| Patent application number | Description | Published |
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| 20080232060 | Multi-Level Cell (MLC) Rotate Flash Memory Device - A portable USB device is described herein. According to one embodiment, a portable USB device includes a core unit having a USB plug connector coupled to one or more multi-level cell (MLC) flash memory devices and an MLC flash controller disposed therein. The device further includes a housing for enclosing the core unit. The device further includes a swivel cap having a top surface and a bottom surface by bending a flat panel into a U-shape block having an opening end, a close end, and two side-openings, where the top and bottom surfaces of the swivel cap include a rivet opening align with each other. The housing having the core unit therein is sandwiched by the swivel cap using a set of rivets through the rivet openings of the housings and the swivel cap. The core unit can be rotated with respect to the rivet set in and out of the swivel cap. | 09-25-2008 |
| 20080233798 | Multi-Level Cell (MLC) Slide Flash Memory - A portable USB device with an improved configuration is described herein. According to one embodiment, a portable USB device includes a core unit having a USB plug connector coupled to one or more multi-level cell (MLC) flash memory devices and an MLC flash controller disposed therein. The portable USB device further includes a housing for enclosing the core unit, including a front end opening to allow the USB plug connector to be deployed. The portable USB device further includes a core unit carrier for carrying the core unit for deploying and retracting the core unit, including a slide button to allow a finger of a user to slide the USB plug connector of the core unit in and out of the housing via the front end opening of the housing. | 09-25-2008 |
| 20080256287 | Methods and systems of managing memory addresses in a large capacity multi-level cell (MLC) based flash memory device - Methods and systems of managing memory addresses in a large capacity multi-level cell based flash memory device are described. According to one aspect, a flash memory device comprises a processing unit to manage logical-to-physical address correlation using an indexing scheme. The flash memory is partitioned into N sets. Each set includes a plurality of entries (i.e., blocks). N sets of partial logical entry number to physical block number and associated page usage information (hereinafter ‘PLTPPUI’) are stored in the reserved area of the MLC based flash memory. Only one the N sets is loaded to address correlation and page usage memory (ACPUM), which is a limited size random access memory (RAM). In one embodiment, static RAM (SRAM) is implemented for fast access time for the address correlation. LSA received together with the data transfer request dictates which one of the N sets of PLTPPUI is loaded into ACPUM. | 10-16-2008 |
| 20080261449 | UNIVERSAL SERIAL BUS (USB) FLASH DRIVE HOUSING A SLIM USB DEVICE AND HAVING SWIVEL CAP FUNCTIONALITIES ALLOWING FOR TWO LOCKING POSITIONS - A Universal Serial Bus (USB) flash drive includes a slim USB device having an end used to couple the USB flash drive to a host and an opposite end and a swivel cap having a side slit that serves as an opening into which the slim USB device travels horizontally, the side slit being disposed along a lateral side of the swivel cap. The USB flash drive also includes a USB device rivet placed into the slim USB device and the swivel cap to pivotally connect them at one of the ends of the slim USB device, so that the slim USB device is pivotally extendable outwardly from the side slit in a closed or open position. The swivel rocker is pivotally extendable outwardly from the opposite end of the slim USB device and when the swivel rocker is extended outwardly, the slim USB device is caused to extend outwardly | 10-23-2008 |
| 20080261450 | PORTABLE AND RETRACTABLE FLASH DRIVE WITH OPTIONAL ROTARY DEPLOYING AND RETRACTING AND FINGERPRINT VERIFICATION CAPABILITY - In one embodiment of the present invention a portable and retractable flash drive with optional rotary deploying and retracting and fingerprint verification capability is disclosed to include a cylinder assembly. The cylinder assembly has a connector situated on one end, and a fingerprint sensor situated the surface. The portable and retractable flash drive with optional rotary deploying and retracting and fingerprint verification capability further includes a rotary tube at least partially enclosing the cylinder assembly for deploying the connector. An end tube is rotatably attached to one of the two ends of the rotary tube, and an end cap is attached to the other of the two ends of the rotary tube. The rotary tube is rotated relative to the end tube to slide the cylinder assembly back and forth inside the rotary tube to extend and retract the connector. | 10-23-2008 |
| 20080276099 | Universal Serial Bus (USB) Flash Drive Having Locking Pins and Locking Grooves for Locking Swivel Cap - In one embodiment of the present invention a Universal Serial Bus (USB) flash drive with locking swivel cap includes a USB device, a swivel cap having a top swivel cap face and a bottom swivel cap face. The swivel cap is connectably attached to the USB device, four locking pins, two of which disposed on the top swivel cap face and two of which disposed on the bottom swivel cap face, two top locking grooves disposed on a top surface of the USB device, and two bottom locking grooves disposed on a bottom surface of the USB device, wherein the locking pins disposed on top swivel cap face coupled with the two top locking grooves and the locking pins disposed on the bottom swivel cap face couple with the two bottom locking grooves allowing the swivel cap to lock in fully open (180 degrees) and fully closed (0 degree). A USB connector is connected to the USB device to couple the USB flash drive to a host device. A fingerprint sensor area is disposed on the top side of the USB device, the fingerprint sensor scans fingerprints of a user of the portable flash drive with swivel cap and optional fingerprint verification capability, and allowing access to data stored on the portable flash drive with swivel cap and optional fingerprint verification capability. | 11-06-2008 |
| 20080278902 | Universal Serial Bus (USB) Flash Drive with Swivel Cap Functionalities with Two Locking Positions - A Universal Serial Bus (USB) flash drive includes a slim USB device having an end used to couple the USB flash drive to a host and an opposite end, and a swivel “strap shaped” metal cap having a circle cut out disposed on both cap legs. The snap coupling circle attachment allows the swivel cap to rotate substantially into a first and a second locking position and to rotate substantially 360 degrees about the z-axis of the USB device. The metal cap is generally in a locked position when the snap slot is aligned atop the snap lock tabs such that the protrusion snap ring is descended downward until the positioned flush against the snap lock groove. When unlocked the protrusion snap ring is raised up and rested upon the two snap lock tabs. | 11-13-2008 |
| 20080280490 | Press/Push Universal Serial Bus (USB) Flash Drive with Deploying and Retracting Functionalities with Elasticity Material and Fingerprint Verification Capability - Briefly, an embodiment of the present invention includes a portable flash memory drive with a simplified mechanism, based upon the resilient properties of the material used to create the parts, for reliable extension and retraction of the device's interface plug. The portable flash memory drive is comprised of a metal housing (or case), a printed circuit board (PCB) assembly, PCB support, PCB assembly end cap, an upper, and lower housing, and in some embodiments a fingerprint sensor and/or key ring assembly. The press/push switch mechanism is located on either the side of the portable flash memory device, or the top; and relies upon the resilient properties of the material used to create the metal housing or end cap, to create a smooth, locking mechanism for the extension or retraction of the interface (i.e., USB or firewire) plug. The switching/locking mechanism relies upon grooves or notches within the material of the upper and/or lower housing for tracking and locking, coupled with protrusion tabs on the sliding components of the end cap or metal housing. Alternatively, in some embodiments of the present invention, a fingerprint sensor is also extended or retracted contemporaneously with the interface plug, and allows the end user to secure and unlock the data contained, in whole or in part, therein. | 11-13-2008 |
| 20080318449 | MULTI-LEVEL CELL (MLC) DUAL PERSONALITY EXTENDED eSATA FLASH MEMORY DEVICE - A multi-level cell (MLC) dual-personality extended External Serial Advanced Technology Attachment (eSATA) flash drive includes a MLC dual-personality extended eSATA plug connector connected to a flash drive and removably connectable to a host. The connector is adaptable to receive electoral data from both a USB and eSATA interface. | 12-25-2008 |
| 20080320207 | MULTI-LEVEL CELL (MLC) DUAL PERSONALITY EXTENDED FIBER OPTIC FLASH MEMORY DEVICE - A multi-level cell (MLC) dual-personality extended fiber optic flash drive includes a MLC dual-personality extended fiber optic Universal Serial Bus (USB) plug connector connected to a dual-personality extended fiber optic flash drive and being removably connectable to a host. The connector is adaptable to receive electrical data and optical data. A transceiver, located on the flash drive, is operative to convert received electrical data to optical data or to convert received optical data to electrical data. | 12-25-2008 |
| 20090129178 | Integrated Circuit Memory Device Having Delayed Write Timing Based on Read Response Time - An integrated circuit memory device includes a memory core to store write data, a first set of interconnect resources to receive the write data, and a second set of interconnect resources to receive a write command associated with the write data. Information indicating whether mask information is included with the write command, wherein the mask information, when included in the write command, specifies whether to selectively write portions of the write data to the memory core. | 05-21-2009 |
| 20090210604 | Memory Module Having Signal Lines Configured for Sequential Arrival of Signals at Synchronous Memory Devices - A memory module includes a first signal line to carry a first signal. The first signal line has (i) a first line segment disposed along a length of the memory module and coupled to a termination, and (ii) a second line segment disposed along a width of the memory module and coupled to an edge finger. The first line segment and the second line segment are coupled together at a turn. A first synchronous memory device and a second synchronous memory device are coupled to the first line segment. The first signal arrives at the first synchronous memory device and the second synchronous memory device in a sequential manner. The memory module includes a clock line routed alongside the first signal line. A clock signal arrives at the first synchronous memory device and the second synchronous memory device in sequence alongside the first signal traversing along the first signal line. | 08-20-2009 |
| 20100039225 | SLIDE FLASH MEMORY DEVICES - A portable USB device with an improved configuration is described herein. According to one embodiment, a portable USB device includes a core unit having a USB plug connector coupled to one or more flash memory devices and a flash controller disposed therein, where the flash controller is capable of exchanging data with a host via the USB plug connector using a bulk-only-transfer protocol. The portable USB device further includes a housing for enclosing the core unit, including a front end opening to allow the USB plug connector to be deployed. The portable USB device further includes a core unit carrier for carrying the core unit for deploying and retracting the core unit, including a slide button to allow a finger of a user to slide the USB plug connector of the core unit in and out of the housing via the front end opening of the housing. | 02-18-2010 |
| 20100332719 | Memory Write Signaling and Methods Thereof - In a method of controlling a memory device, the following is conveyed over a first set of interconnect resources: a first command that specifies activation of a row of memory cells; a second command that specifies a write operation, wherein write data is written to the row; a bit that specifies whether precharging occurs after the write data is written; and a code that specifies whether data mask information will be issued for the write operation. If the code specifies that the information will be issued, then the information, which specifies whether to selectively write portions of the write data, is conveyed over the first set of interconnect resources after conveying the code. The write data to be written in connection with the write operation is conveyed over a second set of interconnect resources that is separate from the first set of interconnect resources. | 12-30-2010 |
| 20110003514 | DUAL-PERSONALITY EXTENDED USB PLUGS AND RECEPTACLES USING WITH PCBA AND CABLE ASSEMBLY - An extended USB plug connector includes a connector substrate including a frontend having a first set of electrical contact pins disposed thereon and a backend having a second set of electrical contact pins disposed thereon. The first set includes a first row of electrical contact pins disposed on a top surface of the connector substrate and a second row of electrical contact pins disposed in parallel with the first row of electrical contact pins and interior to the first row of electrical contact pins, where the second row includes more electrical contact pins than the first row. The second set of electrical contact pins includes a number of electrical contact pins equal to the first row and second row of electrical contact pins in total. The second set of electrical contact pins are used to connect to corresponding electrical contact pads disposed on a printed circuit board assembly having a USB controller and flash memory devices disposed thereon. | 01-06-2011 |
| 20110090727 | Memory Module Having Signal Lines Configured for Sequential Arrival of Signals at Synchronous Memory Devices - A memory module includes a first signal line to carry a first signal. The first signal line has (i) a first line segment disposed along a length of the memory module and coupled to a termination, and (ii) a second line segment disposed along a width of the memory module and coupled to an edge finger. The first line segment and the second line segment are coupled together at a turn. A first synchronous memory device and a second synchronous memory device are coupled to the first line segment. The first signal arrives at the first synchronous memory device and the second synchronous memory device in a sequential manner. The memory module includes a clock line routed alongside the first signal line. A clock signal arrives at the first synchronous memory device and the second synchronous memory device in sequence alongside the first signal traversing along the first signal line. | 04-21-2011 |
| 20110093653 | MEMORY ADDRESS MANAGEMENT SYSTEMS IN A LARGE CAPACITY MULTI-LEVEL CELL (MLC) BASED FLASH MEMORY DEVICE - Methods and systems of managing memory addresses in a large capacity multi-level cell based flash memory device are described. According to one aspect, a flash memory device comprises a processing unit to manage logical-to-physical address correlation using an indexing scheme. The flash memory is partitioned into N sets. Each set includes a plurality of entries (i.e., blocks). N sets of partial logical entry number to physical block number and associated page usage information (hereinafter ‘PLTPPUI’) are stored in the reserved area of the MLC based flash memory. Only one the N sets is loaded to address correlation and page usage memory (ACPUM), which is a limited size random access memory (RAM). In one embodiment, static RAM (SRAM) is implemented for fast access time for the address correlation. LSA received together with the data transfer request dictates which one of the N sets of PLTPPUI is loaded into ACPUM. | 04-21-2011 |
