A packaging structure, where the packaging structure includes: a first radiation plate, a second radiation plate, and a feeding part, where the second radiation plate is disposed below the first radiation plate, where a slot is disposed on the second radiation plate, where the slot is in a ring shape, where the feeding part is disposed below the second radiation plate, and where the feeding part includes a first feeding stub and a second feeding stub that are disposed independently of each other. Additionally, the first feeding stub and the second feeding stub are perpendicular to each other and disposed on a substrate below the slot, and the first feeding stub and the second feeding stub feed the first radiation plate using the slot.

Provided, according to the present invention, is an electronic device equipped with a transparent antenna for 5G communication. The electronic device comprises: an antenna embedded and operating in a display; and a transmission line for feeding power to the antenna. The antenna comprises: a feeder portion connected to the transmission line and composed of metal mesh lines disposed parallel with respect to the boundary line of the transmission line; and a slot region formed in the antenna and composed of orthogonal metal mesh lines disposed orthogonal to the metal mesh lines, wherein in the electronic device equipped with a transparent antenna, the metal mesh lines are disposed orthogonal to an antenna area in the slot region and a dielectric area in addition to the antenna area, thereby improving electrical characteristics in a high-frequency band.

Provided, according to the present invention, is an electronic device equipped with a transparent antenna for 5G communication. The electronic device comprises: an antenna embedded and operating in a display; and a transmission line for feeding power to the antenna. The antenna comprises: a feeder portion connected to the transmission line and composed of metal mesh lines disposed parallel with respect to the boundary line of the transmission line; and a slot region formed in the antenna and composed of orthogonal metal mesh lines disposed orthogonal to the metal mesh lines, wherein in the electronic device equipped with a transparent antenna, the metal mesh lines are disposed orthogonal to an antenna area in the slot region and a dielectric area in addition to the antenna area, thereby improving electrical characteristics in a high-frequency band.

Example electronic devices are disclosed. In an example, the electronic device includes a housing and an antenna disposed within the housing. The antenna includes a conductive element to send and receive signals in a first frequency band, and a grounding member coupled to the conductive element and comprising a slot. The grounding member is to send and receive signals in a second frequency band.

Example electronic devices are disclosed. In an example, the electronic device includes a housing and an antenna disposed within the housing. The antenna includes a conductive element to send and receive signals in a first frequency band, and a grounding member coupled to the conductive element and comprising a slot. The grounding member is to send and receive signals in a second frequency band.

An electronic device is provided. The electronic device includes a first housing structure including a first side surface member, a second housing structure including a second side surface member, a hinge structure configured to rotatably connect the first housing structure and the second housing structure and configured to provide a folding axis on which the first housing structure and the second housing structure rotate, and at least one printed circuit board, wherein the first side surface member or the second side surface member includes a first side surface portion a second side surface portion, a third side surface portion, a fourth side surface portion, a fifth side surface portion, a first slit a second slit a third slit, and a fourth slit, and a fifth slit, and wherein at least part of at least one of the second side surface portion, the third side surface portion, and the fourth side surface portion is formed of a radiation conductor and is electrically connected to the at least one printed circuit board.

An antenna structure and an electronic device using the antenna structure are disclosed. The antenna structure includes: a feed point; and a metal frame. The metal frame includes a body, a radiator and a coupling branch. The radiator and the coupling branch are connected to the body, and enclose, together with the body, a clearance area. A first end of the radiator away from the body and an end of the coupling branch away from the body form an antenna gap connected to the clearance area. The radiator is connected to the feed point and includes a through groove and an opening, the through groove runs along a height direction of the radiator, and the opening is connected to the through groove along a thickness direction of the radiator. A junction of the feed point and the radiator and the opening are located at both sides of the through groove.

An antenna apparatus may include: a substrate; two feed vias disposed in the substrate; and an antenna pattern disposed on one surface of the substrate, and including a central portion and wing portions protruding from the central portion. A first wing portion and a second wing portion adjacent to the first wing portion, among the wing portions, may be disposed over the two feed vias. The antenna apparatus may be configured to selectively provide a feed signal to either one or both of the two feed vias.

An antenna apparatus may include: a substrate; two feed vias disposed in the substrate; and an antenna pattern disposed on one surface of the substrate, and including a central portion and wing portions protruding from the central portion. A first wing portion and a second wing portion adjacent to the first wing portion, among the wing portions, may be disposed over the two feed vias. The antenna apparatus may be configured to selectively provide a feed signal to either one or both of the two feed vias.

A method for manufacturing a dual-band antenna includes stamping a metallic sheet to form an antenna plate having at least one antenna element with a low frequency section and a high frequency section having a slot; and folding the at least one antenna element about a portion of a perimeter of the stamped metallic sheet forming an upper surface, a side wall and a lower surface of the at least one antenna element.