摘要:
A Universal Serial Bus (USB) memory card includes a tube metal housing that is rectangularly-shaped and a Chip-On-Board (COB)-Universal Serial Bus (USB) device and a carrier substrate having a U-block disposed on one side of thereof and vertically extending upwardly from a bottom surface of the U-block, the COB-USB device positioned on the carrier substrate forming a USB card sub-assembly, the USB card sub-assembly being securely located inside the metal housing with the U-block serving to stop the COB-USB device from slipping out of the metal housing.
摘要:
Thin solid state drive (SSD) housing structures are described. According to one embodiment of the invention, a structure for housing an SSD includes a pair of brackets configured to support a PCBA of the SSD at either side of the PCBA via one or more ledges with corresponding fastener holes pre-configured thereon. The ledges are attached to inside surface of the brackets. Each of the brackets has a slab shape with a length and a height. The length is parallel to horizontal direction, while the height parallel to vertical. The ledges are located at mid-height and orientated substantially perpendicular to the brackets such that the PCBA is supported horizontally. In order to securely connect the PCBA with the brackets, a plurality of metal fasteners is used. The fasteners are placed through the fastener holes on the ledges and through corresponding alignment holes pre-configured on the PCBA.
摘要:
Portable electronic storage device (PESD) manufacturing methods utilizing lead frames are described. According to one exemplary embodiment, a process of manufacturing core unit of PESD comprises: producing a processed flash memory IC chip with several metal contact pads and at least one passive component located on top layer; pre-fabricating a lead frame having opposing first and second surfaces, a plurality of metal connectors disposed on the first surface and a cavity through both surfaces; attaching the top layer of the processed flash memory IC chip onto the first surface such that the metal connectors are electrically connected to the respective metal contact pads and the cavity provides an non-conductive space for the at least one passive component; and forming a molded enclosure on both surfaces of the lead frame to form a core unit, the mold enclosure is configured such that the connectors are exposed according to one of the PESD standards.
摘要:
Systems and methods of manufacturing and testing non-volatile memory (NVM) devices are described. According to one exemplary embodiment, a function test during manufacturing of the NVM modules is conducted with a system comprises a computer and a NVM tester coupling to the computer via an external bus. The NVM tester comprises a plurality of slots. Each of the slots is configured to accommodate respective one of the NVM modules to be tested. The NVM tester is configured to include an input/output interface, a microcontroller with associated RAM and ROM, a data generator, an address generator, a comparator, a comparison status storage space, a test result indicator and a NVM module detector. The data generator generates a repeatable sequence of data bits as a test vector. The known test vector is written to NVM of the NVM module under test. The known test vector is then compared with the data retrieved from the NVM module.
摘要:
High integration of a non-volatile memory device (NVMD) is disclosed. According to one aspect of the present invention, a non-volatile memory device comprises an intelligent non-volatile memory (NVM) controller and an intelligent non-volatile memory module. The NVM controller includes a central processing unit (CPU) configured to handle data transfer operations to the NVM module to ensure source synchronous interface, interleaved data operations and block abstracted addressing. The intelligent NVM module includes an interface logic, a block address manager and at least one non-volatile memory array. The interface logic is configured to handle physical block management. The block address manager is configured to ensure a physical address is converted to a transformed address that is accessible to the CPU of the intelligent NVM controller. The transformed address may be an address in blocks, pages, sectors or bytes either logically or physically.
摘要:
Systems and methods of manufacturing and testing non-volatile memory (NVM) devices are described. According to one exemplary embodiment, a function test during manufacturing of the NVM modules is conducted with a system comprises a computer and a NVM tester coupling to the computer via an external bus. The NVM tester comprises a plurality of slots. Each of the slots is configured to accommodate respective one of the NVM modules to be tested. The NVM tester is configured to include an input/output interface, a microcontroller with associated RAM and ROM, a data generator, an address generator, a comparator, a comparison status storage space, a test result indicator and a NVM module detector. The data generator generates a repeatable sequence of data bits as a test vector. The known test vector is written to NVM of the NVM module under test. The known test vector is then compared with the data retrieved from the NVM module.
摘要:
High integration of a non-volatile memory device (NVMD) is disclosed. According to one aspect of the present invention, a non-volatile memory device comprises an intelligent non-volatile memory (NVM) controller and an intelligent non-volatile memory module. The NVM controller includes a central processing unit (CPU) configured to handle data transfer operations to the NVM module to ensure source synchronous interface, interleaved data operations and block abstracted addressing. The intelligent NVM module includes an interface logic, a block address manager and at least one non-volatile memory array. The interface logic is configured to handle physical block management. The block address manager is configured to ensure a physical address is converted to a transformed address that is accessible to the CPU of the intelligent NVM controller. The transformed address may be an address in blocks, pages, sectors or bytes either logically or physically.
摘要:
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.
摘要:
An embodiment of the present invention includes an electronic data flash memory card (memory card) comprising a top cover (TC), a printed circuit board assembly (PCBA) and a bottom cover (BC). The TC includes a plurality of ultrasonic bonders, a plurality of breakaway tabs (tabs) and a connection device. The PCBA includes at least one memory integrated circuit (IC) and at least one controller IC. The BC includes a plurality of tabs.The TC and BC are ultrasonically bonded together, at least partially encasing the PCBA.The controller IC enables the memory card to communicate with an external host device (host) through the connection device to retrieve data files (files) from and transfer files to the host, and to store files on and retrieve files from the memory IC.The tabs are removable by the user by exerting pressure. Removal of the tabs locks or unlocks the memory card.
摘要:
An embodiment of the present invention includes an extended memory card comprising memory circuitry, extended memory controller circuitry, a plurality of first format connection fingers, and a plurality of second format connection fingers. The memory circuitry is operable to store data files therein. The extended memory controller circuitry is operable to control data file storage and retrieval to and from the memory circuitry.The extended memory controller circuitry is further operable to control interface of the extended memory card through either the first format connection fingers or the second format connection fingers with a host device to transfer data files from the host device to be stored on the memory circuitry, and to retrieve data files from the memory circuitry to the host device.