Patent application number | Description | Published |
20080277782 | FLASH MEMORY CARD - A Flash memory card is disclosed comprising a substrate, a Flash memory die on top of the substrate, a controller die on top of the Flash memory die, and an interposer coupled to with the controller die and on top of the Flash memory die wherein the interposer results in substantial reduced wire bonding to the substrate. The interposer can surround or be placed side by side with the controller die. A system and method in accordance with the present invention achieves the following objectives: (1) takes advantage of as large of a Flash memory die as possible, to increase the density of the Flash card by reducing the number of wire bond pads on the substrate and enabling insertion of the largest die possible that can fit inside a given card interior boundary; (2) more efficiently stacks Flash memory dies to increase density of the Flash card; and (3) has a substantially less number of bonding wires to the substrate as possible, to improve production yield. | 11-13-2008 |
20080279382 | SECURE AND SCALABLE SOLID STATE DISK SYSTEM - A solid state disk system is disclosed. The system comprises a user token and at least one level secure virtual storage controller, coupled to the host system. The system includes a plurality of virtual storage devices coupled to at least one secure virtual storage controller. A system and method in accordance with the present invention could be utilized in flash based storage, disk storage systems, portable storage devices, corporate storage systems, PCs, servers, wireless storage, and multimedia storage systems. | 11-13-2008 |
20080282027 | SECURE AND SCALABLE SOLID STATE DISK SYSTEM - A solid state disk system is disclosed. The system comprises a user token and at least one level secure virtual storage controller, coupled to the host system. The system includes a plurality of virtual storage devices coupled to at least one secure virtual storage controller. A system and method in accordance with the present invention could be utilized in flash based storage, disk storage systems, portable storage devices, corporate storage systems, PCs, servers, wireless storage, and multimedia storage systems. | 11-13-2008 |
20080282264 | SECURE AND SCALABLE SOLID STATE DISK SYSTEM - A solid state disk system is disclosed. The system comprises a user token and at least one level secure virtual storage controller, coupled to the host system. The system includes a plurality of virtual storage devices coupled to at least one secure virtual storage controller. A system and method in accordance with the present invention could be utilized in flash based storage, disk storage systems, portable storage devices, corporate storage systems, PCs, servers, wireless storage, and multimedia storage systems. | 11-13-2008 |
20090283313 | SMALL FORM FACTOR MOLDED MEMORY CARD AND A METHOD THEREOF - A shape-molding structure of a memory card comprises a circuit substrate, at least one chip, and an encapsulant covering. The upper and lower surfaces of the circuit substrate have a circuit layer and a plurality of electric contacts, respectively. The chip is located on the upper surface of the circuit substrate and electrically connected with the circuit layer. The encapsulant covering is formed by using a mold to press encapsulant entering at least one encapsulant inlet provided on at least one side surface of the circuit substrate. The encapsulant covering encapsulates all the above components with only the electric contacts exposed. A trace mark of the encapsulant inlet remaining on the encapsulant covering is then cut to obtain a shape-molding structure of memory card with an smooth and intact outer appearance. | 11-19-2009 |
20100133673 | FLASH MEMORY CARD - A Flash memory card is disclosed comprising a substrate, a Flash memory die on top of the substrate, a controller die on top of the Flash memory die, and an interposer coupled to with the controller die and on top of the Flash memory die wherein the interposer results in substantial reduced wire bonding to the substrate. The interposer can surround or be placed side by side with the controller die. A system and method in accordance with the present invention achieves the following objectives: (1) takes advantage of as large of a Flash memory die as possible, to increase the density of the Flash card by reducing the number of wire bond pads on the substrate and enabling insertion of the largest die possible that can fit inside a given card interior boundary; (2) more efficiently stacks Flash memory dies to increase density of the Flash card; and (3) has a substantially less number of bonding wires to the substrate as possible, to improve production yield. | 06-03-2010 |
20100262768 | CONFIGURABLE FLASH MEMORY CONTROLLER AND METHOD OF USE - A FLASH memory controller is disclosed. The controller comprises a microcontroller. The microcontroller including firmware for providing different mappings for different types of FLASH memory chips. The controller also includes FLASH control logic for communicating with the microcontroller and adapted to communicate via a FLASH data bus to at least one FLASH memory chip. The FLASH control logic including mapping logic for configuring the FLASH data bus based upon the type of FLASH memory chip coupled thereto. A method and system in accordance with the present invention provides the following advantages: Configurable data bus on the FLASH memory controller through software to simplify routing complexity. Configurable chip select and control bus for flexibility of FLASH memory placement. Elimination of external resistor network for layout simplicity. A scalable architecture for higher data bus bandwidth support. Auto-detection of FLASH memory type and capacity configuration. | 10-14-2010 |
20100268873 | FLASH MEMORY CONTROLLER UTILIZING MULTIPLE VOLTAGES AND A METHOD OF USE - A Flash memory controller is disclosed. The Flash memory controller comprises a host interface, a Flash memory interface, controller logic coupled between the host interface, the controller logic handling a plurality of voltages. The controller also includes a mechanism for allowing a multiple voltage host to interface with a high voltage or a multiple voltage Flash memory. A multiple voltage Flash memory controller in accordance with the present invention provides the following advantages over conventional Flash memory controllers: (1) a voltage host is allowed to interface with multiple Flash memory components that operate at different voltages in any combination; (2) power consumption efficiency is improved by integrating the programmable voltage regulator, and voltage comparator mechanism with the Flash memory controller; (3) External jumper selection is eliminated for power source configuration; and (4) Flash memory controller power source interface pin-outs are simplified. | 10-21-2010 |