A shielded voltage equalizing circuit

Abstract

The invention provides a shielded voltage equalizing circuit, which includes a main circuit and an auxiliary circuit connected in parallel with the main circuit; the main circuit includes a thyristor level equivalent circuit, a metal terminal ground capacitance and a saturated reactor equivalent circuit; the auxiliary circuit includes M π-type circuits connected in series in sequence. The technical solution provided by the present invention electrically isolates the potential fixed point of the shielding cover from the main circuit, and only allows the electrical connection between the head end of the converter valve and the shielding cover, shielding the leakage effect of the stray capacitance to the ground in the converter valve, Realized the balanced voltage distribution of large-scale series thyristors in wide frequency domain. Under the impact of steep waves, the voltage unevenness of thyristors was less than 1%, and the maximum voltage steepness was reduced to 6.8kV / μs, which can realize the key element of converter valve in wide frequency domain. The device voltage has no distortion, which improves the reliability and insulation tolerance of the components, and has strong engineering application value.

Description

technical field [0001] The invention relates to the technical field of UHV direct current transmission, in particular to a shielded voltage equalizing circuit. Background technique [0002] The converter valve is the core equipment to realize the AC-DC conversion of electric energy, and it is the "heart" of the DC project. It is very important whether it can operate reliably for a long time. There are many metal parts in the converter valve with different shapes and complex layout. There are a large number of stray capacitances between the metal parts and to the ground, and the frequency variation effect is significant. The thyristors and saturable reactors in the converter valve are strongly nonlinear. Under the action of 1200kV / μs steep wave impulse voltage, the stray capacitance of the shield will lead to uneven voltage distribution in the wide frequency range of hundreds of series thyristors and their components in the converter valve, and the unevenness will exceed 40%....

AI Technical Summary

Problems solved by technology

[0007] In order to overcome the problem that the reliability of key components in the converter valve is reduced due to the inhomogeneity of the implementation scheme of electrical stress balance of the series thyristors and their components in the domestic and foreign converter valves, the present invention starts from the electrical principle of the voltage distribution of the series thyristors under the impact voltage Based on the shock voltage distribution mechanism of the converter valve, a shielded voltage equalizing circuit is provided. By electrically isolating the potential fixed point of the shield cover from the main circuit, only the end of the converter valve head is electrically connected to the shield cover, shielding the The leakage effect of the stray capacitance to the ground in the converter valve finally realizes the balanced distribution of the voltage of the large-scale serial thyristors in the wide frequency domain. 6.8kV / μs, which can realize the voltage distortion of the key components of the converter valve in the wide frequency domain, improve the reliability and insulation tolerance of the components, and have strong engineering application value

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