SU813319A1 - Device for determination partial bit position - Google Patents

Description

(54) DEVICE FOR DETERMINING THE PLACE OF PARTIAL DISCHARGES

The invention relates to electrical engineering and technology of high voltage i and is intended for the study and analysis of high voltage electrical insulation. A device for determining the location of partial discharges is known, containing a series-connected acoustic sensor, amplifier and measuring device (voltmeter or Oscilloscope) C}. The drawback of the device is that the acoustic sensor can be installed only in objects with a large insulation volume near grounded electrodes so that the sensor itself does not affect the electric field in the insulation. Therefore, such a device is typically used in oil-full transformers. The sound background in transformers is confusing the measurement of partial bits and creates considerable difficulties in determining the location. partial bits The closest in technical essence to the proposed. is a device for determining partial bits, comprising an amplifier and a register of 1.21; The disadvantage of this device is the low accuracy of determining the location of partial discharges. The purpose of the invention is to increase the reliability of determining the location of partial discharges. The goal is achieved in that a device for determining partial discharges containing an amplifier and a recording unit is inserted into a differential unit for converting the intensity of pulses of partial discharges into voltage, and the input of the differential unit for converting the intensity of pulses of partial discharges into voltage is connected to the output of the amplifier the input of the recording unit. In addition, the differential unit for converting the intensity of partial discharge pulses to voltage contains frequency-analogue prabindication of positive and negative pulses, amplitude pulse detectors, multiplication units, a measuring unit, and the inputs of analog-frequency converters of positive and negative pulses and amplitude pulse detectors are connected to the input

a differential block for converting the intensity of pulses of partial bits to voltage, the input of each of the frequency-anshredovy converters of positive and negative pulses is connected to the first input of the corresponding multiplication unit, and the output of each of the amplitude pulse detectors is connected to the second input of the corresponding multiplication unit; connected to the corresponding inputs of the measuring unit whose output is connected to the output of the differential unit the intensity of the pulses of partial discharges into the voltage.

The drawing shows the functional diagram of the device.

The device consists of an amplifier 1 connected to a recording unit 2, a frequency-analog converter 3 positive pulses, an amplitude detector 4 negative pulses, a frequency-analog converter 5 negative pulses and an amplitude detector b positive pulses, a differential generator block 7 converting the intensity of partial bits of blocks 8 and 9 multiplications associated with the differential meter 10.

The device works as follows.

The partial-discharge pulses of the positive and negative polarity are amplified by amplifier 1 and, from the output of the amplifier, are fed simultaneously to recording unit 2 for visual observation, to frequency-analog converters 3 and 6 and amplitude detectors 4, positive and negative pulses. In frequency analog transducers x 3 and 6, the selection of pulses occurs in polarity, the limitation in amplitude and the conversion of the average number of pulses per second into analog voltage. B-amplitude detectors

4 and 5, the pulses are selected by polarity and the amplitude of the pulses is transformed into an equivalent slow voltage. From the output of the frequency-analog converter 3 positive pulses and from the output of the amplitude detector 4 negative impulses 4 voltages are fed to the multiplication unit 8, and

from the outputs of other similar units

5 and. 6 the voltages are fed to the multiplication unit 9. Thus, it turns out that the greatest stress

in terms of the frequency of the pulses and the highest voltage in amplitude combined into one channel, and the lowest voltages in frequency and amplitude combined in another channel. The difference between the voltage and voltage obtained at the outputs of blocks 8 and 9 of multiplication is measured by a differential measuring device 10, the deviation of the arrow to the right or left indicates to which electrode the pore adjoins. As a measuring device 10, you can use a recording device. The use of a self-recording device, for example, H3020-1, allows one to obtain information on the dynamics of partial discharges and the development of insulation destruction towards one of the electrodes. Partial discharge measurement is used in the development of high voltage products. Along with partial dimensions measurements during the production of high-voltage products, partial discharges can be measured under their operating conditions for the purpose of preventive control, in which the potential possibility of an emergency can be identified.

The use of the proposed device allows obtaining additional information for a detailed analysis of test results and, by eliminating the identified shortcomings in the process of developing and manufacturing high-voltage products, will improve the quality of the insulation and these increase their reliability and service life.

The device can be used in the field of transformer construction, capacitor construction, cable industry, as well as for testing electric machines, etc.

Claims (2)

1. A device for determining the location of partial circuits containing an amplifier and a recording unit, in order to increase the reliability of determining the location of partial discharges, a partial unit for converting the intensity of pulses of partial discharges into a voltage is introduced into it, and the input of the differential unit The conversion of the intensity of the pulses of the partial discharges to the voltage is connected to the output of the amplifier and the input of the recording unit. 2. The device according to claim 1, characterized in that the differential unit for converting the intensity of pulses of partial discharges to voltage contains frequency-analog converters of positive and negative pulses, amplitude pulse detectors, multiplication blocks, measuring unit, the inputs of frequency-analog converters of positive and negative pulses and amplitude pulse detectors connected to the input of a differential unit for converting the intensity of pulses of partial discharges into voltage, the output of each of the frequency-analog transducers of positive and negative pulses are connected to the first input of the corresponding multiplication unit, and the output of each amplitude pulse detectors connected to the second input of the respective bo bloka peremnozheni-, outputs blocks transferred. The multiplications are connected to the corresponding inputs of the measuring unit, the output which is connected to the output of a differential unit converting the intensity of pulses of partial discharges into voltage. Information sources; taken into account when expert; tizv 1. US Patent, 3728619, cl. 324-52, 21 ,. 2. Technique of high voltage. ed. Kostenko., M., Energie, 1973, p. 509 (prototype).