Patent application number | Description | Published |
20130293331 | COMPONENT FOR CLAMPING CHOKE TO CHASSIS - A clamp for a choke is provided, the clamp comprising a component configured to hold a choke and at least one electrical connector receiving element for receiving one or more electrical connectors of a choke. The clamp is fitted to the choke and then the assembly is fitted into a device, such as a chassis. | 11-07-2013 |
20130306281 | Plate - The present disclosure relates to a plate for use with a heatsink. The plate is adapted to engage with the heatsink and a fan subassembly, and comprises a first substantially planar section which is adapted to engage with the heatsink and a second substantially planar section which is adapted to engage with the fan subassembly. | 11-21-2013 |
20130307223 | Sealing Element - A sealing element ( | 11-21-2013 |
20130309067 | Fan Guard - There is provided a fan guard for mounting on an electrically-operated axial-flow fan. The fan guard comprises a plurality of fasteners for extending into a plurality of respective holes on the fan and further comprises a projection projecting outwardly from the fan guard from a central support which, in use, is coincident with a central region of the air flow from the axial-flow fan. The fasteners secure the fan guard on the fan by a friction fit between the fasteners and the holes, thereby rendering installation of the fan guard on a fan, and removal of the fan guard from the fan quick and straightforward. | 11-21-2013 |
20130313715 | Component Leg Arrangement - An electronic component including one or more legs for attachment to a circuit board, wherein at least one of said legs includes a spring-acting kink, arranged so as to offers resilience to relative displacement between the end of said leg and the body of said component. The kink may be substantially S-shaped, Z-shaped, U-shaped, wave-shaped or coil-shaped. | 11-28-2013 |
20140151311 | Mount For Electrical Equipment - A mount for supporting a housing of electrical equipment comprises a rectangular frame and a floating strut which rests on the frame to sub-divide the aperture into smaller spaces each for a housing. The frame of the strut engages a gasket on the housing to seal each side of the frame from the other. Multiple housings can be installed in the same frame and the strut and gaskets provide sealing between in the inside and the outside of the frame. | 06-05-2014 |
20140208589 | Method And Tool For Assisting Alignment Of A Pin Header - The present invention relates to a method and tool for assisting alignment of one or more pin headers. In particular, the invention relates to a tool-assisted method of aiding alignment of one or more pin headers placed on a printed circuit board (PCB) prior to soldering, as well as to the tool itself. | 07-31-2014 |
20140339186 | Device For Locking To A DIN Rail - There is provided a device ( | 11-20-2014 |
20150181745 | Mounting Latch - A mounting latch for mounting a device to a rail is provided. The mounting latch comprises: a moveable actuator having a profile; a latch mechanism comprising first and second opposed rail engaging members, at least one of the members having a face for causing the member to yield against a bias source when the latch mechanism is engaging with the rail; and a follower enabling the at least one member to follow a rotational movement of the actuator such that movement of the actuator in a first direction causes the at least one member to become unlatched from the rail. | 06-25-2015 |
Patent application number | Description | Published |
20130082258 | METHOD FOR STRIP TESTING OF MEMS DEVICES, TESTING STRIP OF MEMS DEVICES AND MEMS DEVICE THEREOF - A method for testing a strip of MEMS devices, the MEMS devices including at least a respective die of semiconductor material coupled to an internal surface of a common substrate and covered by a protection material; the method envisages: detecting electrical values generated by the MEMS devices in response to at least a testing stimulus; and, before the step of detecting, at least partially separating contiguous MEMS devices in the strip. The step of separating includes defining a separation trench between the contiguous MEMS devices, the separation trench extending through the whole thickness of the protection material and through a surface portion of the substrate, starting from the internal surface of the substrate. | 04-04-2013 |
20150145077 | METHOD OF STACKING A PLURALITY OF DIES TO FORM A STACKED SEMICONDUCTOR DEVICE, AND STACKED SEMICONDUCTOR DEVICE - A method of stacking a plurality of first dies to a respective plurality of second dies, each one of the first dies having a surface including a surface coupling region which is substantially flat, each one of the second dies having a respective surface including a respective surface coupling region which is substantially flat, the method comprising the steps of: forming, by means of a screen printing technique, an adhesive layer on the first dies at the respective surface coupling regions; and arranging the surface coupling region of each second die in direct physical contact with a respective adhesive layer of a respective first die among said plurality of first dies. | 05-28-2015 |
20160090301 | PACKAGES FOR SEMICONDUCTOR DEVICES AND METHODS FOR ASSEMBLING SAME - One or more embodiments of the present disclosure are directed to packages that include a stacked microelectromechanical sensor MEMS die and an application-specific integrated circuit (ASIC) die. The smaller of the MEMS die and the ASIC die is stacked on the larger of the MEMS die and the ASIC die. The larger of the two dice may form one or more dimensions of the package. In one embodiment, a bottom surface of the larger of the two dice forms an outer surface of the package. In that regard, the package may take less lateral space on another component, such as a board or other package. | 03-31-2016 |