SU748817A1 - Capacitive energy accumulator - Google Patents

Description

(54) CAPACITIVE ENERGY STORAGE

The invention relates to the field of high-voltage equipment and a marker to find the name of expression in experimental physical installations to obtain a high-current gas discharge, especially for magnetic compression of the tatasma and a number of other studies where large magnetic FIELDS are required, as well as in pulsed light sources, plasma accelerators magnetohydrodynamics. The known capacitive indexer of the range is divided into separate parts, the modules of each of which contain one or more capacitors, a switch, a low-inductance error, .1 and is connected to the power source l. The use of a large number of modules T1 confuses a number of difficulties associated with SISHFASHI 3atiycKOM of all switches, which requires the creation of generators of nodiguing impulses with a fused short front (about 1, ..., 20 not) and ampno tynoA, 1.5-2 times higher than } feel the charge voltage on the Nakotttel; with a transient process in the busbar arising as a result of asynchronous operation of the switches, the over-voltage voltpl at the same time is two or more times higher than the charging voltage of the drive 5 and the failure or spontaneous operation of one of the switches, which also causes overvoltages on the drive elements. In addition, the failure of individual modules in the non-synchronous operation of switches leads to unacceptable C1 W: current in the load and incomplete use of the power of the capacitive anergy storage device. The closest in terms of circuit design and technical nature of the invention is a capacitive energy storage device containing n parallel connected modules, each of which includes a storage capacitor connected to the load via a switch and a low-inductive busbar and connected to a power source through a protective resistor 2j.

Claims (2)

.L; 3 SiESii. 3 Such a device has the above disadvantages. The benefit of the invention is to improve the reliability of a capacitive storage device. The goal is achieved by the fact that in a capacitive energy storage device that contains and in parallel connections of modules, each of which includes a storage capacitor connected to the load through a switch and a low-inductance 11U1o (the pin is connected to a power source through a protective resistor, the modules are grouped so that of each group, the capacitor of each module is electrically connected to the switches of neighboring modules. The switches of the modules of the group are arranged symmetrically to the modules connected to them .. In the drawing, the principle On the diagram of a capacitive energy storage device. The capacitive energy storage device consists of AND parallel connected modules M - I - M - n, assembled into m groups. Each module contains a capacitor 1, a switch 2 and a busbar 3, the curtain connects the module M with a load 4. Through a resistor 5, each module is connected to a power source (not shown). Several modules are grouped so that within each group the capacitor of each module is electrically connected to the switch of neighboring modules. The drawing shows the groups, oocTosmine of two modules, where the module's capacitor is electrically connected to the W-TT module switch, and the module capacitor M i is connected to the module switch M-i. The switches inside each group are located symmetrically to the modules connected to them, and the electrical connection of the capacitors of each module to the switches of the neighboring modules is made with the same trunking cable and the same DYNA. In normal operation, capacitive TV ШШ1й: 7 1шэ) ter1Ш j viMHvaa open and capacitors 1 through the torus. 5 aa p d6 nominal voltage. When an ignition pulse is applied to the switches, all capacitors charge to the load 4. If one of the Switches 2 modules in the pear fails, the capacitors 1 of this module are discharged to the load through the switches of the adjacent modules of the group, as a result, no overvoltages occur on the failed capacitor. The same length and cross-section of the cable that electrically connects the capacitor of the emergency module to the switches of the neighboring modules of the group improves the operation of the switches of the neighboring modules by regularly measuring the energy of the capacitor of the emergency module between the switches of the neighboring modules. Thus, in comparison with the known, the described capacitive energy storage due to this circuit design is more reliable in operation. Claims 1. Capacitive energy storage, containing And parallel connected modules,. each of which includes a storage capacitor connected to the load via a switch and a low-in-line bus-bar and connected to the power supply via a protective resistor, characterized in that, in order to increase the reliability of the capacitive energy storage, the modules are grouped so that within each group the capacitor is of the same module electrically connected to the switches of neighboring modules. 2. Capacity nak.pitel energy c. 1, characterized in that the switches of the modules of the group are arranged symmetrically to the modules connected to them. Sources of information taken into account in the examination 1.Komelkov B.C. Technique of large pulsed currents and magnetic fields, M., 1970, p. 349-377. 2. The patent of Germany N 1165744, cl. 21 d 3/01, 1965.