SU1483399A1 - Correlational radiometer - Google Patents

Abstract

The invention relates to measurement techniques on microwave and m. used in radio astronomy. The purpose of the invention is to improve the accuracy of measurements and ensure the possibility of measuring the angle of polarization. The radiometer contains antenna 1, polarization divider 2, microwave amplifiers 5.6, multiplier 7, low pass filter 8. To achieve the goal, two modulators 3.4 were introduced, two measuring channels 9.10, each of which consists of a quadratic detector 11, a low-frequency amplifier 12, a synchronous detector 13, a low-pass filter 14, and a sum-difference unit 15 and g -p 16 modulation frequency. The determination of the values of T ₁ , T ₂ and ϕ of the received antenna radiation is carried out at three output voltages after preliminary calibration of the radiometer with the source of reference radiation. 1 il.

Description

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The invention relates to a technique for measuring on microwave and can be used in radio astronomy.

The aim of the invention is to improve the measurement accuracy and to ensure the possibility of measuring the polarization angle.

The drawing shows an electrical structural diagram of a correlation radiometer.

The radiometer contains antenna 1, polarizer splitter 2, first and second modulators 3 and 4, first and second microwave teachers 5 and 6, multiplier 7, first low-pass filter 8, first and second measuring channels 9 and 10 Each of which consists of a quadratic detector 11, a low-frequency amplifier 12, a synchronous detector 13, a second filter 14 and a modulation frequency.

The correlation radiometer works as follows.

The measured arbitrarily polarized signal, having orthogonal components EI and E-) with corresponding noise temperatures TI and 1h and a polarization angle φ, is received by antenna 1 and divided into two orthogonal components Ui and LJ2 2 polarizations (Ui E | COS p4- -tEaSimp; Lb Eisimp-E2coscp). Further, the components Ui and U.) are modulated by modulators 3 and 4, amplified by microwave amplifiers 5 and 6, multiplied by multiplier 7, and averaged by the first low-pass filter 8, the average value of the output voltage (T | -T2) Sin2cp, where A is a proportionality coefficient.

At the same time, the components Ui and LU from the outputs of microwave amplifiers 5 and 6 in the two ideal measuring channels 9 and 10 are detected by quadratic detectors 11 amplified by low-frequency amplifiers 12, detected by synchronous detectors 13, filtered by second low-pass filters 14, and passing through the total differential block 15 creates a voltage (T | + Ta) and X (Ti-T2 Xo5f,) at its outputs, where B is the proportionality coefficient.

Rectangular alternating voltage (square wave) for the operation of modulators 3 and 4 and synchronous detectors 13 measuring

channels 9 and 10 is removed from the output of the modulation frequency generator 16.

The sought values TI, T2 and φ of the measured signal received by antenna 1 are determined by the values Vi, V2 and Oz with known values of A and B, which are determined by preliminary calibration of the radiometer by the source of the reference noise radiation.

Claims (1)

Invention Formula A correlation radiometer containing a serially connected antenna and a polarization separator, serially connected a first microwave amplifier, a multiplier and a first low pass filter, the output of which is the first output of the radiometer, a second microwave amplifier whose output is connected to the second multiplier input, differing in that, in order to increase the accuracy of measurements and enable measurement of the polarization angle into it, a first modulator was introduced, the input of which is connected to the first output of the polarization separator, the output is with the input of the first microwave amplifier, the second modulator, whose input is connected to the second output of the polarization divider, and the output to the input of the second microwave amplifier, the first and second measuring channels, each of which consists of a series-connected quadratic detector, input which is the input of the measuring channel, the low-frequency amplifier, the synchronous detector and the second low-pass filter, the output of which is the output of the measuring channel, the total differential unit, the first and second inputs of which are connected The outputs are respectively the outputs of the first and second measuring channels, and the first and second outputs are respectively the second and third outputs of the radiometer, the modulation frequency generator, the output of which is connected to the control inputs of the first and second modulators, as well as the second inputs of synchronous detectors The first and second measuring channels, and the inputs of the first and second measuring channels are connected to the outputs of the first and second microwave amplifiers, respectively