| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 439633000 | Having polarizing means | 9 |
| 20080207058 | Card edge connector with durable key - An electrical connector ( | 08-28-2008 |
| 20090186527 | MICRODVI CONNECTOR - A small form-factor, high performance connector is disclosed. This connector is intended for use with high bandwidth digital video, implementing differential digital signaling, as well as for high bandwidth analog video. The described connector system performs the function of the Digital Visual Interface (DVI) connector, but in a significantly smaller package. Signal integrity is maintained in the smaller form factor by the expedient assignment of signals to pins so that the pin above or below any signal is not used on that interface, thus reducing the chances for signal crosstalk. The pin shape and spacing are created to match pin lengths and minimize inductance while maintaining the proper impedance up to 2.5 GHz. This connector system also implements a tactile feedback mechanism to aid with cable plug insertion, and incorporates a keying mechanism to prevent reverse-plugging. | 07-23-2009 |
| 20090233489 | HOST DEVICE - A card controller receives data from a recording card via a socket. A read clock is transmitted in a main transmission wiring, and the data is transmitted in a data transmission wiring. The read clock is withdrawn from the card controller by an outgoing transmission wiring and retrieved into the card controller by an incoming transmission wiring. A transmission delay amount of the outgoing transmission wiring is equal to that of the main transmission wiring, and a transmission delay amount of the incoming transmission wiring is equal to that of the data transmission wiring. The card controller receives the data in synchronization with the read clock retrieved by the incoming transmission wiring. | 09-17-2009 |
| 20110086552 | CARD EDGE CONNECTOR WITH IMPROVED COVER - A card edge connector comprises an insulative housing defining a front mating face and a central slot recessed rearwardly from the mating face. A plurality of contacts each has a contact portion exposed into the central for mating with a complementary connector and a solder tail exposed to outside of the housing. A cover is assembled to a rear side of the housing. A spacer sandwiched between the housing and the cover along a front-to-rear direction. The spacer defines a plurality of through holes through which the solder tails of the contacts passing. | 04-14-2011 |
| 20110097938 | CONNECTOR BLOCK FEATURE - A memory card connector, within a slot of a host device, for receiving a first memory card having a first row of contact fingers and a second row of contact fingers and a second memory card having only a single row of contact fingers. The memory card connector includes a first row of contact pins, a second row of contact pins and a protrusion. The first row of contact pins are configured to mate with the first row of contact fingers of the first memory card. The second row of contact pins are configured to mate with the second row of contact fingers of the first memory card. The protrusion is received within a contact finger in the second row of contact fingers of the first memory card to allow full insertion of the first memory card into the connector, and abuts against a distal end of one of the contact fingers of the second memory card to prevent full insertion of the second memory card into the connector. | 04-28-2011 |
| 20110104952 | CARD EDGE CONNECTOR - A card edge connector comprises a pair of mount members attached to the bottom of the insulating housing thereof. Each mount member comprises a body portion, at least one fitting nail connected to the body portion and configured to be disposed transversely for being soldered on a printed circuit board, and a tab portion connecting to the body portion and configured to be freely insertable into an aperture formed on the printed circuit board. | 05-05-2011 |
| 20120083165 | NOVEL CONTACT CONFIGURATION FOR ELECTRONICS TO BASE CONNECTION - An electronics circuit board includes a periphery defined by a plurality of edges. At least one power contact is located adjacent a first one of said edges and a plurality of data contacts are located adjacent a second one of said edges. The first and second edges are arranged transversely relative to each other. The circuit board is operatively installed on a base that includes a power connector and a data connector. At least one power contact of the circuit board is operably engaged with the power connector and the plurality of data contacts of the circuit board are operably engaged with said data connector. The power connector is located adjacent said first edge of the circuit board and the data connector is located adjacent a second edge of the circuit board. | 04-05-2012 |
| 20130084753 | LOWER PROFILE CARD EDGE CONNECTOR - A card edge connector for receiving a card which is rotatably assembled includes an insulative housing, a plurality of terminals and a pair of metal pieces. The insulative housing has a inserted slot for receiving the card and a key within the inserted slot for anti-mismating of the card. The terminals are arranged in a single row and located at one side of the inserted slot. Each terminal includes a solder portion extending out of the insulative housing and a contacting portion projecting into the inserted slot. The metal pieces locate at the other side of the inserted slot, each of which includes a mounting portion and an abutting portion projecting into the inserted slot. The terminals are arranged in a single row for reducing the height of the card edge connector. | 04-04-2013 |
| 20130237097 | MEMORY CARD CONNECTOR - A memory card connector includes a housing including an accommodation portion and contacts, a slider movable between an initial position and a fully-inserted position, a correct-insertion abutting portion and an incorrect-insertion abutting portion provided on the slider, and a stopper-switch leaf spring. A stopper is provided on the stopper-switch leaf spring, wherein the slider is allowed to slidably move from the initial position to the fully-inserted position when the stopper-switch leaf spring is positioned at a stopper-ineffective position, and the slider is prevented from slidably moving from the initial position to the fully-inserted position when the stopper-switch leaf spring is positioned at a stopper-effective position. The stopper-switch leaf spring and the stopper are positioned within the housing when the stopper-switch leaf spring is in a free state. | 09-12-2013 |
