Abstract: A multi-frequency and multi-beam independent electrically adjustable antenna includes: a first electromagnetic lens, a second electromagnetic lens, a mounting plate, a reflecting plate, oscillator units, oscillator units, and phase shifters. The oscillator units have a higher operating frequency than the oscillator units. The first electromagnetic lens, the second electromagnetic lens, the reflecting plate and the mounting plate are fixed relative to each other. The oscillator units and the oscillator units are all mounted on a reflecting surface of the reflecting plate. The phase shifters are all mounted on the mounting plate. The present application is characterized by simple structure, scientific design, small size, flexible setting of beam direction and etc.

Abstract: The present disclosure provides a production method for a Luneburg lens, which can manufacture a Luneburg lens with stable indexes and high performance under the conditions of room temperature, normal pressure, and low cost. The production method includes the following steps: bonding first granular materials into a sphere by a bonding agent, so as to obtain a sphere core; spraying the bonding agent on the surface of the sphere core, placing the sphere core in a container containing second granular materials, and rolling the sphere core, so that the surface of the whole sphere core is bonded with the second granular materials until the thickness of the second granular particles reaches a preset range, and thus forming a dielectric layer coating the sphere core; and by analogy, preparing a predetermined number of dielectric layers, so as to obtain a target finished Luneburg lens.

Abstract: The present invention provides a better electromagnetic lens, a method for producing it and a lens antenna. The electromagnetic lens is a winded body made of a strip material. The dielectric constant of a dielectric material gradually changes in both a transverse direction and a longitudinal direction of the strip material. After the strip material is winded to be a winded body, the dielectric material is distributed in at least one artificially predetermined three-dimensional space range called a lens body inside the winded body. A part of the winded body besides the lens body is called a non-lens part. The dielectric constant of the lens body is not lower than that the dielectric constant of the non-lens part.

Abstract: Provided is a dielectric material (1, 2, 3, 4) to solve the problems of low production efficiency and high production cost of the existing dielectric material. The dielectric material (1, 2, 3, 4) is a tube structure. The tube wall of the tube structure is formed from a foam material foamed. The dielectric material further includes metal wires (11, 21, 31, 41). The metal wires (11, 21, 31, 41) are disposed in the longitudinal direction of the tube structure, and are evenly distributed in the tube wall of the tube structure without being in contact with each other. The dielectric material (1, 2, 3, 4) with such a structure has the advantages of simple structure, accurate control of the dielectric constant, light weight per unit volume, easy and efficient production, and stable technical indicators. Further provided is a dielectric material production method.

Abstract: The present invention provides a better electromagnetic lens, a method for producing it and a lens antenna. The electromagnetic lens is a winded body made of a strip material. The dielectric constant of a dielectric material gradually changes in both a transverse direction and a longitudinal direction of the strip material. After the strip material is winded to be a winded body, the dielectric material is distributed in at least one artificially predetermined three-dimensional space range called a lens body inside the winded body. A part of the winded body besides the lens body is called a non-lens part. The dielectric constant of the lens body is not lower than that the dielectric constant of the non-lens part.

Abstract: A multi-frequency and multi-beam independent electrically adjustable antenna includes: a first electromagnetic lens, a second electromagnetic lens, a mounting plate, a reflecting plate, oscillator units, oscillator units, and phase shifters. The oscillator units have a higher operating frequency than the oscillator units. The first electromagnetic lens, the second electromagnetic lens, the reflecting plate and the mounting plate are fixed relative to each other. The oscillator units and the oscillator units are all mounted on a reflecting surface of the reflecting plate. The phase shifters are all mounted on the mounting plate. The present application is characterized by simple structure, scientific design, small size, flexible setting of beam direction and etc.

Abstract: The present disclosure provides a production method for a Luneburg lens, which can manufacture a Luneburg lens with stable indexes and high performance under the conditions of room temperature, normal pressure, and low cost. The production method includes the following steps: bonding first granular materials into a sphere by a bonding agent, so as to obtain a sphere core; spraying the bonding agent on the surface of the sphere core, placing the sphere core in a container containing second granular materials, and rolling the sphere core, so that the surface of the whole sphere core is bonded with the second granular materials until the thickness of the second granular particles reaches a preset range, and thus forming a dielectric layer coating the sphere core; and by analogy, preparing a predetermined number of dielectric layers, so as to obtain a target finished Luneburg lens.

Abstract: Provided is an electromagnetic dielectric material (1). The electromagnetic dielectric material (1) is a column structure. The electromagnetic dielectric material (1) includes an inner core (11), a first foam layer (12) and a second foam layer (13) sequentially arranged from inside to outside on the cross section of the column structure. The first foam layer (12) and the second foam layer (13) are each a layer formed from a foam material foamed. The electromagnetic dielectric material further includes metal wires (14). The metal wires (14) are disposed in the longitudinal direction of the column structure, are not in contact with each other and are evenly distributed on the periphery of the first foam layer (12). Further provided is a method for producing an electromagnetic dielectric material (1).

Abstract: Provided is a dielectric material (1, 2, 3, 4) to solve the problems of low production efficiency and high production cost of the existing dielectric material. The dielectric material (1, 2, 3, 4) is a tube structure. The tube wall of the tube structure is formed from a foam material foamed. The dielectric material further includes metal wires (11, 21, 31, 41). The metal wires (11, 21, 31, 41) are disposed in the longitudinal direction of the tube structure, and are evenly distributed in the tube wall of the tube structure without being in contact with each other. The dielectric material (1, 2, 3, 4) with such a structure has the advantages of simple structure, accurate control of the dielectric constant, light weight per unit volume, easy and efficient production, and stable technical indicators. Further provided is a dielectric material production method.

Abstract: The present disclosure relates to a reflector lens structured life buoy, including a life buoy body. Several sections of lenses are arranged in the life buoy body. Each section of lens is of a curved cylinder structure. These lenses are distributed in a circular array by taking a center of the life buoy body as a center, so that these lenses are encircled to form a circular ring. Cross sections of all the sections of lenses in a radial direction are of a layered structure, and have dielectric constants that continuously change from 2 to 1 from the center to the outer layer. Reflection sheets are laid on circumferential surfaces of all the sections of lenses to form reflection sheet coverage regions and non-reflection sheet coverage regions on the circumferential surfaces of the lenses; surfaces of the reflection sheets fitted to the circumferential surfaces of the lenses are reflection surfaces.

Abstract: The present disclosure discloses a foamed dielectric material, which is used to solve the problems of low production efficiency and high production cost of foamed dielectric materials at present. The foamed dielectric material is a cylinder structure or a tube structure formed by a foamed material after foaming; a plurality of gaps are cut on the surface of the cylinder structure or the tube structure, and the gap has a metal wire segment inside; and the metal wire segment in different gaps is not in contact with each other. The foamed dielectric material with such structure has the advantages such as a simple structure, an accurately controllable dielectric constant, light weight per unit volume, easy to efficiently product and stable technical index. The present disclosure further discloses a production method which may be used for producing the foamed dielectric material.