Show metadata Hide metadata

(19)

(11)

2 801 980

(13)

(51)

IPC

H01Q21/06(2006-01-01)

(21) (22)

Application

2021104393, 2021-02-20

(24)

Start date

2021-02-20

(22)

Actual filing date

2021-02-20

(45)

Published

2023-08-22

(72)

Inventor

Maslov Mikhail YurevichSpodobaev Yurij Mikhajlovich

(73)

Holder

Federalnoe Gosudarstvennoe Byudzhetnoe Uchrezhdenie Trudovogo Krasnogo Znameni Rossijskij Nauchno-Issledovatelskij Institut Radio Imeni M.I. Krivosheeva" Niir)

ANTENNA ARRAY OF THE IONOSPHERIC HEATING STAND Russian patent published in 2023 - IPC H01Q21/06

Abstract RU 2801980 C2

FIELD: radio engineering.

SUBSTANCE: invention relates to radio engineering, in particular to active phased array antennas (APHAA). The result is achieved by the fact that a horizontal antenna array of an ionospheric heating stand for vertical exposure to the ionosphere is proposed, consisting of active radiating elements, characterized in that the array is made in the dimensions of geographical scales, arbitrarily configurable and conformal with respect to the earth's surface and relief, consisting of equidistant and non-equidistant, linear and surface segments, the elements of the grid are in the form of primary autonomous mobile universal active phased antenna arrays consisting of emitters with properties independent of the electrophysical parameters of the underlying surface, having a single control system and structurally combined in lighters in the case of sea-based or containers for land.

EFFECT: technical result is the possibility of forming an APHAA ionospheric heating stand of arbitrary configuration and length.

1 cl, 4 dwg

Similar patents RU2801980C2

Title	Year	Author	Number
GROUND-BASED ALL-ROUND ANTENNA AND METHOD FOR IMPLEMENTING A MULTIFUNCTIONAL HEATING FACILITY	2020	Maslov Mikhail Yurevich Spodobaev Yurij Mikhajlovich	RU2772933C2
DEVICE FOR FORMATION OF IONOSPHERIC SOURCE OF LOW-FREQUENCY RADIO WAVES	2023	Kotik Dmitrij Samojlovich Ryabov Aleksandr Vladimirovich Yashnov Vladimir Aleksandrovich	RU2822008C1
METHOD OF PROVIDING SW AND USW COMMUNICATION IN CONDITIONS OF HIGH RADIO SIGNAL ABSORPTION	2011	Boldyrev Mikhail Sergeevich Naumov Nikolaj Dmitrievich Rudenko Vitalij Vladimirovich Soskov Dmitrij Jur'Evich	RU2501162C2
RADAR ANTENNA HAVING REDUCED EFFECTIVE-DISSIPATION AREA	2006	Kovalev Sergej Vladimirovich Korol' Oleg Vladimirovich Nesterov Sergej Mikhajlovich Skorodumov Ivan Alekseevich Terpugov Aleksandr Vasil'Evich	RU2319261C1
METHOD OF CONTROLLING PROPAGATION OF SHORT RADIO WAVES IN IONOSPHERIC WAVEGUIDE	2009	Urjadov Valerij Pavlovich	RU2413363C1
METHOD OF CREATING RADIO CHANNEL THROUGH ARTIFICIAL IONOSPHERIC TRANSPONDER	2012	Urjadov Valerij Pavlovich Vertogradov Gennadij Georgievich Vertogradova Elena Gennad'Evna	RU2518900C2
ON-BOARD X-BAND ACTIVE PHASE ANTENNA ARRAY WITH AN INCREASED SCANNING SECTOR	2017	Kanashchenkov Anatolij Ivanovich Ponomarev Leonid Ivanovich Vasin Anton Aleksandrovich Terekhin Oleg Vasilevich	RU2650832C1
ANTENNA SYSTEM AND METHOD OF OPERATION THEREOF	2019	Andreev Vladimir Fedorovich Vereshchagin Gennadij Vasilevich	RU2729889C1
CONFORMAL ACTIVE PHASED ANTENNA ARRAY	2011	Malugin Konstantin Anatol'Evich Neudakin Aleksandr Aleksandrovich	RU2488924C1
RADAR ANTENNA WITH DECREASED EFFECTIVE SCATTERING AREA	2009	Kovalev Sergej Vladimirovich Korol' Oleg Vladimirovich Nesterov Sergej Mikhajlovich Pod"Jachev Vitalij Vladimirovich Skorodumov Ivan Alekseevich	RU2400882C1

RU 2 801 980 C2

Authors

Maslov Mikhail Yurevich

Spodobaev Yurij Mikhajlovich

Dates

2023-08-22—Published

2021-02-20—Filed