SU1282024A1 - Method of determining spectral density of noise power of gaseous-discharge microwave valves - Google Patents

Abstract

This invention relates to metrology. The purpose of the invention is to increase the accuracy of determination and reduce the time of determination. The essence of the method lies in the fact that the spectral density of the noise power (SPMS) is determined by calculating by an empirical formula through a current that is an individual characteristic of a gas discharge lamp and is uniquely associated with the SPMS. The magnitude of the current is determined using a milliammeter and an oscilloscope. For this, a form of ion oscillations of a gas discharge plasma is observed on the oscilloscope screen,. affecting the anode current of a gas discharge lamp. If the current is reduced, it passes through a critical point at which periodic (coherent) ion; oscillations are replaced by chaotic incoherent (noise), and the critical current value is measured with a milliammeter. Then the formula is calculated SPMS. § (L

Description

11282024

The invention relates to metrology and can be used in the control of gas discharge lamps at the factory, with the grading of microwave generators of gum in calibration laboratories at various times, with single element certification of noise generators in research laboratories x.

The purpose of the invention is to increase accuracy and reduce time.

The method for determining the power spectral density of the noise of the microwave discharge lamps is implemented as follows.

The spectral density of the noise power (SPMA) is determined not by directly measuring its frequency, but by calculating using an empirical formula through a current that is an individual characteristic of the gas discharge lamp i. and unambiguously associated with the SPMS. The magnitude of the current is determined with the aid of a milliammeter and an oscilloscope, for which

reference pads of this type, d1, is the change in current, uN is the corresponding change in CID-ffll.

The method is implemented as follows. The power supply unit of the test gas discharge lamp sets the maximum discharge current (on the order of 250 mA) and heats the gas discharge lamp for 12 minutes. An image of regular periodic oscillations of the anode current, the frequency of the first harmonic of which ranges from 1.0 to 100 kHz, is observed on the oscilloscope screen (the signal is removed from the resistance supplied to the anode circuit of the lamp, the resistance value is 10 m). Then, the discharge current is smoothly reduced to a value at which the oscillogram changes abruptly — a noise signal appears on the screen. Measure value

15

20

in the formula. Formula

Claims (1)

On the oscilloscope screen, the shape of this current is calculated and CIMfJ is calculated from the prion oscillations of the gas discharge plasma, the influence of the anodic current of the gas discharge lamp, gradually reducing the current. The formula of the invention passes through a critical point at which periodic (coherent) ion oscillations are replaced by chaotic incoherent (noise) ones, and the value of the critical current is measured with a milliammeter. The formula associating SPMS with critical current is 35 The method of determining the power spectral density of the noise of gas-dischargeable lp5. RFW, consists in supplying a gas-discharge voltage lamp to the anode, characterized in that which changes the shape of its modulation, and the power spectral density of the noise Nj is determined by the formula N, C, -b-C (q- I,). where N is the target value С1ЖШ (with current Ij); 40 I is the registered anode current of the test gas discharge lamp; -, -. C, C, C are constants representing the characteristics of a reference | 45 lamp recorded in its passport, namely the C 1 - CIMil reference lamp; С „is the critical current of the reference lamp; C. - steepness of the characteristics -  . U JL t (j Editor N. Margolin Compiled by R.Kuznetsova Tehred L. Serdyukova Order 7260/42 Circulation 730. Subscription VISHPI USSR State Committee for Inventions and Discoveries .113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 at once reference pads of this type, d1, is the change in current, uN is the corresponding change in CID-ffll. The method is implemented as follows. Include. The power supply unit of the test gas discharge lamp sets the maximum discharge current (on the order of 250 mA) and heats the gas discharge lamp for 12 minutes. An image of regular periodic oscillations of the anode current, the frequency of the first harmonic of which ranges from 1.0 to 100 kHz, is observed on the oscilloscope screen (the signal is removed from the resistance supplied to the anode circuit of the lamp, the resistance is 10 m). Then, the discharge current is smoothly reduced to a value at which the oscillogram changes abruptly — a noise signal appears on the screen. Measure value This current is calculated using the CIMfJ formula. Formula    Formula of formula of invention The method of determining the power spectral density of the noise of gas-dischargeable lp5. RFW, consists in supplying a gas-discharge voltage lamp to the anode, characterized in that which changes the shape of its modulation, and the power spectral density of the noise Nj is determined by the formula N S. .- С, (С - 1кЬ 1 - registered anode current; - passport parameters of the reference lamp. 2 Corrector S.Cherni