SU951150A1 - High-voltage pulse cathode ray oscilloscope - Google Patents

Description

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The invention relates to an electric measurement NIR technique and can be used in recording and measuring pulsed high voltages.

The closest to this invention in technical terms is a high-voltage pulse cathode-ray oscilloscope containing a cathode-ray tube, in a vacuum envelope of which a beam-forming system with a circular output diaphragm, two divergent vertical deflection plates and horizontal deflection plates are installed, the source power supply, compensation voltage measurement unit and input switch, the outputs of which are connected to the outputs of the first row of plate sections Vertical, departing 1.

A disadvantage of this device is the low accuracy of measurement of pulse voltages, which decreases with increasing voltage level, as well as low measurement performance due to the need for photographic recording of oscillograms and their subsequent processing.

The purpose of the invention is to improve the accuracy and performance of pulse voltage measurements.

This goal is achieved due to the fact that in a high-voltage pulsed electron-beam oscillograph containing an cathode-ray tube, in a vacuum envelope of which a beam-forming series are sequentially installed (a circular output diaphragm plate, two divergent rows of vertical deflection plate sections and a horizontal deflection plate, supply voltage, a compensated voltage measuring unit and an input switch, the outputs of which are connected to the terminals of the first row of sections of vertical deflection plates, an electron The o-ray tube is provided with a dividing plate connected to the output diaphragm of the beam-forming system at two diametrically opposite points and located between the tube axis and the second row of vertical deflection plastics sections, the output of the section closest to the output diaphragm of the row being connected to the positive pole of the power source and the conclusions of the remaining sections to the output of the compensation measurement unit of the voltage GIN.

The drawing shows the structural diagrams of the device.

The device consists of a cathode-ray tube, in the vacuum shell of which a beam-forming system 1 with a steep diaphragm is installed, the first row of sections 2–4 vertical deflection plates, the second row of sections 5–7 vertical deflection plates, 8 horizontal deflection plates, separator plate 9, a power supply 10, a voltage compensation measurement unit 11, and an input switch 12.

The device works as follows. The electron beam emerging from the orifice of the exit diaphragm of the beam-forming system 1 is split by a separating plate 9 into two beams having a semicircular cross-section. The first beam is used to reproduce the entire pulse voltage on the CRT screen, and the second is used to reproduce its peak and compensate voltage measurement. For this purpose, the first beam is directed to the zone of the field deflecting sections 2-4, and the second beam is deflected by the field of the positively charged section 5 to the area of the field deflecting sections 6 and 7, to which the measured pulse voltage is supplied from the compensation voltage measurement unit 11 voltage and adjustable constant voltage in opposite polarity. If the maximum value of the measured pulse voltage and the constant compensating voltage is equal, the image of the pulse peak on the tube screen coincides with the zero lichen of the second beam. The value of this compensating voltage is measured by the voltmeter I of block 11. Exact alignment of the zero line of the second beam with the zero mark of the tube's grid is achieved by adjusting the bias voltage on the plate 5

The device allows pulse voltage measurements to be measured visually along with their recording, which improves measurement performance. The measurement accuracy, determined by the relative resolution of the tube and independent of the non-linearity of the deviation, increases and increases with increasing level I of the measured stresses.

Claims (1)

The invention has a high-voltage pulsed electron-beam oscilloscope containing a cathode-ray tube, in a vacuum envelope of which a beam forming system with a circular output diaphragm, two divergent rows of vertical deflection plates and a horizontal deflection plate, a power supply unit, a unit for measuring voltage measurement and an input switch, the outputs of which are connected to the terminals of the first row of sections of a vertical deviation plate, characterized in that To improve the accuracy and performance of pulsed voltage measurements, the cathode ray tube is equipped with a separator plate connected to the output diaphragm of the beam-forming system at two diametrically opposite points and located between the tube axis and the second row of vertical deflection plate sections, the output of the section closest to the output diaphragm A row is connected to the positive pole of the source of a titanium, and the terminals of the remaining sections are connected to the output of the compensation and voltage measuring unit. Sources of information taken into account in the examination 1. USSR author's certificate number 5535 Cl. G 01 R, 13/20, 1975 (prototype).