PL66715Y1 - All-round loop antenna - Google Patents

Description

Description of the model The subject of the utility model is an omnidirectional loop antenna, designed to work with wireless network devices such as network cards, Access points, routers. The antenna is designed to work on the 2.4 GHz frequency in Wi-Fi standard. Loop antennas consisting of loops of various sizes and shapes are known. The most commonly used types are square and circular loops. The radiation pattern of a given structure changes depending on the diameter of the circular loop. With a diameter equal to?, A single loop does not have a completely omnidirectional characteristic. The characteristics of the front-back radiation are clearly marked. A characteristic feature of loop antennas is that the maximum radiation occurs in the direction perpendicular to the surface of the loop. Loop antennas are used mainly for radio and television receivers. These are antennas consisting of individual loops. The purpose of the utility pattern was to create a small room antenna with high aesthetic values, enabling the improvement of the performance parameters of wireless network devices operating in the Wi-Fi standard. Currently, loop antennas are not used for this purpose, which, however, according to the research, properly designed, have good parameters to work as omnidirectional antennas. According to the utility model, the omnidirectional loop antenna consisting of two elements: the radiator and the ground plane is characterized by the fact that the radiator is a flat element with distinguished loops forming the form of a "guitar". The plane of the mass consists of three wires welded together, forming the shape of the letter "H". The radiator's soldering point is located in the middle of the bottom part of one of its characteristic loops. The ground plane soldering point is located in the middle of the cross wire length and is the center of symmetry of the element. Between the radiator and the surface of the mass there is a binding connecting these two elements, which at the same time provides insulation between them. The luminaire consists of two semicircular shapes joined by edges, made of insulating material, with the lower shape slightly flattened. Technical advantages of the utility model: - 35.5 dBi gain at a height of 1 meter above the ground - several times greater gain compared to the standard omnidirectional antenna sold with network cards - small overall dimensions: 239.5 mm x 123 mm (height, width) - small dimensions allow the antenna to be placed on any surface such as a desk, window sill or other surface of a limited size - mobility - unlike a standard antenna attached to network equipment, the antenna is connected with a cable that allows the antenna to be placed at a distance - modern design - shape and the design of the antenna favors its placement in exposed places, thanks to which it can become a decorative element. The object of the utility model is presented in an isometric view. The antenna consists of two elements: the radiator 1 and the ground plane 2. The radiator 1 is a single element with distinguished loops 1A, 1B, 1C. The plane of the mass consists of three wires 3, 4, 5 soldered together, forming the shape of the letter "H". The soldering point 6 of the radiator 1 is located in the middle of the lower part of its characteristic loop 1C. The soldering point 7 of the ground plane 2 is located in the middle of the length of the element 5. The holder 8 is placed between the radiator 1 and the ground plane 2. PL PL

Claims (1)

2 EN 66 715 Υ1 Description of the design The object of the utility model is an omnidirectional loop antenna, designed to work with wireless network devices such as network cards, access points, routers. The antenna is designed to operate at 2.4 GHz in the Wi-Fi standard. Loop antennas consisting of loops of various sizes and shapes are known. The most commonly used types are square and circular loops. Depending on the diameter of the circular loop, the radiation pattern of a given structure changes. With a diameter equal to λ, a single loop does not have a completely omnidirectional characteristic. Front-back radiation is clearly marked in the characteristics. A characteristic feature of loop antennas is that the maximum radiation occurs in the direction perpendicular to the surface of the loop. Loop antennas are mainly used for radio and television receivers. These are antennas consisting of individual loops. The purpose of the utility model was to create a small room antenna with high aesthetic values, enabling the improvement of the operating parameters of wireless network devices operating in the Wi-Fi standard. Currently, loop antennas are not used for this purpose, which, however, according to the research, properly designed have good parameters to work as omnidirectional antennas. According to the utility model, the omnidirectional loop antenna consisting of two elements: the radiator and the ground plane is characterized by the fact that the radiator is a flat element with highlighted loops forming the form of a "guitar". The ground plane consists of three wires soldered together to form the shape of the letter "H". The radiator soldering point is located in the middle of the lower part of one of its characteristic loops. The ground plane solder point is located in the middle of the cross wire length and is the center of symmetry of the element. Between the radiator and the ground plane there is a fitting connecting these two elements, which at the same time provides insulation between them. The luminaire consists of two semicircular fittings joined at the edges, made of insulating material, the lower fitting being slightly flattened. Technical advantages of the utility model: - 35.5 dBi gain at a height of 1 meter above the ground - several times greater gain compared to the standard omnidirectional antenna sold with network cards - small overall dimensions: 239.5 mm x 123 mm (height, width) - small dimensions allow placing the antenna on any surface such as a desk, window sill, or other surface of limited size - mobility - unlike a standard antenna attached to network equipment, the antenna is connected with a cable that allows the antenna to be placed at a distance - modern design - shape and workmanship antenna favors its placement in exposed places, which can become a decorative element. The object of the utility model is presented in the drawing in an isometric view. The antenna consists of two elements: the radiator 1_ and the ground plane 2. The radiator 1 is a single element with the loops ΙΑ, IB, 1_C highlighted. The ground plane consists of three wires 3, 4, 5 soldered together to form the shape of the letter "H". The soldering point 6 of the radiator 1 is in the middle of the lower part of its characteristic loop 10. The soldering point 7 of the ground plane 2 is halfway the length of the element 5. The fitting 8 is placed between the radiator 1 and the ground plane 2. edges, made of insulating material, the bottom section slightly flattened. Protective disclaimer An omnidirectional loop antenna consisting of two elements: a radiator and a ground plane, characterized in that the IV radiator is a single element with distinguished loops / 1A /. / IB /, / 10 / in the form of a "guitar" and the ground plane consists of three wires / 3 /, / 4 /, / 5 / soldered together forming the shape of the letter "H", with the soldering point / 6 / radiator IV is located in the middle of the lower part of its characteristic loop / 10 / and the soldering point / 7 / ground plane / 2 / is halfway the length of the element / 5 /, and between the radiator IV