A metal body antenna having loop type radiation elements in which a housing unit is used as an antenna includes a radiation element supplied with a signal from a feeding power port, a ground coupled to the radiation element by loop coupling and in which an induction current is generated, and a frame bezel unit having an open end part separated from the ground by a dielectric and a gap. The frame bezel unit having the open end part supplied with an electric current induced into the ground is connected, and the metal body antenna operates in a wideband in multiple bands having an electrical length of a half wavelength. Accordingly, the bezel unit of a frame unit is effectively used and all of the Penta bands (i.e., GSM850, EGSM, DCS, PCS, and W2100) used in mobile phones is satisfied through a wideband multi-antenna structure having a small radiation loss.

An antenna structure includes a metallic member, a feed portion, a ground portion and a radiating portion. The metallic member includes a front frame, a backboard, and a side frame. The side frame defines a slot. The front frame defines a first gap and a second gap, which are in communication with the slot and extend across the front frame. A straight portion of the front frame between the first gap and the second gap forms a radiating section. The feed portion and the ground portion are electrically connected to the radiating section. Current enters the radiating section from the feed portion. The current flows through the radiating section and towards the second gap. The radiating portion obtains current from the radiating section by coupling. The radiating section and the radiating portion generate radiation signals in two different frequency bands. A wireless communication device using the antenna structure is provided.

An antenna structure includes a metallic member, a feed portion, a ground portion and a radiating portion. The metallic member includes a front frame, a backboard, and a side frame. The side frame defines a slot. The front frame defines a first gap and a second gap, which are in communication with the slot and extend across the front frame. A straight portion of the front frame between the first gap and the second gap forms a radiating section. The feed portion and the ground portion are electrically connected to the radiating section. Current enters the radiating section from the feed portion. The current flows through the radiating section and towards the second gap. The radiating portion obtains current from the radiating section by coupling. The radiating section and the radiating portion generate radiation signals in two different frequency bands. A wireless communication device using the antenna structure is provided.

A metal body antenna using a housing unit and a battery cover as an antenna. The metal body antenna includes a radiation element supplied with a signal from a feeding power port, a ground coupled to the radiation element by loop coupling to generate an induction current, a frame bezel unit separated from the ground by a dielectric and a gap, and a connection line configured to connect the ground and the frame bezel unit and formed over the dielectric so that an electric current induced into the ground flows into the frame bezel unit, wherein an antenna having an electrical length of a half wavelength operates in a wideband. Accordingly, a bezel unit is effectively used, and a wideband and multi-band antenna structure having a radiation loss satisfies all of the Penta Band (i.e., GSM850, EGSM, DCS, PCS, and W2100), that is, bands chiefly used in mobile phones.

A metal body antenna using a housing unit and a battery cover as an antenna. The metal body antenna includes a radiation element supplied with a signal from a feeding power port, a ground coupled to the radiation element by loop coupling to generate an induction current, a frame bezel unit separated from the ground by a dielectric and a gap, and a connection line configured to connect the ground and the frame bezel unit and formed over the dielectric so that an electric current induced into the ground flows into the frame bezel unit, wherein an antenna having an electrical length of a half wavelength operates in a wideband. Accordingly, a bezel unit is effectively used, and a wideband and multi-band antenna structure having a radiation loss satisfies all of the Penta Band (i.e., GSM850, EGSM, DCS, PCS, and W2100), that is, bands chiefly used in mobile phones.

An antenna isolation circuit configured to provide an isolation between two adjacent antennas in a wireless communication device is disclosed. The antenna isolation circuit comprises a partition line circuit comprising a conductive element configured to be placed between the two adjacent antennas; and a matching circuit having a first end and a second end. In some embodiments, the matching circuit is coupled to the partition line circuit at the first end and to a ground circuit at the second end. In some embodiments, the matching circuit is configured to provide an impedance. In some embodiments, a dimension of the conductive element and the impedance of the matching circuit are configured to result in an isolation between the two adjacent antennas.

An antenna isolation circuit configured to provide an isolation between two adjacent antennas in a wireless communication device is disclosed. The antenna isolation circuit comprises a partition line circuit comprising a conductive element configured to be placed between the two adjacent antennas; and a matching circuit having a first end and a second end. In some embodiments, the matching circuit is coupled to the partition line circuit at the first end and to a ground circuit at the second end. In some embodiments, the matching circuit is configured to provide an impedance. In some embodiments, a dimension of the conductive element and the impedance of the matching circuit are configured to result in an isolation between the two adjacent antennas.

A resonator is formed from a unitary slab of a plate of quartz material which is KT cut with a theta cut angle between 20 and 35 degree, the unitary slab of a plate of quartz material having vertical side walls defining (i) an elongated central portion, the elongated central portion having a centerline along its major dimension, the elongated central portion resonating, in use, in an extensional mode disposed at a right angle to said centerline, (ii) a pair of isolating springs integrally connected to said central portion at the centerline thereof and (iii) first and second pairs of tethers, each one of the pairs tethers being integrally connected at a mid point of each the first and second pairs of tethers to ends of the isolating springs remote from the elongated central portion, each of the pairs tethers having two arms which wrap around the elongated central portion so that an end of one arm of the one of the tether approaches, but does not contact, an end of an arm of the another one of the tethers. The elongated central portion has two major opposing surfaces with a first pair of parallel electrodes disposed on one of the two opposing surfaces and with a second pair of parallel electrodes disposed on the other one of the two opposing surfaces. Interconnecting conductors disposed on the elongated central portion, on the isolating springs and on the first and second tethers, interconnecting conductors electrically connecting the first and second electrodes with pads located at the ends of the arms of said tethers.

A resonator is formed from a unitary slab of a plate of quartz material which is KT cut with a theta cut angle between 20 and 35 degree, the unitary slab of a plate of quartz material having vertical side walls defining (i) an elongated central portion, the elongated central portion having a centerline along its major dimension, the elongated central portion resonating, in use, in an extensional mode disposed at a right angle to said centerline, (ii) a pair of isolating springs integrally connected to said central portion at the centerline thereof and (iii) first and second pairs of tethers, each one of the pairs tethers being integrally connected at a mid point of each the first and second pairs of tethers to ends of the isolating springs remote from the elongated central portion, each of the pairs tethers having two arms which wrap around the elongated central portion so that an end of one arm of the one of the tether approaches, but does not contact, an end of an arm of the another one of the tethers. The elongated central portion has two major opposing surfaces with a first pair of parallel electrodes disposed on one of the two opposing surfaces and with a second pair of parallel electrodes disposed on the other one of the two opposing surfaces. Interconnecting conductors disposed on the elongated central portion, on the isolating springs and on the first and second tethers, interconnecting conductors electrically connecting the first and second electrodes with pads located at the ends of the arms of said tethers.

An antenna structure includes a substrate, a radiation element, a conducting element, a grounding element, a first inductor, a second inductor, and a feeding element. The radiation element is disposed on the substrate. The radiation element includes a first radiation portion, a second radiation portion, a third radiation portion, and a feeding portion connected between the first radiation portion, the second radiation portion, and the third radiation portion. The conducting element is disposed on the substrate. The conducting element connects with the feeding portion. The grounding element and the feeding portion are separated from each other. The first inductor is disposed on the substrate, and coupled between the conducting element and the grounding element. The second inductor is disposed on the substrate, and coupled between the conducting element and the grounding element.