SU1290080A1 - Device for signalling interface of transient media - Google Patents

Abstract

The invention relates to microwave radio technology and allows for improved operational reliability. Depending on the position of the boundary or the properties of the medium, a series of pulse signals of corresponding amplitude is selected on the load resistor 5, which is modulated with a modulation frequency equal to the frequency of fluctuations of the reflecting surface. The output voltage of amplifier 9 is proportional to changes in the properties of the interface. Filter 7 divides the signal into two components: one with a frequency whose amplitude is determined by the position of the interface between media with different electrophysical characteristics, which is fed to the indicator, and the second with the frequency caused by the fluctuations of the interface arriving antiphase to diode 1, it eliminates the modulation obtained by temporal and spatial fluctuations of the interface between the media. The indicator device receives information about the true position of the interface or about the properties of the medium. 1 il. § (L t N9 00

Description

one

The invention relates to ultra-high frequency radio engineering and can be used to indicate the interface between non-stationary (dynamic) media with different total conductivities, to determine the electrophysical properties of materials, such as liquids or bulk loads moving in high-pressure pipelines, where cavitation cavities are possible or unavoidable and non-laminar (fluctuating) flows.

The purpose of the invention is to increase operational reliability.

The drawing shows a functional diagram of the device.

A semiconductor diode 1 placed in a waveguide resonator 2 formed by a waveguide 3 and a short-circuit piston 4 and loaded at the A – B media interface is connected via a load resistor 5 to the output of a differential amplifier 6, to the inverting input of which is connected an input I of the separation filter 7, and a source 8 of a pulse voltage is connected to a non-inverting input. The non-inverting input of the differential amplifier 9 is connected to the load resistor 5, and the inverting input to the resistors 10 and 11 and the non-inverting input of the differential amplifier 6. The input II of the separation filter 7 is connected to the output of the differential amplifier 9. The output of the separation filter 7 is connected to the indicator 12.

The device works as follows. When a voltage is applied to a diode I from a source 8 of a pulse voltage with a pulse frequency F and a semiconductor diode is excited, and in the resonator 2, an ultra high frequency signal is generated, which is supplied to the media interface or isomeric medium with spatial and temporal fluctuations reflecting surface, the electrophysical parameters of which must be determined. Depending on the position of the boundary or the properties of the medium, which are a load for the microwave generator, a sequence of pulse signals of the corresponding amplitude is selected on the load resistor 5, which is modulated

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in amplitude with a modulation frequency Fj equal to the frequency of fluctuations of the reflecting surface. From the load resistor 5, the signal is fed to the non-inverting input of the differential amplifier 9. To isolate this signal, a sequence of common-mode pulses from a 10-pulse source is fed to its inverting input, the amplitude of which is controlled by resistors 10 and 11 to the level of the average in the sequence of pulses removed from resistor 5. Therefore, the output voltage

15, amplifier 9 is proportional to changes in interface properties. A cross-section filter 7 divides the signal into a component with a frequency F whose amplitude is determined by the position

20 of the interface of media with different electrophysical characteristics (useful signal), which is supplied to the indicator, and the component with frequency FJ, due to fluctuations of the interface (parasitic modulation), which is fed to the inverting input of the differential amplifier 6, is amplified and the antiphase enters the semiconductor 30 diode 1, eliminates the modulation of the conductivity of the Gunn diode, due to the temporal and spatial fluctuations of the interface between the media or the reflecting boundary of the isomeric medium.

35 Therefore, the indicator device receives information about the true position of the interface or about the properties of the medium, which increases the operational reliability and extends the function-.

40 rational possibilities, since it allows the control of non-stationary environments, which is not achieved using known devices of similar purpose.

45

Formula of invention

An alarm device. The interface of non-stationary media, containing a microwave generator consisting of a microwave resonator with a semiconductor diode connected to a source of pulsed power supply, and an indicator that, in order to increase operational reliability It is additionally equipped with a splitter filter, two differential amplifiers, two

control resistors and a load resistor - and the indicator is connected to the output of a separation filter, the first input of which is connected to the inverting input of the first differential amplifier, the output of which is connected to a load resistor connected to the semiconductor diode, the second input of the separation filter is connected to

Editor T. Miteiko Order 7888/35

Tehred L.Oleinik

Circulation 714 VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d.

Production and printing company, Uzhgorod, st. Project, 4

the second control resistor and the output of the second differential amplifier, the non-inverting input of which is connected to a semiconductor diode, and the inverting input through the first control resistor is connected to the non-inverting input of the first differential amplifier connected to a pulse voltage source.

Proofreader M. Sharoshi Subscription

Claims (1)

Claim A non-stationary media interface signaling device containing a microwave generator, consisting of a microwave resonator with a semiconductor diode connected to a pulsed voltage supply source, and an indicator that is equipped with an additional feature to increase operational reliability a separation filter, two differential amplifiers, two control resistors and a load resistor ¹ , and the indicator is connected to the output of the separation filter, the first input of which о is connected to the inverting input of the first differential amplifier, the output of which is connected to a load resistor connected to the semiconductor diode, the second input of the isolation filter is connected to the second regulating resistor and the output of the second differential amplifier, the non-inverting input of which is connected to the semiconductor diode 5, and the inverting input through the first control resistor is connected to a non-inverting input of the first differential amplifier connected to a pulse source for 10 p shreds.