An antenna assembly, a wireless-communication-enabled device and an intelligent home or office appliance including such antenna assembly. The antenna assembly includes an antenna including an antenna body and a feeder, and at least one functional module arranged to operate with a function different from that provided by the antenna; wherein the at least one functional module includes at least one electrical connection module arranged to connects with an external electrical connector.

An antenna assembly, a wireless-communication-enabled device and an intelligent home or office appliance including such antenna assembly. The antenna assembly includes an antenna including an antenna body and a feeder, and at least one functional module arranged to operate with a function different from that provided by the antenna; wherein the at least one functional module includes at least one electrical connection module arranged to connects with an external electrical connector.

An in-vehicle wireless display includes a slot antenna to transmit and receive data, a nonmagnetic member provided apart from a slot formed in the slot antenna, to cover the slot, and a display unit installed in a vehicle constituting a train, to display information on the basis of data received by the slot antenna.

An in-vehicle wireless display includes a slot antenna to transmit and receive data, a nonmagnetic member provided apart from a slot formed in the slot antenna, to cover the slot, and a display unit installed in a vehicle constituting a train, to display information on the basis of data received by the slot antenna.

An antenna device includes an antenna board in which a conductor pattern is provided on each of both surfaces of a dielectric substrate. A linear element is provided on a first surface of the dielectric substrate. A slit antenna is provided on a second surface of the dielectric substrate opposite to the first surface. When the first surface and the second surface are superimposed on each other, the linear element and a slit of the slit antenna overlap with each other.

An antenna device includes an antenna board in which a conductor pattern is provided on each of both surfaces of a dielectric substrate. A linear element is provided on a first surface of the dielectric substrate. A slit antenna is provided on a second surface of the dielectric substrate opposite to the first surface. When the first surface and the second surface are superimposed on each other, the linear element and a slit of the slit antenna overlap with each other.

An electronic device such as a desktop computer may have a housing. The housing may include a conductive inner frame, conductive handles coupled to the inner frame, and a conductive outer sleeve over the inner frame. The handles may protrude through openings in the outer sleeve. Conductive plates may be aligned with the openings and attached to the inner frame. The handles may pass through holes in the conductive plates. Slot antennas may be formed in the conductive plates. The slot antennas may each include a high band slot that indirectly feeds a pair of low band slots. The conductive plates and the inner frame may define cavities for the antennas. Multi-band slot antennas may be formed within the handles themselves. The handles may include solid metal with a channel or may include hollow metal structures to accommodate transmission lines for the antennas.

An electronic device such as a desktop computer may have a housing. The housing may include a conductive inner frame, conductive handles coupled to the inner frame, and a conductive outer sleeve over the inner frame. The handles may protrude through openings in the outer sleeve. Conductive plates may be aligned with the openings and attached to the inner frame. The handles may pass through holes in the conductive plates. Slot antennas may be formed in the conductive plates. The slot antennas may each include a high band slot that indirectly feeds a pair of low band slots. The conductive plates and the inner frame may define cavities for the antennas. Multi-band slot antennas may be formed within the handles themselves. The handles may include solid metal with a channel or may include hollow metal structures to accommodate transmission lines for the antennas.

Proposed are a radiation module, which can uniformly radiate microwaves from an upper part of a cooking chamber and can offset reflected waves in waveguides when microwaves are radiated from the upper part of the cooking chamber, and a microwave range having the same. The radiation module includes: first and second waveguides disposed at an upper part of a cooking chamber to form parallel routes to guide microwaves of a magnetron; and a plurality of paired slot antennas arranged on bottom surfaces of the first and second waveguides in a progress direction of the microwaves, wherein each paired slot antenna includes two slot antennas, the two slot antennas have a first interval distance relative to the progress direction of the microwaves and are arranged to intercross each other in the opposite directions to each other based on central lines of the waveguides.

Proposed are a radiation module, which can uniformly radiate microwaves from an upper part of a cooking chamber and can offset reflected waves in waveguides when microwaves are radiated from the upper part of the cooking chamber, and a microwave range having the same. The radiation module includes: first and second waveguides disposed at an upper part of a cooking chamber to form parallel routes to guide microwaves of a magnetron; and a plurality of paired slot antennas arranged on bottom surfaces of the first and second waveguides in a progress direction of the microwaves, wherein each paired slot antenna includes two slot antennas, the two slot antennas have a first interval distance relative to the progress direction of the microwaves and are arranged to intercross each other in the opposite directions to each other based on central lines of the waveguides.