A power tool may include a compartment in its housing and a first printed circuit board (PCB) located in the housing and electrically coupled to a first connector. An insertable wireless communication device may include a second electronic processor and an antenna that are each mounted to a second PCB. The insertable wireless communication device may be configured to be received in the compartment and may include a second connector configured to electrically and physically couple to the first connector. The insertable wireless communication device may be configured to wirelessly communicate with an external device. When the insertable wireless communication device is inserted into the compartment, a first conductive layer of the first PCB may be configured to be electrically coupled to the antenna via the first connector and the second connector such that the first conductive layer of the first PCB serves as a ground plane of the antenna.

Provided are a structure and alignment method of array antennas for a vehicle radar, the structure and method being able to adjust the locations, number of channels, number of arrays, and channel distance according to the type of antennas, so as to minimize a space occupied by the antennas while maintaining the radiation efficiency of the antennas. Even in a case in which conditions regarding the location of the array antennas and the number of channels are changed within designated ranges, the efficient array antenna structure minimizes the area of array antennas for a vehicle while maintaining the detection ability of the array antennas.

An installable wireless communications module for a media processing device includes: a body configured for placement into a chamber of the media processing device, the body including an alignment feature configured to engage with a mating feature within the chamber; an electrical interface supported on the body and configured to engage with a connector of the media processing device disposed within the chamber; a communications controller supported on the body and connected with the electrical interface; an antenna support extending from the body and configured for receipt in a channel extending from the chamber of the media processing device; and an antenna affixed to the antenna support and electrically connected to the controller.

A radio frequency module includes a first electronic component embedded in an insulating layer, a wiring line connected to the first electronic component, and a via conductor extending in a direction perpendicular or substantially perpendicular to a main surface of the insulating layer and including a first portion and a second portion. The first portion of the via conductor is connected to the wiring line. A sectional area of the first portion of the via conductor in a direction parallel or substantially parallel to the main surface of the insulating layer differs from a sectional area of the second portion of the via conductor in the direction parallel or substantially parallel to the main surface of the insulating layer.

A lighting device (100) is provided. The lighting device (100) includes a first circuit board (110), including at least a first light emitting element (130) and a second light emitting element (132) mounted thereon. The lighting device also includes a second circuit board (120) which comprises an aperture (140). The second circuit board is arranged relative to the first circuit board such that the aperture is positioned to match a position of the first light emitting element but not a position of the second light emitting element. The lighting device further includes a sensor and/or antenna (150), wherein at least a part of the sensor and/or antenna is provided on a portion (121) of the second circuit board which extends between the first light emitting element and the second light emitting element.

A streaming media player includes a printed circuit board, a video processor, a wireless communications processor, and a patch antenna. The patch antenna includes dielectric material, a conductive patch, and a first antenna feed in a first position with respect to the conductive patch. The patch antenna includes a second antenna feed in a second position with respect to the conductive patch. The first position is orthogonal to the second position. In an embodiment, the second position is rotationally offset from the first position by 90 degrees around an axis through a center of the conductive patch. The streaming media player includes a connector coupled to the video processor and configured to removably couple to a connection port on a display device.

A power tool may include a compartment in its housing and a first printed circuit board (PCB) located in the housing and electrically coupled to a first connector. An insertable wireless communication device may include a second electronic processor and an antenna that are each mounted to a second PCB. The insertable wireless communication device may be configured to be received in the compartment and may include a second connector configured to electrically and physically couple to the first connector. The insertable wireless communication device may be configured to wirelessly communicate with an external device. When the insertable wireless communication device is inserted into the compartment, a first conductive layer of the first PCB may be configured to be electrically coupled to the antenna via the first connector and the second connector such that the first conductive layer of the first PCB serves as a ground plane of the antenna.

An antenna device for providing a higher data transmission rate in a wireless communication system is provided. The antenna device includes a first radiating body mounted to a side surface of a multiple layer circuit board to transmit and receive a wireless signal and a second radiating body mounted to a top surface of the multiple layer circuit board and electrically connected to the first radiating body to transmit and receive the wireless signal together with the first radiating body.

A diagnostic apparatus for analysis, testing, inspecting and/or screening an integrated and assembled electrically powered equipment rack and its populated cards and devices for measurement of degree of device aging, improper operation, degradation, condition, and/or Remaining Useful Life (RUL). The device includes an antenna card with a detachably attachable antenna module that can be positioned at a distance from the electrically devices under test and a signal receiver or sensor for examining a signal from the electrically powered device, but especially applied to rackmount supported electronics and/or chassis based electronics. The receiver or sensor collects unintended and/or intended RF energy components emitted by the electrically powered device and performs the above analysis in a response to the acquired signal input while the electrically powered device is active or powered.

A lighting device (100) is provided. The lighting device (100) includes a first circuit board (110), including at least a first light emitting element (130) and a second light emitting element (132) mounted thereon. The lighting device also includes a second circuit board (120) which comprises an aperture (140). The second circuit board is arranged relative to the first circuit board such that the aperture is positioned to match a position of the first light emitting element but not a position of the second light emitting element. The lighting device further includes a sensor and/or antenna (150), wherein at least a part of the sensor and/or antenna is provided on a portion (121) of the second circuit board which extends between the first light emitting element and the second light emitting element.