SU362248A1 - Calorimetric microwave wattmeter - Google Patents

Description

one

The invention relates to the field of measurement technology, in particular to the field of radiometry at microwave.

Calorimetric microwave wattmeters of an isothermal TKPA are known, containing a load surrounded by a two-phase crystalline substance used as a filler of the indicator device, a device for thermostating and calibration.

However, the known wattmeters have insufficient speed and accuracy of measurement.

In order to increase accuracy and speed, an ultrasonic transducer was introduced into the area of the nanofiller of the proposed wattmeter for the vibration treatment of a mass of crystalline filler.

The drawing shows the design of the proposed wattmeter.

The proposed calorimetric microwave oven contains a copper waveguide 1, consisting, in turn, on the left, on the output side, of a pipe made of a material with low thermal conductivity, such as stainless steel, and on the right, of a serial copper waveguide pipe with an absorber 2 inside it and pairing with the left low heat pipe of the cooling chamber 3, surrounding the outside of the absorber 2; preheater 4 for heating the device, preheater 5 calorimeter calibration, preheater 6 automatic zero care compensation, preheater 7 automatically adjusting the temperature constant near the phase transition temperature of the calorimetric substance, preheater 8, elastic diaphragm 9, for example rubber diaphragm, indicator colored liquid 10, capillary 11, scale / 2, ultrasonic transducer 13, fed from the generator 14 ultrasonic vibrations, the housing 15, two-phase calorimetric substances 16 and tubes 17 for supplying and discharging coolant.

5 The proposed wattmeter works as follows.

The power of microwave oscillations, dissipated in the absorber 2 absorptive load of the wattmeter, heats the segment of the copper waveguide /

0 and the calorimetric crystalline substance 16, preheated and in two phases: solid and liquid, as a result, possible regions of phase transitions are connected into one hydraulically connected system. The microwave energy supplied to the calorimeter, having converted to thermal energy, will lead to the melting of a part of the crystalline substance 6, the volume of which varies, the diaphragm 9 bends, resulting in

0 the meniscus of the indicator liquid 10 in the capillary // moves by a certain number of graduations of the scale 12. With the sensitivity of the calorimeter, you can easily determine by the number of divisions the microwave energy supplied to the calorimeter, and knowing the effect time of the microwave oscillations, dividing the energy by the exposure time, we obtain the power value Microwave

In order to intensify the crystallization process, an ultrasonic transducer 13 serves. Ultrasound accelerates and improves the course of crystallization by improving the mixing of the calorimetric substance 16 by increasing the probability of the appearance of crystalline layers. Due to the high efficiency of the ultrasonic action, an increase in the accuracy and speed of the power meter is achieved. As ultrasonic transducers, piezoelectric, magnetostrictive and other tins of ultrasonic emitters can be used.

The operation of a calorimetric wattmeter is possible with both multi-temporal and simultaneous replacement of the power by the microwave power of direct current. A cooling liquid, such as water, can flow into chamber 3, which is used for simultaneous replacement, but in such a way and in such a quantity that the meniscus of the indicator liquid 10 into the cannel 11 can always be on some constant division of the scale 12, which allows There is no need to combine the microwave power with the power of the direct current.

The proposed calorimetric power meter can use in radio measuring technology for accurate measurement of microwave power.

Subject invention

The calorimetric microwave power meter is isothermal type, containing a load surrounded by a two-phase crystalline.m substance used as a filler indicator device, thermostating and calibration device, characterized in that, in order to improve measurement accuracy and speed of the meter, the ultrasonic transducer is inserted into the filler region for vibration mass treatment

crystalline filler.

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