UA21034U - Radiometer with zero indication - Google Patents

Abstract

The proposed radiometer with zero indication contains a symmetrical circulator, attenuator, two signal mixers, a modulating signal generator, a heterodyne, a noise signal generator, an intermediate-frequency signal amplifier, a demodulator, two synchronous detectors, two low-pass filters, an analog-to-digital converter, a displaying unit, and a switching unit. The input of the circulator is connected to the output of the antenna of the radiometer, and the first output is connected to the corresponding input of the switching unit. The output of the first synchronous detector is connected to the displaying unit via the first low-pass filter. The output of the noise signal generator is connected to the corresponding input of the switching unit via the attenuator. The second output of the circulator is connected to the input of the second mixer. The output of the second mixer is connected to the inputs of the intermediate-frequency signal amplifier, demodulator, second synchronous detector, and second filter. The output of the second filter is connected to the corresponding input of the analog-to-digital converter. The output of the converter is connected to the control inputs of the modulating signal generator and synchronous detectors. The output of the heterodyne is connected to the corresponding input of the first mixer.

Description

Description of the invention

The useful model refers to passive radar, namely to the technique of measuring radioluminescence 2 temperatures of thermal radiation and can be used in the study of the atmosphere, earth and water surfaces.

The known zero modulation radiometer |1|, made according to the single-channel switching conversion scheme, which includes an antenna, an antenna equivalent (an antenna equivalent noise generator), a switch, a receiver that includes a microwave amplifier, a microwave mixer, an intermediate frequency amplifier, a quadratic 70 detector , a low-frequency amplifier, a synchronous detector, a reference frequency generator, the output of which is connected to the control input of the synchronous detector and the switch, and the other input of the synchronous detector is connected to the reference noise generator.

The disadvantage of the known zero modulation radiometer is the low accuracy of radio brightness temperature measurement, taking into account the frequency dependence of the transmission coefficient of the waveguide path, which leads to the occurrence of an error signal at the output of the radiometer.

Also known is a zero radiometric device |2) for measuring the physical temperature of the investigated objects using radiothermolocation, containing an antenna connected to the first input of the switch connected in series with the first mixer, the first intermediate frequency amplifier, the first detector, the first synchronous detector and indicator, the first noise generator, the output of which is connected to the second input 20 of the switch, the modulation frequency generator, the first output of which is connected to the control input of the switch, and the second output to the reference input of the first synchronous detector, as well as the local oscillator is connected to the first input of the second mixer To increase the sensitivity of the radiometric device at a constant passband of the intermediate frequency amplifier, a serially connected local oscillator and a second mixer, the second input of which is connected to the output of the local oscillator, and a weighting filter, the output of which is connected to the second input 22 of the first mixer, are introduced into the device. At the same time, the frequency r of the local oscillator is determined under the condition that 2 ZA is the bandwidth of the intermediate frequency amplifier.

АРЕплпч «г 30 Low sensitivity should be attributed to the disadvantage of the known design of the zero radiometric device chosen as a prototype, since during the calibration of the radiometer, the radio brightness temperature is not measured. at

The goal of this invention is to increase the accuracy and sensitivity of the radiometer with a constant bandwidth of the intermediate frequency amplifier and its continuous calibration. "- 35 The solution to the given problem is achieved by the fact that in the zero radiometric device containing the antenna, the sch is connected to the first input of the switch connected in series with the first mixer, the first intermediate frequency amplifier, the first detector, the first synchronous detector and indicator, the first generator of noise, the output of which is connected to the second input of the switch, the modulation frequency generator, the first output of which is connected to the control input of the switch, and the second output - to the reference input of the first synchronous detector, as well as « 70 Heterodyne, connected to the first input of the second mixer , according to this technical solution, the device also contains a U-circulator, an attenuator, a second noise generator, a second intermediate frequency amplifier, a second detector, a second synchronous detector, the first and second low-pass filters, as well as an analog-to-digital converter, 1" with' connected to the indicator, and the antenna is connected to the switch through the U-circulator, the first synchronous detector is connected to the ind icator in series Through the first low-pass filter connected to the first INPUT 45 of the analog-to-digital converter, the second noise generator is connected to the third input of the switch 7 through an attenuator, the second output of the Y-circulator is connected to the input of the second mixer, the output of which is connected in series to the second amplifier intermediate frequency, the second detector, the second synchronous detector, the second low-pass filter, the output of which is connected to the second input of the analog-to-digital converter, the output of the analog-to-digital converter is connected to the control inputs of the modulation frequency generator, the first and 5r of the Second synchronous detectors, the local oscillator is connected to the second input of the first mixer, the first output of the modulation frequency generator is also connected to the reference input of the second synchronous detector, and the second

T" output is connected to the control input of the attenuator.

The solution to the problem is also achieved by the fact that the device also contains the first and second low-frequency amplifiers, and the first detector is connected to the first synchronous detector through the first low-frequency amplifier, and the second detector is connected to the second synchronous detector through the second low-frequency amplifier. c The technical result, which is achieved due to the introduction of distinctive features, is the insensitivity of the device to thermal noise, which allows to increase the accuracy and sensitivity of the radiometer due to its continuous calibration without loss of measurement time. The connection of the first detector with the first synchronous detector through the first low-frequency amplifier, and the second detector with the second synchronous detector through the second low-frequency amplifier allows to improve the compensation of temperature and other instabilities of the radiometer.

Therefore, these signs are classified as additional.

The structural electrical diagram of the proposed technical solution is presented in the drawing (Fig. 1), and the amplitude-frequency characteristic of the device is shown in the diagram (Fig. 2). ve The null radiometric device is made according to the scheme of two-channel switching conversion and consists of serially connected antenna 1, U-circulator 2, switch Z, the first mixer 4, the first intermediate frequency amplifier 5, the first detector b, the first low-frequency amplifier 7, the first synchronous detector 8 , the first low-pass filter 9, the analog-to-digital converter 10 and the indicator 11. The device also includes the first noise generator 12, the output of which is connected to the second input of the switch 3, the second noise generator 13, connected to the first input of the attenuator 14, the output of which is connected with the third input of the switch 3, the modulation frequency generator 15, the first output of which is connected to the control input of the switch

C, and the second output is connected to the reference input of the first synchronous detector 8 and the second input of the attenuator 14.

The second output of the U-circulator 2 is connected in series with the second mixer 16, the second intermediate frequency amplifier 17, the second detector 18, the second low-frequency amplifier 19, the second synchronous detector 20, and the second low-frequency filter 21, the output of which is connected to the second analog input differential converter 10. The device also includes a local oscillator 22, the output of which is connected to the second inputs of the first mixer 4 and the second mixer 16. The first output of the modulation frequency generator 15 is connected to the reference input of the second synchronous detector 20. The output of the analog-to-digital converter 10 is connected also with the control inputs of the modulation frequency generator 15, the first 8 and the second 20 synchronous detectors.

A null radiometric device works like this.

Thermal radio radiation from the object enters antenna 1 and further to the first and second channels of the radiometer.

The switch 3, controlled by the modulation frequency generator 15, continuously connects the first 12 and the second 13 noise generators to the inputs of the first 4 and the second 16 mixer. The local oscillator signal 22 is also applied to the mixer. The signals are converted and amplified by the first 5 and second 17 intermediate frequency amplifiers at the mixers.

The internal calibration of the first and second channels of the radiometer is carried out by superimposing on the measured signal noise calibration signals from the first 12 and second 13 noise generators, which the switch C, controlled by the modulation frequency generator 15, alternately connects to the first 4 and second 16 mixers, respectively. Receivers of the superheterodyne type, which include a microwave mixer, a heterodyne, an intermediate frequency amplifier and a detector, perform the functions of converting and amplifying an information signal.

Commutator Z is made according to the balance scheme based on its U-circulator. In order to prevent information loss (the measured signal Tya), a continuous calibration mode is provided at the output of the second synchronous detector 18. Analog signals from the outputs of the first 8 and second 20 synchronous detectors pass through the analog-to-digital converter (ADC) 10, which is an integral part of indicator 11, the first and second inputs are received and processed. To ensure the processing of measurement results in a real time scale, a service signal with a voltage of 0-5 volts is sent to the indicator 11 through the ADC 10, which carries information about the state of the radiometer and operating modes. As a result, depending on the task of research (land cover, water surface, o atmosphere), its attenuation level (the level of the reference signal Thx) is set, and the own radiation of the p-i-p attenuator in the closed state is used as To. --

The reference signal Tx is provided by a transistor noise generator with a low value of the noise temperature of the output signal, called in foreign sources "soMeg|Z". The noise generator is a cascade with an output field-effect transistor with a Schottky barrier (FET), the output of which is a transistor gate circuit .

The noise generated by this device is thermal in nature. As a result, its power is stable, and the spectrum is uniform in a wide frequency band. "

As can be seen from the diagram (Fig. 2), the division of the general range of accepted frequencies (dashed line 1) into two sub-ranges (2) and (3) reduces the frequency dependence of the transmission coefficient of the waveguide path and, thereby, increases the accuracy of measurements. )» Thus, the totality and sequence of the given conditions for performing measurement operations of the radio brightness temperature and the introduction of additional elements and new connections in the claimed zero modulation device ensures the achievement of the possibility of measuring weak signals at the level of 10 7 W with increased sensitivity by 4095 and accuracy increased by 3095 compared to the known state of the art. z List of literature taken into account when preparing the application: 1. "Radio telescope and radiometer!", N. Esenkin, D. V. Korolkov, Y. N. Pariysky, M., "Nauka", 1973, p. 257-258 . aw! 2. AS USSR Mo1146610, cl. 501K29/08, publ. 23.03.85 (prototype). 3. Rgaseg K., UMShatvzv O., "Asiime "Soi|d" doshsgve oi poiize", IEEEE Tapz, 1981, M. MTT-29, Mo4, p.344.

Mami 4. AS USSR Mo1686389, cl. 501K29/08, publ. 23.10.91

Article 5. Declaration patent of Ukraine for utility model Mo9354, cl. 501K29/08, publ. 15.09.2005 6. Application for a patent of the Russian Federation for an invention Mo2003115658, cl. 501K29/08, publ. 20.11.2004 7. Patent of the Russian Federation for the invention Mo2235340, cl. 501K29/08, publ. 27.08.2004 8. Patent of the Russian Federation for the invention Mo2220426, cl. 501K29/08, publ. 27.12.2003 9. Patent of the Russian Federation for the invention Mo2211455, cl. 501K29/08, publ. 27.08.2003 p 10. Patent of the Russian Federation for the invention Mo2187824, cl. (301K29/08, publ. 20.08.2002. 11. Patent of the Russian Federation for an invention Mo2168733, class. (301K29/08, publ. 10.06.2001. 12. Patent of the Russian Federation for an invention Mo2124213, class 12.27.1998 in 13. Patent of the Russian Federation for an invention Mo2093845, class (301K29/08, publ. 20.10.1997 14. Patent of the Russian Federation for an invention Mo2091805, class (301K29/08, publ. 27.09.1997 15. Patent of the Russian Federation for an invention Mo2073875, class (301K29/08, publ. 20.02.1997. 16. Patent of the Russian Federation for an invention Mo2022286, class c 01 K 29/08, publ. 10.10.1994. 17. "Радиотеплокоцация", A.G. Nikolaev, S.V. Pertsov, Military Publishing House of the Ministry of Defense of the USSR, 65 Moscow, 1970Og.

Claims (2)

The formula of the invention 1. A null radiometric device comprising an antenna connected to a first input of a switch connected in series 2 to a first mixer, a first intermediate frequency amplifier, a first detector, a first synchronous detector and an indicator, a first noise generator, the output of which is connected to a second input of the switch, a modulation frequency generator, the first output of which is connected to the control input of the switch, and the second output - to the reference input of the first synchronous detector, as well as a local oscillator connected to the first input of the second mixer, which differs in that the device also contains M- a circulator, an attenuator, a second noise 70 tener, a second intermediate frequency amplifier, a second detector, a second synchronous detector, first and second low-pass filters, and an analog-to-digital converter connected to the indicator, and the antenna is connected to the commutator through a U-circulator , the first synchronous detector is connected to the indicator in series through the first low-pass filter connected to p the first input of the analog-to-digital converter, the second noise generator is connected to the third input of the switch through an attenuator, the second output of the 12 V-circulator is connected to the input of the second mixer, the output of which is connected in series with the second intermediate frequency amplifier, the second detector, the second synchronous detector, the second low-pass filter, the output of which is connected to the second input of the analog-to-digital converter, the output of the analog-to-digital converter is connected to the control inputs of the modulation frequency generator, the first and second synchronous detectors, the local oscillator is connected to the second input of the first mixer, the first output of the frequency generator modulation is also connected to the reference input of the second synchronous detector, and its second output is connected to the control input of the attenuator. 2. The null radiometric device of claim 1 further comprising first and second low frequency amplifiers, wherein the first detector is coupled to the first synchronous detector through the first low frequency amplifier and the second detector is coupled to the second synchronous detector through the second amplifier low frequency. sho « (ze) «c) «- c - i» name) - («c) (95) c» 60 b5