278results about How to "Minimal time" patented technology

A system loads, authenticates and uses a virtual smart card for payment of goods and / or services purchased on-line over the Internet. An online purchase and load (OPAL) server includes a virtual smart card data base that has a record of information for each smart card that it represents for a user at the behest of an issuer. The server includes a smart card emulator that emulates a smart card by using the card data base and a hardware security module. The emulator interacts with a pseudo card reader module in the server that imitates a physical card reader. The server also includes a client code module that interacts with the pseudo card reader and a remote payment or load server. A pass-through client terminal presents a user interface and passes information between the OPAL server and a merchant server, and between the OPAL server and a bank server. The Internet provides the routing functionality between the client terminal and the various servers. A merchant advertises goods on a web site. A user uses the client terminal to purchase goods and / or services from the remote merchant server. The payment server processes, confirms and replies to the merchant server. The payment server is also used to authenticate the holder of a virtual card who wishes to redeem loyalty points from a merchant. To load value, the client terminal requests a load from a user account at the bank server. The load server processes, confirms and replies to the bank server.

The present invention presents a “smart verify” technique whereby multi-state memories are programmed using a verify-results-based dynamic adjustment of the multi-states verify range for sequential-state-based verify implementations. This technique can increase multi-state write speed while maintaining reliable operation within sequentially verified, multi-state memory implementations. It does so by providing “intelligent” element to minimize the number of sequential verify operations for each program / verify / lockout step of the write sequence. In an exemplary embodiment of the write sequence for the multi-state memory during a program / verify cycle sequence of the selected storage elements, at the beginning of the process only the lowest state of the multi-state range to which the selected storage elements are being programmed is checked during the verify phase. Once the first storage state is reached by one or more of the selected elements, the next state in the sequence of multi-states is added to the verify process.

An electrical connector for a coaxial cable with a solid outer conductor, the connector in combination with a cable and a method of manufacturing. The electrical connector having a connector body with a bore between a connector end and a cable end. The bore having an inner diameter shoulder at the cable end. A cylindrical sleeve positioned in the bore abutting the inner diameter shoulder. An annular groove open to the cable end, between the cylindrical sleeve and the cable end of the connector body. The annular groove dimensioned to receive an end of the solid outer conductor.