SU146366A1 - Microwave floor meter - Google Patents

Description

j) Known microwave polarimeters using a turnstile, which consists of two intersecting rectangular waveguides, with a circular waveguide and a coaxial line along the axis of symmetry from different sides, are unsuitable due to the complexity of phase measurements. To simplify the measurement process by eliminating phase measurements in the proposed device, the turnstile is made of non-orthogonal H1) 1m loaded on four detector sections, two outputs of the turnstile and a heterodyne are connected to the two outputs of the turnstile, and also a splitter field with detector sections, two differential transformers, amplifier channels are used intermediate frequency, the second is an all-polarized antenna, and a recorder is turned on at the output. On .fig. 1 shows a block diagram describing the polar field; in fig. 2 - the construction of its non-orthogonal turnstile; in fig. 3 is a vector diagram of an elliptically polarized electromagnetic wave. The investigated ultra-high frequency signal received by an all-polarized antenna / enters the non-orbit turnstile 2, which can be used as two rectangular waveguides 3, connected in the I plane in the form of a cross and located at an acute angle Rо, to the point of intersection of which is fed along the axis symmetry from different sides, a circular waveguide and a coaxial line, which serves to introduce a signal of the local oscillator 5. Non-orthogonal turnstile 2 splits an elliptically polarized wave into non-orthogonal linear components 0 and 0, the planes n L polarization which constitute an angle RA. J 1; calculate the orientation angles of the axis. Ambiguity of equalities:, then

The described microwave fieldimeter is suitable for operation with very short pulses and can be used both in laboratory and in field conditions for antenna measurements, as well as in radio astronomy and radar.

The subject is invented, and.

Microwave fieldimeter using a turnstile on two rectangular waveguides, characterized in that, in order to simplify the measurement process by eliminating phase measurements.

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0, then No. 146366 2 The signal of the local oscillator 5 enters the phase in all rectangular shoulders of the turnstile 2, and the signal under study - in antiphase - in the opposite shoulders, which makes it possible to install crystal mixers in the turnstile shoulders. After conversion to the detector sections 6, 7 of the first mixer, the intermediate frequency signal, the amplitude of which is proportional to the amplitude of the component y, is received by H; I ;;;; 1: the frequency of the transformer 8 is amplified at the amplifiers of frequency 9, and the amplitude of the signal is recorded in one of the channels of the recorder 10. Similarly, the signal of the component, from the detector section //, / of the second mixer passes through the differential transformer 13 after amplification in the amplifier / V intermediate frequency channel is recorded to another channel by itself Test 10. The investigated signal, received by the all-polarized antenna 15, splits into a right-circular polarized component of the splitter field 16, which can be, for example, a rectangular waveguide with a cross-shaped slit. On the field splitter 16, mixers are assembled, to which the signal from the local oscillator 5 is also supplied. From the output of the mixing sections 17, 18, the intermediate frequency signals of the left and right circular polarized components, amplified by the intermediate frequency amplifiers 19, 20, go to the corresponding channels of the JO recorder . Thus, the recorder 10 provides continuous simultaneous recording of the amplitudes of two linearly polarized and two circularly polarized components, which makes it possible to completely determine the polarization of the signal under study. According to recorded with the help of the recorder / (amplitudes - ov о jт т) Е „, EJ ,, by fsmulas: C.OS2P -; cos2pi 2 "- F2 - F2 2A"., E,, p, and PI of the major axis of the ellipse are removed by using a non-turnstile made non-orthogonal, loaded on four detector sections, the two polarizer outputs and the heterodyne are connected to the two outputs of the turnstile with detector sections, two differential transformers, channels of intermediate frequency amplifiers, a second all-polarized antenna, and an output recorder.

PU5. J