SU62083A1 - Device for removing a family of electronic lamp characteristics - Google Patents

Description

The subject of the invention is a device for capturing a family of electronic tube characteristics with an electronic oscilloscope. According to the invention, for automatic charging of the bias capacitor of the control grid by the same value for each period, a thyratron is included in the anode circuit of the test lamp, and a thyratron and a kenotron are included in the grid circuit.

The invention is illustrated in the accompanying drawing, which shows the electrical circuit of the device.

The device works as follows.

Let at some point in time the potential on the secondary winding // of the transformer on the left side (on the side connected to aHOj the house of the tiratron T) has a positive sign. Then, at a certain value of this potential, Ti Tiratron in the anode circuit of the test lamp L. Therefore, a positive voltage will be applied to the anode of the lamp under study and a current will flow through the lamp, which will increase with increasing voltage applied. We assume that at this time the lotus of the control grid L / gi is 0. At the same time, the potential had a positive value on the left side of the winding /// and there was no current through the kenotron K.

In the second half of the period, the sign of the potentials on the winding.x // and / I will change to reverse, and no current will pass through the test lamp JJ, and the current goes through the kenotron K in the direction indicated by the arrow and charges capacitor C so that the plate A capacitor connected to the control grid of the test lamp will have a negative potential equal to AL / gi, which is determined by the capacitance of the capacitor C and the temperature of the catothode of the kenotron.

In the third half-period, the anodic circuit of the test lamp becomes conductive again, and the kenotron in the grid circuit does not conduct any current and potential on capacitor C and on the control grid of the test lamp remains constant for the half-period.

MO 62083-2 -

In the fourth half period, the anodic circuit of the lamp under test is locked again, and the kenotron in the grid circuit again passes a certain amount of electricity, almost equal to that which was passed in the second half period, due to the high voltage of the winding ///, and the capacitor is charged another value, equal to - A, Ugi, therefore, the capacitor will now be charged to a potential difference equal to -2DO 1 With some potential difference on the capacitor C, the thyratron Ha in the control grid of the test grid, the lamp will turn on and the capacitor once Dietz to zero.

The current in the anode circuit of the test lamp passes through the resistance Ria and creates a voltage drop across it, which is applied to the vertical deflection plates of the electronic oscilloscope.

The horizontal deflection plates of the electron oscilloscope are supplied from the resistor Rua with a voltage proportional to the anode voltage of the test lamp.

The oscilloscope electron beam, following this voltage, simultaneously describes one, another, ... fifth, tenth, etc., characteristic that the eye sees as a whole family, onto the light of the oscilloscope screen.

Such a scheme makes it possible to remove a large number of characteristics of an electron tube; with a feeding frequency of more than 50 2t {, these possibilities increase even more. At a frequency of 50 Hz, the number of characteristics in one family is quite sufficient for practical purposes.

The accuracy of the characteristics is determined by the quality of the parts, especially the quality of the capacitor C, and the magnitude of the voltage on the winding /// of the transformer. In the circuit of the capacitor C is included milliammeter tL, and in the circuit of the grids of the test lamp voltmeter V.

Item from Gain

A device for removing a family of characteristics of an electron lamp using an electron oscilloscope, characterized in that for automatically charging the control grid bias capacitor by the same amount for each period, the tirathron is included in the anode circuit of the test lamp thyratron and kenotron.

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