinus generator reaches the MV level. After all, the output capacity of the high-voltage pulse transformer is limited, and the process of large-scale magnetic cores and coils is difficult. The magnetic performance of the magnetic core and the insul...
Claims
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IPC IPC(8): H03K3/53H01F27/28
CPCH01F27/2823H01F2027/2833H03K3/53
Inventor 潘亚峰张喜波刘胜王刚王俊杰王利民孙旭樊旭亮李鹏辉范红艳
Owner NORTHWEST INST OF NUCLEAR TECH