A component determination system for determining, in a case when a first component to be mounted on a board by a first mounting operation and a second component mounted on the board by a second mounting operation have a particular corresponding relationship, whether a combination of the first component and the second component mounted is permissible, the component determination system including: a first characteristic information acquiring section configured to acquire first characteristic information of the first component for which the first mounting operation has been completed; a second characteristic information acquiring section configured to acquire second characteristic information of the second component prepared prior to the second mounting operation; and a combination determining section configured to determine whether to allow the combination of the first component and the second component based on the acquired first characteristic information and the acquired second characteristic information.

An electric machine includes a stator, a rotor, a printed circuit board having at least one sensor configured to detect a position of the rotor, and a system configured to arrange the at least one sensor in different positions on the stator relative to the stator.

An electronic breadboard system may include a computing device including a display screen. The display screen has a first portion to display an electronic circuit model and a second portion directly adjacent to the first portion. The electronic breadboard system also includes a translucent breadboard on the second portion of the display screen. The translucent breadboard includes a translucent face plate having a rectangular grid of openings exposing a plurality of contacts. The plurality of contacts are arranged lengthwise along each row of the rectangular grid of openings and orthogonal to a transparent back plate coupling the plurality of contacts to the translucent face plate. The electronic breadboard system includes a graphics controller. The graphics controller may illuminate a row opening and/or a column opening of the translucent breadboard to direct placement of electrical components of a computer model in response to user interaction with the electronic circuit model.

A circuit board on which a first set or a second set is exclusively mounted includes an IC attachment part, first and second attachment parts, and first, second, and third conductor patterns. The first set includes a first integrated circuit and a first electric element, and the second set including a second integrated circuit and a second electric element. The first attachment part includes first and second pads, and the second attachment part includes third and fourth pads. In a case where the first electric element is not mounted, the first pad and the second pad of the first attachment part are opened so as not to be electrically conductive with each other. In a case where the second electric element is not mounted, the third pad of the second attachment part and the second pad are opened so as not to be electrically conductive with each other.

A printed circuit board (PCB) having a lateral extent and comprising a side landing pad for direct bonding of an optoelectronic chip, whereby the side landing pad comprises at least two landing areas being differently oriented with regard to the lateral, thus enabling a bonding of the chip in at least two different lateral orientations relative to the printed circuit board, whereby the electrical connection lengths of the landing areas are equal, and an optoelectronic module based on such a printed circuit board and an according time of flight camera.

Substrates for semiconductor packages, including hybrid substrates for decoupling capacitors, and associated devices, systems, and methods are disclosed herein. In one embodiment, a substrate includes a first pair and a second pair of electrical contacts on a first surface of the substrate. The first pair of electrical contacts can be configured to receive a first surface-mount capacitor, and the second pair of electrical contacts can be configured to receive a second surface-mount capacitor. The first pair of electrical contacts can be spaced apart by a first space, and the second pair of electrical contacts can be spaced apart by a second space. The first and second spaces can correspond to corresponding to first and second distances between electrical contacts of the first and second surface-mount capacitors.

A wireless communication board comprises: a communication board; a wireless communication part disposed on the communication board; a power supply provided on the communication board and configured to supply a power source to the wireless communication part; a surface mounting pad that is connected to the wireless communication part and power supply and disposed on a main board by means of the surface mounting technology; and a wire connection connected to the wireless communication part and power supply and connected to the main board by means of a wire, wherein the main board comprises a main processor for controlling the operation of an electronic device.

According to one embodiment, a printed circuit board includes a substrate and a shared pad group provided on the substrate and including a plurality of shared pads. The shared pads include a first area, a second area smaller in size than the first area, a port of which is overlap the first area and an other port of which is located to protrude from the first area to a side of another one of the shared pads, and a second side edge located on a side of another shared pad. The second pad side edge includes a first side edge defining the first area, a second side edge defining the second area and displaced on a side of another shared pad with respect to the first side edge, and a sloping side edge connecting the first side edge and the second side edge to each other.

A battery charger may include a printed circuit board (PCB) having a first portion supporting alternating current (AC) electrical components and a second portion supporting direct current (DC) electrical components; an indicator including a light-emitting diode (LED) supported on the first portion of the PCB and operable to emit light; and an isolating member positioned on the first portion between the AC electrical components and the LED. A trace on the PCB may be electrically connected to the second portion of the PCB, the trace extending from the second portion and along the first portion, and the LED may be electrically connected to and receiving DC power through the trace, the LED being selectively positioned along a length of the trace. The LED may be positioned more than about 8 mm from the AC electrical components.

Substrates for semiconductor packages, including hybrid substrates for decoupling capacitors, and associated devices, systems, and methods are disclosed herein. In one embodiment, a substrate includes a first pair and a second pair of electrical contacts on a first surface of the substrate. The first pair of electrical contacts can be configured to receive a first surface-mount capacitor, and the second pair of electrical contacts can be configured to receive a second surface-mount capacitor. The first pair of electrical contacts can be spaced apart by a first space, and the second pair of electrical contacts can be spaced apart by a second space. The first and second spaces can correspond to corresponding to first and second distances between electrical contacts of the first and second surface-mount capacitors.