SU1689866A1 - Device for uhf power measurement - Google Patents

Abstract

The invention relates to a technique of microwave measurements and can be used to create automated systems for measuring microwave power. The purpose of the invention is to improve the measurement accuracy. A device for measuring microwave power includes a section of a waveguide 1, a dielectric tube 2 partially filled with liquid 3 absorbing microwave power, and a biconical resonator 4. Through the communication aperture 5, the resonator 4 is excited and outputted to a frequency meter. When using a tunable biconical resonator 4 as a sensor, it is possible to refuse the additional microwave generator and excite the resonator 4 directly from the microwave path under study. 2 Il.

Description

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The invention relates to microwave measurement techniques and can be used in the construction of automated microwave power measurement systems.

The purpose of the invention is to improve the measurement accuracy,

Figure 1 shows the structure of a device for measuring microwave power; Fig. 2 shows a structural electrical circuit for switching on a device for measuring microwave power in a measuring circuit;

The device for measuring microwave power comprises a section of a waveguide 1, a dielectric tube 2 partially filled with liquid 3 absorbing microwave power, and a biconical resonator 4. Through the communication apertures 5, the resonator is excited and outputted to a frequency meter (not shown).

The switching circuit of the device for measuring microwave power comprises a device for measuring microwave power, consisting of a piece of a hollow metal waveguide 1 in which a dielectric tube 2 is located, partially filled with absorbing microwave power by liquid 3, the filled end of the tube is located in the waveguide, and another - in the working volume of the tunable biconical resonate tunable, for example, with the help of a trimmer screw 6; directional alert 7; amplitude modulator 8, low-frequency generator 9, attenuator 10, measuring device, for example, ammeter 11,

The device works as follows.

When microwave power is supplied, part of it is dissipated in the absorbing liquid 3. The liquid 3 is heated, the height of the liquid column 3 in the tube increases, until thermal equilibrium is established in the system. This leads to a restructuring of the resonator 4. By measuring the resonant frequency of the Oiconical resonator 4 with the help of a frequency meter before the application of microwave power and when it is supplied, by comparing the mx value, it is possible to judge the amount of transmitted power

Resonant oscillations in a biconical resonator are excited by an additional microwave generator. but

when using a tunable biconical resonator as a sensor, it is possible to refuse the additional microwave generator and excite the resonator directly from the microwave path under study.

In this case, the measurements are carried out as follows. First, the attenuator 10 is set to the position corresponding to the maximum suppression value. Thus, the microwave signal does not fall into a section of the waveguide in which one end of the dielectric tube 2 is located. Part of the signal through the direction of the aerator 7 falls on the coupling element of the biconical resonator 4, exciting electromagnetic oscillations in it. Using the trimmer screw b, the resonator is tuned according to the maximum of the device 11 to the operating frequency of the signal under investigation. Then the attenuator 10 is set to the minimum position and the measured signal falls into the section of the waveguide with the tube. The absorption of the microwave power liquid 3 is heated, the resonant frequency of the biconical resonator is reduced. Using a low-frequency generator 9, the maximum frequency of the device 11 is chosen such a frequency of the modulating signal O, that the frequency of the lower side component

The modulated signal a - Q coincides with the changed resonant frequency of the biconical resonator. From the magnitude of the modulation frequency, it is possible to judge the magnitude of the transmitted microwave power.

Claims (1)

Formula and Spray e :: Device for measuring microwave power, containing a waveguide length and dielectric tube partially filled with microwave absorbing fluid, one end of the dielectric tube being placed inside the waveguide, and the other passing through hole made in its wide 5 wall, as well as an indicator of the height of the liquid column, characterized in that, in order to increase the measurement accuracy, the indicator of the height of the liquid column is made in the form of a biconical resonator, along the axis 0 which is placed the other end of the dielectric tube, and the frequency meter connected to the biconical resonator. with fvSb CNJ XJ- I S a) ii iTnT