A mobile terminal according to the present invention includes a first conductive member forming a part of a lower end of an outer metal frame, and a second conductive member spaced apart from the first conductive member to form parts of the lower end and a side surface of the outer metal frame. The terminal may further include a conductive line connected to one point of each of the first conductive member and the second conductive member and interconnected inside the mobile terminal. At this time, an antenna device, in which the second conductive member is connected adjacent to a ground at a predetermined position from the one point of the second conductive member, so as to fully cover a low frequency band including an LTE, and which has a hand-effect compensation function, and a mobile terminal can be provided.

A mobile terminal according to the present invention includes a first conductive member forming a part of a lower end of an outer metal frame, and a second conductive member spaced apart from the first conductive member to form parts of the lower end and a side surface of the outer metal frame. The terminal may further include a conductive line connected to one point of each of the first conductive member and the second conductive member and interconnected inside the mobile terminal. At this time, an antenna device, in which the second conductive member is connected adjacent to a ground at a predetermined position from the one point of the second conductive member, so as to fully cover a low frequency band including an LTE, and which has a hand-effect compensation function, and a mobile terminal can be provided.

A UHF data carrier (60) has a cylindrical plastic housing (50) having an open end and a closed end. A UHF mass tag (10) is arranged in the plastic housing (50). A metal plate (30) is arranged on the side of the UHF mass tag (10) facing away from the closed end. A spacer (20) is arranged between the UHF mass tag (10) and the metal plate (30). The spacer (20) is adhered to the UHF mass tag (10) and the metal plate (30) to form a composite for producing the UHF data carrier (60). The composite is inserted into the plastic housing (50) such that the UHF mass tag (10) faces towards the closed end of the plastic housing (50).

A UHF data carrier (60) has a cylindrical plastic housing (50) having an open end and a closed end. A UHF mass tag (10) is arranged in the plastic housing (50). A metal plate (30) is arranged on the side of the UHF mass tag (10) facing away from the closed end. A spacer (20) is arranged between the UHF mass tag (10) and the metal plate (30). The spacer (20) is adhered to the UHF mass tag (10) and the metal plate (30) to form a composite for producing the UHF data carrier (60). The composite is inserted into the plastic housing (50) such that the UHF mass tag (10) faces towards the closed end of the plastic housing (50).

Cable connector block assemblies for base station antennas are provided herein. A cable connector block assembly includes a block including a cable retention clip, a first metal piece, and a second metal piece. In some embodiments, the first and second metal pieces are in first and second recesses, respectively, of the block. Moreover, in some embodiments, the cable retention clip, the first metal piece, and the second metal piece are configured to receive different first, second, and third portions, respectively, of a cable.

An antenna module and a transceiver that includes the antenna module which allow high-speed full-duplex communication. The antenna module has at least one antenna for transmitting and receiving electromagnetic radiation, at least one transmitter connection element and at least one receiver connection element for electrically connecting the antenna module to a transmitter circuit and a receiver circuit. The at least one transmitter connection element is in a transmitter section, the at least one receiver connection element is in a receiver section, and the at least one antenna is in an antenna section. The antenna section is between the at least one receiver section and the at least one transmitter section.

A system for detecting proximity of a conductive object to an antenna element is provided. The system includes a cover layer including a thin film resistive element and cover glass, an antenna layer including an antenna element, and a dielectric gap layer including an electrically insulating material. The antenna element is configured to transmit a signal. The thin film resistive element includes a material having greater conductivity than the cover glass and is configured to detectably capacitively couple with the conductive object when the conductive object is within proximity of the thin film resistive element. The dielectric gap layer is positioned between the cover layer and the antenna layer and electrically insulates the antenna element from the thin film resistive element.

A system for detecting proximity of a conductive object to an antenna element is provided. The system includes a cover layer including a thin film resistive element and cover glass, an antenna layer including an antenna element, and a dielectric gap layer including an electrically insulating material. The antenna element is configured to transmit a signal. The thin film resistive element includes a material having greater conductivity than the cover glass and is configured to detectably capacitively couple with the conductive object when the conductive object is within proximity of the thin film resistive element. The dielectric gap layer is positioned between the cover layer and the antenna layer and electrically insulates the antenna element from the thin film resistive element.

An antenna comprises first and second substrates with one or more spacers disposed therebetween so as to provide a substantially uniform an air gap between the substrates. Disposed on the first and second substrates are one or more antenna elements and disposed on at least one of the substrates is a feed circuit.

An antenna comprises first and second substrates with one or more spacers disposed therebetween so as to provide a substantially uniform an air gap between the substrates. Disposed on the first and second substrates are one or more antenna elements and disposed on at least one of the substrates is a feed circuit.