Patent application number | Description | Published |
20150014046 | MULTILAYER CIRCUIT BOARD - A multilayer circuit board includes a plurality of stacked substrates, a plurality of first conductive lands, and a plurality of second conductive lands. A surface at a side of each of the substrates has an exposed portion which is not covered by the neighboring substrate, wherein each of the first conductive lands is respectively provided on each of the exposed portions. Each of the second conductive lands is provided on the exposed portion of the outermost substrate, wherein each of the substrates has a conductor pattern to be electrically connected to one of the first conductive lands and to one of the second conductive lands. | 01-15-2015 |
20150015290 | PROBE MODULE SUPPORTING LOOPBACK TEST - A probe module, which supports loopback test and is provided between a PCB and a DUT, includes a substrate, a probe base, two probes, two signal path switchers, and a capacitor. The substrate has two first connecting circuits and two second connecting circuits, wherein an end of each first connecting circuit is connected to the PCB. The probe base is provided between the substrate and the DUT with the probes provided thereon, wherein an end of each probe is exposed and electrically connected to one second connecting circuit, while another end thereof is also exposed to contact the DUT. Each signal path switcher is provided on the probe base, and respectively electrically connected to another end of one first and one second connecting circuits. The capacitor is provided on the probe base with two ends electrically connected to the two signal path switchers. | 01-15-2015 |
20150015291 | CANTILEVER PROBE CARD FOR HIGH-FREQUENCY SIGNAL TRANSMISSION - A cantilever probe card, which is provided between a device under test (DUT) and a tester, includes a carrier board, a probe base, two probes, and a transmission device. The carrier board is provided with through holes. The probe base is provided on the carrier board, and the probes are mounted to the probe base. Each probe has a tip to contact a test pad of the DUT. The transmission device is flexible, and has signal circuits. The transmission device passes through the through hole on the carrier board, and the signal circuits connect the probes to the tester respectively. | 01-15-2015 |
20150015295 | SIGNAL PATH SWITCH AND PROBE CARD HAVING THE SIGNAL PATH SWITCH - A probe card, which is between a tester and a device under test (DUT), includes two first electrical lines, two second electrical lines, two inductive elements, and a capacitor. The first electrical lines are electrically connected to the probes respectively. The second first electrical lines are electrically connected to the first electrical lines respectively. The inductive elements are electrically connected the first electrical lines and the tester respectively; and the capacitor has opposite ends connected to the second first electrical lines respectively. | 01-15-2015 |
Patent application number | Description | Published |
20120248953 | SELF-ADJUSTMENT SUSPENSION APPARATUS AND ELECTRONIC DEVICE WITH SAME - An exemplary suspension apparatus for suspending built-in equipment is provided. The suspension apparatus includes a fixing plate having a main plate and a recessed portion formed at the main plate, and a rotator rotatably engaged with the fixing plate. The rotator includes an engagement head and a connection pole; the engagement head is received in the recessed portion of the fixing plate, an end of the connection pole is connected to the engagement head, and an opposite end of the connection pole is a suspended end for suspending the built-in equipment. | 10-04-2012 |
20130083460 | ELECTRONIC DEVICE - An electronic device includes a first body having a top surface, a second body slidably covering on the first body, and at least one connecting member for connecting the first body with the second body. The second body is capable of sliding from a first position covering the top surface to a second position uncovering the top surface. When the second body is in the first position, the first body hides the top surface to allow the electronic device being used in a first state, and when the second body is in the second position, the second body is operable to be coplanar with the first body to allow the electronic device being used in a second state. | 04-04-2013 |
20130148308 | ELECTRONIC DEVICE - An electronic device includes a body, a cover coupled to the body, and a sliding mechanism. The sliding mechanism includes a rotating component, a first locking component, and a second locking component. When the second locking component moves to a locked position, the second locking component engages with the first locking component to lock the cover to the body. When the second locking component moves to an unlocked position, the first locking component disengages from the second locking component, to allow the rotating component to rotatably drive the cover to be opened. | 06-13-2013 |
20130161461 | CONNECTING STRUCTURE - A connecting structure received in a main device for connecting an auxiliary apparatus. The connecting structure includes a retracting part formed on a bottom board of the main device and close to a sidewall of the main device and a clamping part. The clamping part is pivotablly mounted on the bottom board and pivotally connected to the retracting part. The retracting part drives the clamping part to extend out of the main device via an opening defined on the sidewall for connecting the auxiliary apparatus when the auxiliary apparatus needs to be mounted on the main device. The retracting part retracts the clamping part into the main device when the auxiliary apparatus is unmounted from the main device. | 06-27-2013 |
20130183847 | LATCHING MECHANISM AND CONNECTOR ASSEMLY USING THE SAME - A latching mechanism for latching a plug to a socket is provided. The socket has a housing for receiving the latching mechanism. The latching mechanism includes a latching member slidably received in the housing and a rotating member rotatably received in the housing. The latching member is capable of sliding between a latching position for latching the plug to the socket and an unlatching position for allowing the plug to be disengaged from the socket. The rotating member drives the latching member to slide between the latching position and the unlatching position when rotated. A connector assembly using the latching mechanism is also provided. | 07-18-2013 |