SU1181091A1 - A.c.voltage-to-d.c.voltage converter - Google Patents

Abstract

AC VOLTAGE VOLTAGE CONVERTER, containing a six-phase valve bridge, a three-phase transformer, the main secondary windings of which are wired with an intermediate branch, and additional windings, each of which is connected between the main phase winding of the subsequent phase and the input of the ventilation bridge, which are separate, there are separate windings. in order to improve energy performance by eliminating low-frequency harmonics and reducing the amplitude of the pulsations, part of the main windings between the initial (final) terminals and the intermediate taps are connected in a triangle, and the final (initial) outputs of these windings are connected to the corresponding inputs of the valve bridge, and the additional windings are connected in accordance with the main ones, each of which has the number of turns from the final (initial j) output to the outlet (L the number of turns of the additional winding and refers to the number of turns of the entire main winding, as iT. sin 1.

Description

about 1 The invention relates to a conversion technique and can be used in power sources of electrical and electronic systems. The purpose of the invention is to improve the energy readings by eliminating low-frequency harmonics and reducing the amplitude of the pulsations. FIG. 1 is a circuit diagram of a converter; in fig. 2 - vector voltage chart. The converter contains a three-phase transformer 1, the primary windings connected to phases A, B of the three-phase mains. The secondary windings of the transformer are connected to a six-phase valve bridge 2 with valves 3-14. A load 15 is connected to the DC terminals. The transformer contains the main secondary windings a, X., C with Zj, completed with taps, respectively, a ,, bj, Cj, and the additional windings of the main cells of the secondary windings. connected to each other in a triangle Additional secondary windings are connected respectively to the taps bj, Cj, and, in accordance with part of the turns of the main windings of the subsequent phases. The final outputs a, bi, with the main and a, b, a, c - additional windings are connected to the inputs of the valve bridge 2. The number of turns of each of the additional windings ajX2, BDU, CjZj is equal to the number of turns of the turns of the main windings and 91 is in relation to the number of turns of the entire main winding as V2 sin 15 °: 1. The curve of the rectified voltage at the load 15 is formed by a symmetrical twelve-phase voltage system (Lig.2): In this case, one six-phase voltage system is formed by the voltage of the entire main winding of one phase and the voltage of a part of the main winding after discharging the previous phase, and another six-phase system shifted by 30 el.grad. with respect to the first, it is also created by the entire winding of one phase and the voltage of the additional winding of the subsequent phase. For example, the voltage is formed by the geometrical addition of the voltages +, and the next one, after it through 30 electrical degrees. stress is obtained by geometrically adding the stress. Ua., C + Ucjbj. In accordance with the indicated order of alternation of voltages, the load current 15 flows through the valves: 4-5-4-11-4-7-10-7-6-7-6-6-6-12-3-8-3 -3-8-9-8-5-14-5. The duration of the current flow through the valves 3-8, connected to the final terminals a., Bj, from the main windings is 90 el. Degrees, and through the valves 9-14, connected; to the terminals Aj, b, Cj of the additional windings, 30 el.grad.

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Claims (1)

AC VOLTAGE CONVERTER TO CONSTANT, containing a six-phase valve bridge, a three-phase transformer, the main secondary windings of which are made with an intermediate tap, and additional windings, each of which is connected between the tap of the main winding of the subsequent phase and the input of the valve bridge, which differs in that the goal of improving energy performance by eliminating low-frequency harmonics and reducing the amplitude of the ripple, part of the main windings between the initial (final) conclusions and intermediate primary branches are connected in a triangle, and the final (initial) terminals of these windings are connected to the corresponding inputs of the valve bridge, while the additional windings are connected according to the main ones, each of which the number of turns from the final (initial ^) terminal to the branch is equal to the number of turns of the additional winding and refers to the number of turns of the entire main winding, as Y5 sin 15 ^e : 1.