RU2617794C2 - Send-receive positioning and long-distance module antenna array of mobile multi-function longtime heart monitoring and ergometry hardware and software complex - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: feature of the claimed send-receive positioning and long-distance module antenna array of the mobile multi-function longtime heart monitoring and ergometry hardware and software complex is that the antenna radiators are made in the form of V-shaped vibrators, each antenna radiator of N pair further includes the second V-shaped vibrator connected antiphasicly to the first V-shaped vibrator, when the first left shoulder of the first V-shaped vibrator of the first N pair emitter negative potential is connected to the second right shoulder of the second V-shaped vibrator of the first N pair emitter negative potential, and the second right shoulder of the first V-shaped vibrator of the first N pair is connected to the second vibrator first left shoulder of the first N pair emitter positive potential.

EFFECT: wider working sector of angles in the antenna array plane and maintenance of the repeater on an incline and circular polarization of electromagnetic waves.

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Description

The invention relates to the field of transceiver antenna arrays for communication repeaters of multifunctional hardware and software systems, unmanned aerial information systems, communication repeaters of dispatch centers.

An analogue of the claimed device is an antenna relay device that receives and transmits a signal when measuring the secondary radiation patterns of the antennas. The device represents a transceiver antenna, consisting of a pyramidal horn connected to a short-circuited waveguide path, in which an amplitude-phase modulator is installed (copyright certificate No. 315128 from 1970, IPC G01R 29/10, Barenova I.V., Varshavchik M.L., Kobak V.O.).

The disadvantage of the analogue is the narrow sector of working angles Δϕ, where ϕ is the spatial angle (for example, the azimuth angle).

The closest analogue (prototype) of the claimed device is a Van Atta electrodynamic antenna reflector, consisting of N pairs of waveguide antennas in the form of linear vibrators or waveguides connected by matched paths of the same electric length (US Patent No. 2908002, class 343-776 from 1955)

The prototype has a narrow backscatter pattern, i.e. less than or equal to 80 ° (Δϕ≤80 °), where ϕ is the azimuth angle coinciding with the plane of the array of antenna re-emitters.

The aim of the invention is to provide a transceiver antenna array having a wider backscatter pattern.

The inventive device allows to solve the following tasks:

- create a re-emitted communication signal in a wide sector of space angles to a value two times wider than the prototype;

- use one of the claimed device instead of two prototypes;

- reduce the overall dimensions of the communication relay.

The solution of the tasks is achieved by the fact that in the claimed device all antenna emitters are made in the form of V-shaped vibrators with orthogonal shoulders, each antenna emitter of the N pair further comprises a second V-shaped vibrator with orthogonal shoulders connected in antiphase to the first V-shaped vibrator when the first left shoulder of the first V-shaped vibrator of the negative potential of the first emitter N of the pair is connected to the second right shoulder of the second V-shaped vibrator of the negative potential of the first radiation eating N pairs, and the second right shoulder of the first V-shaped vibrator of positive potential of the first emitter of N pair is connected to the first left shoulder of the second vibrator of positive potential of the first emitter of N pair, while the shoulders of the vibrators of the first emitter of N pair are connected to each other via an impedance transformer and through the lateral shoulders of the microstrip microwave power divider, the middle arm of which is connected to the microwave path in the form of a coaxial cable, is connected to the middle arm of the microstrip microwave power divider of the second and a pair N emitter, which further comprises a second V-shaped vibrator with orthogonal arms connected in phase with the first V-shaped vibrator of the second pair N emitter when the first left shoulder of the first negative V-shaped vibrator of the second pair N emitter is connected to the second right shoulder of the second A V-shaped vibrator of negative potential of the second emitter N pairs, and the second right shoulder of the first vibrator of the positive potential of the second emitter N pairs connected to the first left shoulder of the second V -shaped vibrator of positive potential of the second emitter of N pair, while the shoulders of the vibrators of the second emitter of N pair are connected to each other through an impedance transformer and through the lateral shoulders of the microstrip microwave power divider, all V-shaped dipole antennas of all emitters are located on the same axis in space so that the shoulders make an angle α equal to from 30 ° to 60 ° with the longitudinal axis, and the shoulders of the same name of the first and second vibrators of the emitters are directed in different directions, in addition, additionally contains a half-wire single microwave amplifiers-modulators, built into matched microwave paths and connected to a control panel modulator connected to a power source, in addition, additionally contains a metallized reflector located above the dipoles, in addition, the base of the antenna array represents an aerodynamic streamlined body with radio-transparent dielectric windows for antenna vibrators in the form of a single wing glider with a vertical aerodynamic tail stabilizer.

In FIG. 1 presents the design of the claimed device, where it is indicated:

1 - base

2, 4 - the left and right shoulders of the first V-shaped vibrator of the first emitter N pairs,

3, 5 - the right and left shoulders of the second V-shaped vibrator of the first emitter N pairs,

6 - two transformers of the impedances of the first emitter, each in the form of a strip three-loop transformer with short-circuited at the ends of the loops [1],

7 - microwave power divider of the first emitter, in the form of a strip "double" power divider in half [1],

8 - microwave path in the form of a coaxial cable,

9 - two transformers of the impedances of the second emitter, each in the form of a strip three-loop transformer with short-circuited at the ends of the loops [1],

10 - microwave power divider of the second emitter, in the form of a strip "double" power divider in half [1],

11, 13 - the first left and second right shoulders of the first V-shaped vibrator of the second emitter N pairs,

12, 14 - the second right and first left shoulders of the second V-shaped vibrator of the second emitter N pairs,

15 - semiconductor microwave amplifiers-modulators built into matched microwave paths,

16 - modulator of the control panel,

17 - power source,

18 - metallized reflector.

The design of the claimed device is and contains the following.

The electrodynamic transceiver antenna array of the vibrators is rigidly fixed on the basis of paragraph 1 of FIG. 1, and consists of N pairs of antenna emitters in the form of V-shaped vibrators with shoulders of clause 2 and clause 4, connected using matched microwave paths of clause 8 of the same electrical length, each antenna pair of N pairs additionally contains a second V-shaped a vibrator with shoulders of p. 3 and p. 5, connected in phase with the first V-shaped vibrator, when the first left shoulder of the first V-shaped vibrator of negative potential of the first emitter N pair is connected to the second right shoulder of the second V-shaped vibrator of negative potential of the first radiation N pair, and the second right shoulder of the first V-shaped vibrator of positive potential of the first emitter of N pair is connected to the first left shoulder of the second V-shaped vibrator of positive potential of the first emitter of N pair, while the shoulders of the vibrators of the first emitter of N pair are connected to each other via transformers the impedances of claim 6 and through the lateral shoulders of the microstrip microwave power divider of claim 7 of the first emitter N of the pair, the middle input arm of which is connected to the microwave path in the form of a coaxial cable of claim 8, is connected to the middle m the input arm of the microstrip microwave power divider p. 10 of the second emitter N pairs, which further comprises a second V-shaped vibrator with shoulders p. 12 and p. 14, connected in phase with the first V-shaped vibrator with shoulders p. 11 and 13 , of the second emitter N of the pair, when the first left shoulder of the first V-shaped vibrator of negative potential of the second emitter N of the pair is connected to the second right shoulder of the second V-shaped vibrator of negative potential of the second emitter of N pair, and the second right shoulder of the first V-shaped vibrator the positive potential of the second emitter of the N pair is connected to the first left shoulder of the second V-shaped vibrator of the positive potential of the second emitter of the N pair, while the shoulders of the vibrators of the second emitter of the N pair are connected to each other through two impedance transformers of clause 9 and through the lateral shoulders of the microstrip microwave power divider p. 10, all linear dipole antennas of all emitters are located on the same axis in space so that the shoulders make an angle α equal to 30 ° to 60 ° with the longitudinal axis, and the shoulders of the first and the same the second emitter vibrators are directed in different directions, in addition, it additionally contains semiconductor microwave amplifiers-modulators of clause 15, built into matched microwave paths and connected to the modulator of clause 16 of the control panel connected to the power supply of clause 17, in addition, additionally contains a metallized reflector of item 18, located above the dipoles at a distance equal to one fourth of the average wavelength of the working wavelength range, in addition, the base of the antenna array represents an aerodynamic streamlined body with ioprozrachnymi dielectric windows for vibrators antenna having a shape of a glider "single wing" vertical aerodynamic tail stabilizer.

The vibrators of the first emitter of the 1-pair are in the plane of the vibrators of the first emitter of the N pair on a straight line between them, together they form the left half of the aperture of the inventive device. The vibrators of the second emitter of the 1-pair are located in the plane of the vibrators of the second emitter of the N pair on a straight line between them, together they form the right half of the aperture of the inventive device.

Thus, the left half of the aperture of the claimed device and the right half of the aperture of the claimed device form the opening of the claimed device in the form of a wedge with an angle at the apex β equal to from 10 ° to 180 ° degrees (β = from 10 ° to 180 °).

The inventive device operates as follows.

The inventive device has V-shaped vibrators, each arm of which operates on orthogonal polarizations, therefore, the claimed device as a whole works on inclined polarization.

The proposed device has antenna emitters N pairs in the form of two V-shaped vibrators, the shoulders of which are excited out of phase in space.

The radiation patterns of these antenna emitters of the inventive device have a width of 135 ° and the backscatter patterns also have a width of 135 ° on the oblique polarization of electromagnetic waves.

The radiation patterns of the antenna emitters of the prototype have a width of 45 ° and the backscatter patterns also have a width of 45 ° and the prototype does not work with oblique polarization of electromagnetic waves.

The inventive device operates on an inclined polarization of electromagnetic waves and provides signal transmission in a given direction (for example, to the dispatch center of a mobile multifunctional hardware and software complex for long cardiomonitoring and ergometry), which is amplified and modulated using microwave switching diodes or generator and amplifying microwave diodes, connected to the bass modulator of the information signal, i.e. relaying, modulation and signal amplification is provided.

The inventive device creates on an oblique polarization of electromagnetic waves an averaged backscatter diagram with a width Δϕ of _memory , which is more than three times wider than the backscatter diagram of a prototype device Δϕ _prot , i.e.

Δϕ _memory ≥3ϕ _prot .

The inventive device is used in the Scientific and Educational Center for the Protection and Support of Intellectual Property of the Southern Federal University (REC ZIS KT SFU), the Scientific and Technical Center "Technocenter" of the Southern Federal University, ANPOO "Kropotkinsky Railway College", the Southern Center for Engineering and Technology Transfer, open joint stock company Society "Scientific and Production Enterprise of Space Instrumentation" Quantum ", Department of Discrete Mathematics and Optimization Methods (DMiMO) IKTIB SFU), Department of CAD IKTIB SFU - as a repeater of the positioning and long-distance communication module of the mobile multifunctional hardware-software complex of long-term cardiomonitoring and ergometry when the complex operates in hard-to-reach mountain areas (and in areas with a weak GSM network signal) to improve the quality of communication with the dispatch center of the complex, as well as in as a communications repeater of unmanned aerial information systems and monitoring systems.

Information sources

1. V.O. Kobak. Radar reflectors. M .: Sov. radio, 1975

2. Ogurtsov ES, Ogurtsov SF "Device for measuring and calibrating radiation patterns of light-emitting devices in the plane." Patent No. 2361183 of 07/10/09. M .: FGU FIPS, 2009.

3. Ogurtsov ES “Constructive synthesis of autonomous passive and semi-active transponders operating from dynamos on the energy of the field of permanent magnets”, Proceedings of 7 Interuniversity. scientific and practical confer., MGOU, 2008

4. Ogurtsov E.S. A complex for measuring and calibrating radiation patterns of radiating devices. Proceedings of the International Conference IREMV-2009.

5. Ogurtsov ES, Ogurtsov SF, Kureichik VV and others. "An automated complex for simulating moving objects for testing radio systems of amphibious aircraft and unmanned aerial vehicles." Utility Model Patent No. 113371 Bulletin No. 4 of 02/10/2012, Moscow: FGU FIPS, 2012.

Claims (4)

1. The transceiver antenna array of the positioning and long-distance communication module of a mobile multifunctional hardware-software complex of long-term cardiomonitoring and ergometry, rigidly fixed to the base, consisting of N pairs of antenna emitters connected using matched microwave paths of the same electric length, characterized in that all antenna emitters are made in the form of V-shaped vibrators, each antenna emitter of the N pair further comprises a second V-shaped vibrator connected by a counter heat with the first V-shaped vibrator when the first left shoulder of the first V-shaped negative vibrator of the first emitter N pair is connected to the second right shoulder of the second V-shaped negative vibrator of the first emitter N pair and the second right shoulder of the first V-shaped vibrator is positive the potential of the first emitter N of the pair is connected to the first left shoulder of the second vibrator of the positive potential of the first emitter of N pair, while the shoulders of the vibrators of the first emitter of N pair are connected to each other through an impedance transformer and through the lateral shoulders of the microstrip microwave power divider, the middle arm of which is connected to the microwave path in the form of a coaxial cable, connected to the middle arm of the microstrip microwave power divider of the second emitter N pair, which further comprises a second V-shaped vibrator with orthogonal arms, connected out of phase with the first V-shaped vibrator of the second emitter N pairs, when the first left shoulder of the first V-shaped vibrator of the negative potential of the second emitter N pairs is single with the second right shoulder of the second V-shaped vibrator of the negative potential of the second emitter N of the pair, and the second right shoulder of the first vibrator of the positive potential of the second emitter of the N pair is connected to the first left shoulder of the second V-shaped vibrator of the positive potential of the second emitter of the N pair, while the shoulders of the vibrators of the second emitter, N pairs are connected to each other through an impedance transformer and through the lateral shoulders of the microstrip microwave power divider, all V-shaped dipole antennas of all emitters are located on the same axis in space so that the shoulders make an angle α equal to 30 ° to 60 ° with the longitudinal axis, with the shoulders of the first and second emitter vibrators of the same name pointing in different directions, the vibrators of the first emitter of the first pair are in the plane of the vibrators of the first emitter of N pair on a straight line between them, together they form the left half of the aperture, the vibrators of the second emitter of the first pair are in the plane of the vibrators of the second emitter N of the pair on a straight line between them, together they form the right half of the aperture, Second half and the right half of the aperture the aperture opening forming apparatus antenna lattice in the form of a wedge with an apex angle β of from 10 ° to 180 ° degrees (β = 10 ° to 180 °). 2. The transceiver antenna array of the positioning and long-distance communication module of the mobile multifunctional hardware-software complex of long-term cardiomonitoring and ergometry according to claim 1, characterized in that it further comprises semiconductor microwave amplifiers-modulators built into matched microwave paths and connected to a control panel modulator connected to with a power source. 3. The transceiver antenna array of the positioning and long-distance communication module of the mobile multifunctional hardware-software complex of long-term cardiomonitoring and ergometry according to claim 1, characterized in that it further comprises a metallized reflector located above the dipoles. 4. The transceiver antenna array of the positioning and long-range communication module of the mobile multifunctional hardware-software complex for long-term cardiomonitoring and ergometry according to claim 1, characterized in that the base of the antenna array is a streamlined aerodynamic body with radiotransparent dielectric windows for antenna vibrators in the form of a glider " single wing ”with a vertical aerodynamic tail stabilizer.

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