A semiconductor package device includes a first substrate, a second substrate and a first spacer. The first substrate includes a first divided pad. The second substrate includes a second divided pad disposed above the first divided pad. The first spacer is disposed between the first divided pad and the second divided pad. The first spacer is in contact with the first divided pad and the second divided pad.

A semiconductor package device includes a first substrate, a second substrate and a first spacer. The first substrate includes a first divided pad. The second substrate includes a second divided pad disposed above the first divided pad. The first spacer is disposed between the first divided pad and the second divided pad. The first spacer is in contact with the first divided pad and the second divided pad.

Example slot antennas for electronic user device and related methods are disclosed herein. An example electronic user device includes a first housing; a second housing rotatably coupled to the first housing; a display screen carried by the second housing; a dual-band antenna carried by the second housing; and a bezel about the display screen, the bezel to cover the dual-band antenna.

Example slot antennas for electronic user device and related methods are disclosed herein. An example electronic user device includes a first housing; a second housing rotatably coupled to the first housing; a display screen carried by the second housing; a dual-band antenna carried by the second housing; and a bezel about the display screen, the bezel to cover the dual-band antenna.

An apparatus for exchanging liquid crystal (LC) between two areas of an antenna array in an antenna and method for using the same are disclosed. In one embodiment, the antenna comprises an antenna element array formed using portions of first and second substrates with a liquid crystal (LC) therebetween, and a structure between the first and second substrates and in an area outside of, and at an outer periphery of, the antenna element array to collect LC from an area between the first and second substrates forming the RF antenna elements due to LC expansion and to provide LC to the area between the first and second substrates forming the RF antenna elements due to LC contraction, the structure having a plurality of support spacers between the first and second substrates.

The present invention provides a small low-profile antenna device for a vehicle, the antenna device being able to achieve bandwidth widening and increase gain in a horizontal direction by being fixed to a predetermined part of the vehicle. The antenna device for a vehicle includes a metal surface and a slot 110 is formed in the metal surface with a slit 111 provided at a part of edges of the slot 110. The slot faces a direction parallel to the ground with a first power feed unit G1 being provided on inner edges of the slot. A slot 120, in which the slit 111 is provided, operates as a slot antenna adapted to transmit or receive signals in four or more frequency bands.

The present invention provides a small low-profile antenna device for a vehicle, the antenna device being able to achieve bandwidth widening and increase gain in a horizontal direction by being fixed to a predetermined part of the vehicle. The antenna device for a vehicle includes a metal surface and a slot 110 is formed in the metal surface with a slit 111 provided at a part of edges of the slot 110. The slot faces a direction parallel to the ground with a first power feed unit G1 being provided on inner edges of the slot. A slot 120, in which the slit 111 is provided, operates as a slot antenna adapted to transmit or receive signals in four or more frequency bands.

Aspects of the disclosure provide an antenna system. The antenna system can include a dielectric substrate that has a top surface and a bottom surface covered by a ground plane, and four identical antenna elements symmetrically distributed on each corner of the bottom surface. Each antenna element can have a concentric-pentagonal-slot-based structure that is etched out of the ground plane, and includes an outer pentagonal slot and an inner pentagonal slot. Each side of the outer pentagonal slot can be parallel with a corresponding side of the inner pentagonal slot.

Many embodiments provide a frequency comb receiver that includes a PIN diode, a THz pulse generator block that generates THz tones (LO) for coherent frequency comb detection, an on-chip antenna for broadband detection and a driver stage switched by a series of buffers, where a repetition rate of the LO tones are tunable over a range and determines a spacing between two adjacent tones in the corresponding frequency comb.

Many embodiments provide a frequency comb receiver that includes a PIN diode, a THz pulse generator block that generates THz tones (LO) for coherent frequency comb detection, an on-chip antenna for broadband detection and a driver stage switched by a series of buffers, where a repetition rate of the LO tones are tunable over a range and determines a spacing between two adjacent tones in the corresponding frequency comb.