RU2495450C1 - Subharmonic parametric scatterer - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: subharmonic parametric scatterer consists of a nonlinear element which includes a parametric generator, and an antenna system which includes a reflector, strip or slit antenna, the load of which is the parametric generator, tuned to half the frequency of the probing signal and consisting of an inductance in form of a closed or semi-closed resonator and a nonlinear capacitance. The first parametric generator is connected in series to a second parametric generator tuned to half the frequency of the probing signal and consisting of an inductance in form of a closed or semi-closed resonator and a nonlinear capacitance. Both parametric generators are the load of the second reflector, strip or slit antenna, which is tuned to the frequency of the probing signal, and the first reflector, strip or slit antenna is tuned to half the frequency of the probing signal.

EFFECT: high efficiency of the subharmonic parametric scatterer by providing better matching of the nonlinear element with the antenna system.

2 dwg

Description

The invention relates to passive transponder markers, which are secondary sources of electromagnetic radiation.

Known for [Babanov N.Yu., Gorbachev A.A., Lartsov S.V., S.P. Tarakankov, Chigin E.P. On the use of the effect of nonlinear scattering of radio waves in the search for those in distress on water // Radio Engineering and Electronics, 2000, vol. 45, N6, p.676.] Nonlinear passive marker in the form of a nonlinear diffuser for placement on a life jacket. A non-linear diffuser is an antenna loaded on a non-linear load, in which distortion of the probing signal occurs. As a result, the nonlinear scatterer re-radiates the signal into space at the frequency of the second harmonic of the probe signal. The use of a signal scattered at the frequency of the second harmonic of the probing signal as an informative feature allows one to be selected from reflections of the water-air boundary that do not generate harmonics upon irradiation. Thus, the search system, located on a movable medium, emits a probe signal into space, cleared of its own harmonics, and receives a signal at the frequency of the second harmonic of the probe signal. The fact that the receiver registered a signal at the frequency of the second harmonic of the probe signal indicates that a nonlinear passive marker is in the irradiation region. This technical solution is selected as an analogue.

A non-linear passive marker in the form of a non-linear diffuser has a number of advantages: it can be very light and cheap, does not contain a battery, does not require maintenance, is well suited for placement on life jackets, including those already existing. It is always possible to place several non-linear diffusers on a life jacket so that at least one is above the surface of the water. To eliminate the influence of the human body in [Agrba D.Sh., Babanov N.Yu., Bychkov O.N., Vasenkova L.V., Gorbachev A.A., Lartsov S.V., Tarakankov S.P., Chigin E.P. Nonlinear scatterers as a means of marking // Radio Engineering, 1998, N10, p.96.] It is proposed to use a nonlinear passive marker in the form of a nonlinear antenna scatterer with a reflector facing the human body. The human body does not affect a nonlinear element, since it is a concentrated semiconductor device. A feature of this nonlinear scatterer is that its nonlinear load is a diode bridge, which effectively converts the probing signal into a response signal at the frequency of the second harmonic of the probing signal. At the same time, the bridge circuit, being a four-terminal device, allows you to connect two antennas tuned to different frequencies to the existing two inputs.

At the same time, nonlinear scatterers have a significant drawback, namely, a small coefficient of conversion of the power of the probing signal to the power of the scattered signal at the harmonic frequency. In addition, the electronic components of the search system and other electronic devices located on the medium, interfere with the harmonic frequency and limit the sensitivity of the receiver of the search system.

Known for [Gorbachev P.A. Signal generation by a system of passive subharmonic scatterers // Radio engineering and electronics, 1995, T40, N11, pages 1606-1610.] Non-linear passive marker parametric scatterer in the form of an electric dipole with a shoulder length equal to half the wavelength of the probing signal loaded on a parametric circuit, consisting from a variable capacitance, which was used as a semiconductor diode, and wire inductance. In this design, the parametric circuit is an open oscillatory circuit with a concentrated variable capacitance. The principle of operation of a nonlinear passive marker, a parametric scatterer, is based on the occurrence of parametric generation in the parametric circuit at the half-subharmonic frequency and re-emission of this signal into space.

Compared to a non-linear passive marker in the form of a non-linear diffuser, a nonlinear passive marker, a parametric scatterer, is characterized by greater noise immunity, since it can be expected that consumer and special electronics will not scatter signals at subharmonic frequencies, since it is unlikely that parametric generation conditions are expected to exist. In addition, nonlinear passive markers - parametric scatterers are characterized by a large (one to two orders of magnitude) efficiency compared to nonlinear passive markers in the form of a nonlinear diffuser.

The indicated properties of nonlinear passive markers - parametric scatterers indicate the prospects of their use for marking. However, this technical solution does not allow the use of the specified parametric diffuser as a marker placed on the human body or on the surface of objects having a high dielectric constant or conductive surface due to changes in the tuning frequencies of the antenna and parametric generator when placing a nonlinear passive marker - a parametric diffuser on the rescue vest, wetting it with water, etc.

The technical solution was selected as a prototype [Patent RU 2336538, G01S 13/74, published January 20, 2008 - Lartsov SV, Non-linear passive marker - parametric diffuser,], where a subharmonic parametric diffuser consisting of a non-linear element is proposed as a passive marker including a parametric generator, and an antenna system including a reflex, strip, or slot antenna, the load of which is a parametric generator tuned to half the frequency of the probe signal and consisting of inductance in the form of a closed or semi-closed cavity and nonlinear capacity. A subharmonic parametric diffuser can be used as a marker placed on the human body or on the surface of objects having a high dielectric constant or conductive surface. However, the technical solution of the prototype has a nonlinear element design in the form of a two-terminal device connected to the antenna. This involves the use of an antenna with two multiple operating frequencies, the effective tuning of which is a difficult technical problem, which is the disadvantage of the prototype.

The invention has the task of increasing the efficiency of a subharmonic parametric scatterer by providing better coordination of the nonlinear element and the antenna system.

The solution to this problem is achieved due to the fact that in a subharmonic parametric diffuser, consisting of a nonlinear element including a parametric generator, and an antenna system that includes a reflex, strip or slot antenna, the load of which is a parametric generator tuned to the half frequency of the probe signal and consisting of inductance in the form of a closed or half-closed resonator and non-linear capacitance, while in series with the first parametric generator n the second parametric generator tuned to the half frequency of the probe signal and consisting of the inductance in the form of a closed or half-closed resonator and non-linear capacitance, while both parametric generators are the load of the second reflex, strip or slot antenna, which is tuned to the frequency of the probing signal, and the first reflex , a strip or slot antenna is tuned to half the frequency of the probe signal.

The essence of the invention lies in the fact that the construction of a nonlinear element of a subharmonic parametric scatterer is proposed, which is not a two-pole, but a four-pole, respectively, the antenna system of a subharmonic parametric scatterer can be made in the form of two antennas tuned to the frequencies of the probe signal and the response signal at the subharmonic frequency of the probe signal, which, firstly, are more effective than the broadband or dual-frequency antenna of the prototype, and secondly s, can be better coordinated with the respective outputs of the nonlinear element.

The search system for the detection of shipwreck victims (see Fig. 1) consists of a probe signal generator 1 connected to a radiating antenna 2 tuned to the frequency of the probe signal, a receiving antenna 3 and a receiver 4 connected to it, which are tuned to the half subharmonic frequency of the probe signal, which are located on a mobile water or air carrier, as well as a subharmonic parametric diffuser placed on a life jacket 5. Subharmonic parametric diffuser 5 state um from an antenna 6, a reflector, strip or slot, tuned to the half frequency of the probing signal, and connected to it as a load of a parametric generator 7 tuned to the half frequency of the probing signal and consisting of a nonlinear capacitance 8 — a varactor and inductance 9 in the form of a closed or half-closed resonator, in addition, the parametric generator 7 is connected in series with the parametric generator 10, tuned also to half the frequency of the probing signal and consisting of non-linear of the capacitance 11 of the varactor and the inductance 12 in the form of a closed or half-closed resonator, the parametric generators 7 and 10 connected in series are the load of the antenna 13, reflex, strip or slot, tuned to the frequency of the probe signal.

Search system for the detection of shipwreck victims works as follows. A subharmonic parametric diffuser 5 is preliminarily attached to the lifejacket. In the case of a distress signal, the shipwreck victims search system, located on a mobile water or air carrier, emits a probe signal into the space using the generator 1 of the probing signal and the radiating antenna 2 in the direction of the subharmonic parametric diffuser 5. The probe signal is induced on the antenna 13 and fed to the series-connected parametric generators 7 and 10, in which x excited to oscillate at a frequency of half the subharmonic probing signal. This signal is re-emitted into space using the antenna 6 in the direction of the receiving antenna 3 and is fixed using the receiver 4. The direction of sounding of the radiating antenna 2 and the receiving antenna 3 makes it possible to detect a person who is overboard in a life jacket with a subharmonic parametric diffuser 5 attached to it.

As the generator 1 of the probe signal, a measuring generator of the type G4-159 can be used. As the emitting antenna 2 and the receiving antenna 3 can be used measuring antennas P6-33. As the receiver 4 can be used measuring receiver type SMV-8.5.

Antennas 6, 13 of the parametric diffuser 5 can be made in the form of a reflex, strip or slot antenna according to [Kocherzhevsky G.N. Antenna-feeder devices M .: Communication, 1972].

As a non-linear capacitance of 8.11, a semiconductor diode D311 can be used, similarly [P. Gorbachev. Signal formation by a system of passive subharmonic diffusers // Radio Engineering and Electronics, 1995, vol. 40, N11, pp. 1606-1610.]

As a closed resonator, which is inductance 9 and 12, can be used, for example, segments of a coaxial transmission line (for example, a segment of a microwave cable) or segments of a complanar line (a conductor between two layers of a dielectric coated on the outside with metal plates) or a segment of a strip line transmission (a conductor above the dielectric layer coated on the lower side with a metal plate) or a slotted transmission line (a slot cut in a metal plate located above another metal plate).

Subharmonic parametric diffuser 5 can be made in the form of a single strip design, shown in figure 2, in which the antennas 6 and 13, inductors 9 and 12 are made by strip technology on one substrate, nonlinear capacitances 8 and 11 are mounted elements.

Thus, the proposed technical solution makes it possible to realize greater efficiency of nonlinear conversion of nonlinear passive markers - parametric subharmonic scatterers, for example, in search engines for detecting shipwreck victims or who are overboard.

Claims (1)

A subharmonic parametric scatterer, consisting of a nonlinear element including a parametric generator, and an antenna system including a reflex, strip, or slot antenna, whose load is a parametric generator tuned to the half frequency of the probe signal and consisting of an inductance in the form of a closed or half-closed resonator and non-linear capacitance characterized in that a second parametric generator connected in series with the first parametric generator is configured at the half frequency of the probe signal and consisting of the inductance in the form of a closed or half-closed resonator and non-linear capacitance, both parametric generators being the load of the second reflex, strip or slot antenna, which is tuned to the frequency of the probe signal, and the first reflex, strip or slot antenna tuned to the half frequency of the probe signal.

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