An avionics system for an unmanned aerial vehicle (UAV) includes a housing having a mounting hole, a flight control circuit board arranged inside the housing, a wireless communication circuit board integrated with the flight control circuit board on a printed circuit board (PCB), a positioning circuit arranged inside the housing and above or below the PCB, and a connection wire passing through the mounting hole and connecting the flight control circuit board with an electronic governor of the UAV arranged outside the housing.

The present disclosure relates to a device configured to be adhered to the surface of a mammal for recording physiological signals. The device may include a housing enclosing a circuit board and a flexible wing extending from the housing. The device may include an electrode coupled to the flexible wing and an electrical trace for transmitting an electrical signal between the electrode and the circuit board. The electrical trace may have an insulator with a conductive material and resistors printed on the surface of the insulator. The trace layer may include conductive vias for transmitting the signal from a bottom of the trace layer to a top of the trace layer. The housing may include a battery having a battery terminal connector configured to provide electrical access to both terminals on a single side of the battery. The housing may include a floating trigger button.

Provided is a photosensor in which a cable can be easily mounted on a circuit board. A photosensor is provided with: a housing; a cable; a first circuit board; and a second circuit board. A through-hole is formed in the housing. The cable is inserted into the through-hole. The first circuit board and the second circuit board are accommodated in the housing. The first circuit board is provided with a first connector. The second circuit board has a first portion and a second portion. The cable is soldered to the first portion. The second portion is provided with a second connector. The second connector is inserted into the first connector. The second circuit board connects the cable and the first circuit board.

A control device for a vehicle may include a housing, a first interface for connecting to a communication network in the vehicle, a connecting unit that is connected to the first interface, a first assembly connected to the connecting unit which is configured to control a function in the vehicle, and a port for a second assembly that is configured to control another function in the vehicle.

A power adapter includes a first output port, a second output port, a motherboard, a first flyback power module, a second flyback power module, a bus capacitor and an EMI module. The first flyback power module has a first circuit board and is electrically connected to the first output port. The second flyback power module has a second circuit board and is electrically connected to the second output port. The EMI module has a third circuit board and is arranged on the motherboard. The first circuit board and the second circuit board are arranged in parallel with each other, and are arranged substantially perpendicular to the motherboard on a first side of the motherboard.

The present disclosure relates to a device for driving a motor, including a lower case having an accommodating space formed therein and an open upper side; an upper case closing an open surface of the lower case to form an inner space; a central case disposed in the lower case to partition an inner space formed by the lower case and the upper case; a first board disposed on the lower case and comprising a first connector; a second board disposed on the central case and comprising a second connector; and a connection board disposed in the inner space and comprising a first connection connector electrically connected to the first connector and a second connection connector electrically connected to the second connector to transmit electric signals between the board.

A housing includes: a box-shaped main body portion accommodating an electronic circuit substrate and including an opening portion; a lid portion covering the opening portion so as to be able to open or close the opening portion; a jumper detachably attached to the electronic circuit substrate; a window portion different from the opening portion, the window portion being opposed to the jumper and being open at the main body portion; and a cover portion covering the window portion so as to be able to open or close the window portion.

Arc Fault Circuit Interrupter (AFCI), Ground Fault Circuit Interrupter (GFCI) or AF/GF circuit breakers which may optionally have relatively small or compact bodies that have shaped neutral busbars and/or load terminals with an arm that extends through a window of a current transformer in a circuit breaker housing. The neutral busbar and/or load terminal can have a rigid or semi-rigid shaped body with a first segment that extends through the window of the current transformer and a second segment that extends behind the first segment about a printed circuit board. A plug-on, pigtail or bolt-on neutral can engage an electrical pad of the neutral busbar.

The present disclosure relates to a shift bracket that is coupled to a top plate of a cover panel for covering a floor tunnel and to which a shift lever unit is attached on an upper side. The shift bracket includes: a base plate to which the shift lever unit is attached; and a front leg portion and a rear leg portion that are coupled to the base plate and the top plate of the cover panel and hold the base plate with a space being provided upward in a vehicle vertical direction from the top plate. An ECU is disposed in the space between the top plate of the cover panel and the base plate.

A power terminal includes first and second conductive sheets. The first conductive sheet includes a first joining portion, first fingers extending from the first joining portion, and a first mounting portion extending from the first joining portion and configured to mount to a substrate. The first fingers have hooked ends connected to the first joining portion by first beams. The second conductive sheet includes a second joining portion, second fingers extending from the second joining portion, and a second mounting portion extending from the second joining portion and configured to mount to the substrate. The two second fingers have curved ends connected to the second joining portion by second beams. The hooked ends and the curved ends include contact surfaces configured to contact a same side of a card. At least one of the first and second mounting portions includes at least two mounting tails.