SU1145406A1 - Device for short-circuit protection of high-garmonic-pass filter - Google Patents

Abstract

DEVICE FOR PROTECTION AGAINST SHORT CIRCUIT FILTER OF HIGHER HARMONICS from several in each phase parallel connected circuits from a series connected reactor, capacitor and switch, containing in each parallel circuit an individual protection unit. - to the first input of the individual protection unit, the output of the last - to the disconnecting input of the switch of the corresponding parallel circuit, characterized in that, in order to increase the reliability of devices and by simplifying it, a voltage transformer common for said parallel circuits was additionally introduced into it in each phase, in each of said parallel circuits the position sensor of the switch and the key connected to it, the input of which is connected to the common transformer output The output to the second input of the corresponding control unit (L mute individual protection block, and the third inputs of the mentioned individual protection blocks are combined and connected to the output of the common voltage transformer. 4 ;:: l

Description

The invention relates to electrical engineering, in particular, to relay protection and signaling, and can be used to protect high harmonic filters of converter stations for direct current transmission, drives for large rolling mills, arc steel-smelting furnaces. Static compensators -. A device for protecting the harmonic filter OJ is known. The disadvantage of this device is low reliability when changing the filter operation mode. The closest to the present invention is a device for protection of the harmonics filter, consisting of several filter compensating circuits, each of which contains a high-voltage switch connected in series, a reactor and a capacitor battery containing each a filter-compensating circuit connected in parallel to a capacitor battery; a voltage transformer whose output is connected to the first input individually The second protection block, the second and third blocking inputs of which are connected to the output of the voltage transformer connected to the phase voltage, and the output of the individual protection block is connected to the control input of the high voltage switch 2j. The device has a proportional increase in the transformers connected the filter is applied to a phase when applied in multiphase filters with several filter filters used in each phase. The purpose of the invention is to increase the reliability of the device by simplifying it,. To achieve this goal, in the device for protection against short circuits; o closing the filter of the highest harmonics from several in each phase of parallel connected circuits from sequentially switched on reactor, a capacitor of the switch and a switch, containing in each parallel circuit an individual protection unit and voltage transformer, input which is connected to the capacitor, the output is to the first input of the individual protection unit, the output of the last is to the disconnecting input of the switch of the corresponding parallel circuit, additionally 062 days in each phase a voltage transformer common for the said parallel circuits, in each of said parallel circuits a position sensor of said switch and a switch connected to it, the input of which is connected to the output of the common voltage transformer, the output to the second input of the corresponding said individual protection unit , and the third inputs of the UPSsmm of individual protection units are combined and connected to the output of a common voltage transformer. The drawing shows a diagram of the device DP protection filter harmonic single phase. The harmonic filter in each phase contains several parallel circuits, consisting of each switch 1 (2.3) with a block contact 4 (5.6), reactor 7 (8.9), and a capacitor 10 (11.12). In each of the parallel circuits, an individual transformer 13 (14,15) of the voltage to which the individual block 16 (17,18) of protection is connected is parallel to the capacitor (or parts of its elements). A common voltage transformer 19 is also connected to individual protection blocks, the first input of each of which 20 (21.22) is used to connect a circuit from an individual voltage transformer. To the second input 23 (24, 25) of the individual protection unit, to the third input 26 (27,28) and to its output 29 (30,31) are connected, respectively, the key 32 (33,34), the output of the common voltage transformer and the disconnecting input switch of the corresponding parallel filter circuit. The individual protection block consists of an adder 35, a filter model 36, a blocking body 37, a differentiating block 38, a rectifier 39, a responsive 40 and a logical 41 blocks, as well as an executive body 42. The device operates as follows. In the normal mode of the high harmonic filter operation, the switches 1-3 of the parallel phased compensating circuits are turned on, the block contacts 4-6 and the keys 32-34 are closed. If there is no damage in the filter-compensation circuit voltage 3nne from the capacitor 12 battery (or its parts) supplied by transformer 15 to input 22 of individual protection unit 18, it is compensated by the voltage supplied from transformer 19 output through filter model 36 to adder 35. The voltage at the output is different. The block 38 is much smaller than the setpoint of the reacting authority 40, and the latter does not work. During the breakdown of capacitors in battery 12 or coil short circuit in reactor 9, the voltage across the battery changes by the magnitude of the voltage change at the same speed. This change in voltage on a capacitor battery 12 or part of it leads to the appearance of a pulse with a short front in a compensated signal at the output of sum 35 and a large pulse amplitude at the output of differentiating unit 38. This signal, passing through the rectifier 39, causes the responding the actuator 40 and the action through the logic block 41 to the actuator 42, which acts on the switch-3, which turns off the filter I 64 the rock-compensating circuit, while the block contact 6 and the associated with it key 34 at the entrance 25 of the individual block 18 protection. Thus, at the inputs 22 and 24 of the block 18 of the protection signals are missing and it does not give out false information. When damage occurs in other filter-compensating circuits, the corresponding individual protection blocks 16 and 17, the block contacts 4 and 5 of switches 1 and 2, and the keys 32 and 33 also work in a similar way. B when the voltage on the capacitor battery 12 changes its voltage is due to a change voltage on the filter phase, that is fixed by the transformer 19, the locking member 37 is activated and blocks the operation of the individual protection unit 18. Similarly, the lock works in the individual blocks 16 and 17 protection. The proposed device allows reducing the number of high-voltage measuring transformers connected to the phase voltage, which simplifies the device.

Claims (1)

DEVICE FOR PROTECTION FROM SHORT 'HIGH HARMONIC FILTER' short circuit of several in each phase parallel-connected circuits of series-connected reactor, capacitor and switch, containing in each parallel circuit individual protection unit. And voltage transformer, the input of which is connected to the capacitor, the output is to the first input of the individual protection unit, the output of the latter to the tripping input of the switch of the corresponding parallel circuit, characterized in that, in order to increase the reliability of the put device In order to simplify it, a voltage transformer common to the mentioned parallel circuits is additionally introduced in each phase, in each of the mentioned parallel circuits the position sensor of the mentioned switch and the key connected to it, the input of which is connected to the output of the common voltage transformer, the output to the second input of the corresponding the said individual protection unit, and the third inputs of the said individual protection units are combined and connected to the output of a common voltage transformer. U9) .SU (1) 1145 406 f