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    • 1. 发明申请
    • Single-Chip USB Controller Reading Power-On Boot Code from Integrated Flash Memory for User Storage
    • 单芯片USB控制器从用于存储用户的集成闪存读取上电启动代码
    • US20050120146A1
    • 2005-06-02
    • US10707277
    • 2003-12-02
    • Ben Wei ChenHorng-Yee ChouSun-Teck SeeCharles Lee
    • Ben Wei ChenHorng-Yee ChouSun-Teck SeeCharles Lee
    • G06F13/28
    • G06F13/28G06F3/0679Y02D10/14
    • A Universal-Serial-Bus (USB) single-chip flash device contains a USB flash microcontroller and flash mass storage blocks containing flash memory arrays that are block-addressable rather than randomly-addressable. USB packets from a host USB bus are read by a serial engine on the USB flash microcontroller. Various routines that execute on a CPU in the USB flash microcontroller are activated in response to commands in the USB packets. A flash-memory controller in the USB flash microcontroller transfers data from the serial engine to the flash mass storage blocks for storage. Rather than boot from an internal ROM coupled to the CPU, a boot loader is transferred by DMA from the first page of the flash mass storage block to an internal RAM. The flash memory is automatically read from the first page at power-on. The CPU then executes the boot loader from the internal RAM to load the control program.
    • 通用串行总线(USB)单芯片闪存器件包含一个USB闪存单片机和闪存大容量存储块,其中包含可寻址的闪存阵列,而不是随机寻址。 来自主机USB总线的USB数据包由USB闪存单片机上的串行引擎读取。 响应于USB数据包中的命令,激活在USB闪存单片机中的CPU上执行的各种例程。 USB闪存单片机中的闪存控制器将数据从串行引擎传输到闪存大容量存储块进行存储。 不是从耦合到CPU的内部ROM引导,引导加载程序由DMA从闪存大容量存储块的第一页传输到内部RAM。 在上电时,闪存将从第一页自动读取。 CPU然后从内部RAM执行引导加载程序来加载控制程序。
    • 2. 发明申请
    • Method and system for expanding flash storage device capacity
    • 扩展闪存设备容量的方法和系统
    • US20050286284A1
    • 2005-12-29
    • US10882005
    • 2004-06-29
    • Sun-Teck SeeHorng-Yee ChouCharles Lee
    • Sun-Teck SeeHorng-Yee ChouCharles Lee
    • G11C5/00G11C11/34G11C16/02
    • G11C16/02
    • Through the use of an allocation logic unit with a Flash controller, a single primary chip enable is de-multiplexed into a multiple secondary chip enables for multiple Flash memory dies or chips. In so doing, Flash storage device capacity is greatly expanded. In a first aspect, a memory package includes a plurality of memories; and an allocation logic unit coupled to the plurality of memories for receiving a single chip enable signal. The allocation logic unit de-multiplexes the single chip enable signal to a plurality of chip enable signals. Each of the plurality of chip enable signals access to one of the plurality of memories. In a second aspect, a printed circuit board (PCB) includes a Flash controller for providing at least one primary chip enable signal. The PCB also includes a plurality of Flash memory chips and at least one allocation logic unit coupled to at least a portion of the plurality of Flash memory chips and the Flash controller. The allocation logic unit receives the at least one chip enable signal and de-multiplexes the at least one chip enable signal to a plurality of secondary chip enable signals. Each of the plurality of chip enable signals controls access to one of the Flash memory chips.
    • 通过使用具有闪存控制器的分配逻辑单元,单个主芯片使能被解复用到多个次级芯片中,使得能够用于多个闪存芯片或芯片。 这样做,Flash存储设备容量大大扩大。 在第一方面,一种存储器包括多个存储器; 以及耦合到所述多个存储器以用于接收单个芯片使能信号的分配逻辑单元。 分配逻辑单元将单芯片使能信号解复用到多个芯片使能信号。 多个芯片使能信号中的每一个访问多个存储器中的一个。 在第二方面,印刷电路板(PCB)包括用于提供至少一个主芯片使能信号的闪光控制器。 PCB还包括多个闪存芯片和耦合到多个闪存芯片和闪存控制器的至少一部分的至少一个分配逻辑单元。 所述分配逻辑单元接收所述至少一个芯片使能信号,并且将所述至少一个芯片使能信号解复用到多个次级芯片使能信号。 多个芯片使能信号中的每一个控制对闪存芯片之一的访问。
    • 3. 发明申请
    • Method and system for expanding flash storage device capacity
    • 扩展闪存设备容量的方法和系统
    • US20050285248A1
    • 2005-12-29
    • US10881203
    • 2004-06-29
    • Sun-Teck SeeHorng-Yee ChouCharles Lee
    • Sun-Teck SeeHorng-Yee ChouCharles Lee
    • G11C5/04H01L23/02H01L23/495H01L23/50H01L25/10H05K1/18
    • G11C5/04H01L23/49575H01L23/50H01L24/48H01L25/105H01L2224/32145H01L2224/48091H01L2224/48247H01L2225/1029H01L2225/1058H01L2924/00014H01L2924/181H05K1/181H05K2201/10515H05K2201/10689Y02P70/611H01L2924/00012H01L2224/45099H01L2224/45015H01L2924/207
    • A memory package and a chip architecture which includes stacked multiple memory chips is described. In a first aspect, a memory package comprises a substrate and a plurality of memory dies mounted on the substrate. Each die has a separate chip enable. In a second aspect, a chip architecture comprises a printed circuit board (PCB). The PCB includes a footprint. The footprint includes at least one no connect (NC) pad. The chip architecture includes a plurality of stacked memory chips mounted on the printed circuit board. Each of the plurality of stacked memory has a chip enable signal pin and also has at least one NC pin. At least one of the plurality of stacked memory chips utilizes an NC pin of another of the stacked memory chips to route the chip enable pin to at least one NC pad of the footprint. Accordingly, a system and method in accordance with the present invention provides for increased memory density within a particular space constraint by (1) providing multiple dies in a single memory package and (2) by providing stacked memory chips in a single PCB footprint. In so doing, the package/PCB will have increased memory density over a conventional package/PCB within the same space constraints, and the capacity of Flash storage devices is expanded accordingly.
    • 描述了包括堆叠的多个存储器芯片的存储器封装和芯片架构。 在第一方面,一种存储器封装包括衬底和安装在衬底上的多个存储器管芯。 每个管芯都有独立的芯片使能。 在第二方面,芯片架构包括印刷电路板(PCB)。 PCB包括一个占位面积。 足迹包括至少一个无连接(NC)垫。 芯片架构包括安装在印刷电路板上的多个堆叠的存储器芯片。 多个堆叠存储器中的每一个具有芯片使能信号引脚,并且还具有至少一个NC引脚。 多个层叠的存储器芯片中的至少一个利用另一个堆叠的存储器芯片的NC引脚将芯片使能引脚路由到占用空间的至少一个NC焊盘。 因此,根据本发明的系统和方法通过(1)在单个存储器封装中提供多个管芯并且(2)通过在单个PCB封装中提供堆叠的存储器芯片来提供特定空间约束内的增加的存储器密度。 在这样做的同时,封装/ PCB将在相同的空间限制内在传统封装/ PCB上增加存储密度,并相应地扩展闪存存储设备的容量。
    • 4. 发明申请
    • Highly integrated mass storage device with an intelligent flash controller
    • 高度集成的大容量存储设备,带有智能闪存控制器
    • US20050160218A1
    • 2005-07-21
    • US10761853
    • 2004-01-20
    • Sun-Teck SeeTzu-Yih ChuBen-Wei ChenHorng-yee ChouSzu-Kuang ChouCharles Lee
    • Sun-Teck SeeTzu-Yih ChuBen-Wei ChenHorng-yee ChouSzu-Kuang ChouCharles Lee
    • G06F3/06G06F12/00G06F13/16G06F13/40
    • G06F13/405G06F3/0601G06F13/1694G06F2003/0694
    • A FLASH controller is disclosed. The controller comprises a USB interface unit. The USB interface unit implements a USB standard that has a bus speed equal or greater than 12 Mb/s. The controller includes an internal bus coupled to the USB interface unit; and a FLASH interface unit coupled to the internal bus. The FLASH interface unit includes FLASH controller logic that allows the throughput for access to the FLASH memory to match the speed of the USB standard. Advantages of the FLASH controller in accordance with the present invention include (1) utilizing the higher speed USB interface such as the USB 2.0 standard, which substantially increases the serial throughput between USB host and FLASH controller; (2) utilizing more advanced FLASH control logic which is implemented to raise the throughput for the FLASH memory access; (3) utilizing an intelligent algorithm to detect and access the different FLASH types, which broadens the sourcing and the supply of FLASH memory; (4) by storing the software program along with data in FLASH memory which results in the cost of the controller being reduced, and also makes the software program field changeable and upgradeable; and (5) providing high integration, which substantially reduces the overall space needed and reduces the complexity and the cost of manufacturing.
    • 公开了一种闪存控制器。 控制器包括USB接口单元。 USB接口单元实现总线速度等于或大于12 Mb / s的USB标准。 该控制器包括耦合到USB接口单元的内部总线; 以及耦合到内部总线的FLASH接口单元。 FLASH接口单元包括FLASH控制器逻辑,允许访问闪速存储器的吞吐量与USB标准的速度相匹配。 根据本发明的闪存控制器的优点包括(1)利用诸如USB 2.0标准的更高速USB接口,其大大增加了USB主机和闪存控制器之间的串行吞吐量; (2)利用更高级的FLASH控制逻辑,其实现以提高FLASH存储器访问的吞吐量; (3)利用智能算法检测和访问不同的FLASH类型,拓宽了FLASH存储器的采购和供应; (4)通过将软件程序与FLASH存储器中的数据一起存储,从而降低控制器的成本,并使软件程序区域可以更改和升级; 和(5)提供高集成度,这大大降低了所需的总体空间并降低了制造的复杂性和成本。
    • 9. 发明申请
    • Extended-Secure-Digital Interface Using a Second Protocol for Faster Transfers
    • 扩展的安全数字接口使用第二个协议来实现更快的传输
    • US20050182881A1
    • 2005-08-18
    • US10708634
    • 2004-03-16
    • Horng-Yee ChouSzu-Kuang ChouCharles Lee
    • Horng-Yee ChouSzu-Kuang ChouCharles Lee
    • G06F12/00G06F13/00G06F13/38H01R33/00
    • G06F13/385G06K19/07732G06K19/07733H01R13/26
    • An extended Secure-Digital (SD) card has a second interface that uses some of the SD-interface lines. The SD card's mechanical and electrical card-interface is used, but 2 or 4 signals in the SD interface are multiplexed for use by the second interface. The second interface can have a single differential pair of serial-data lines to perform Universal-Serial-Bus (USB) transfers, or two pairs of differential data lines for Serial-Advanced-Technology-Attachment (SATA), Peripheral Component Interconnect Express (PCIE), or IEEE 1394 transfers. A card-detection routine on a host can initially use the SD interface to detect extended capabilities and command the card to switch to using the second interface. The extended SD card can communicate with legacy SD hosts using just the SD interface, and extended SD hosts can read legacy SD cards using just the SD interface, or extended SD cards using the second interface. MultiMediaCard and Memory Stick are alternatives.
    • 扩展的安全数字(SD)卡具有使用一些SD接口线路的第二接口。 使用SD卡的机电卡接口,SD接口中的2或4个信号被复用以供第二个接口使用。 第二个接口可以具有单个差分对的串行数据线来执行通用串行总线(USB)传输,或两对差分数据线用于串行高级技术附件(SATA),外围组件互连Express(Express) PCIE)或IEEE 1394传输。 主机上的卡检测程序最初可以使用SD接口来检测扩展功能,并命令卡切换到使用第二个接口。 扩展SD卡可以使用SD接口与传统SD主机进行通信,扩展SD主机可以使用SD接口读取旧SD卡,也可以使用第二个接口读取扩展SD卡。 多媒体卡和记忆棒是替代品。
    • 10. 发明申请
    • Chained DMA for Low-Power Extended USB Flash Device Without Polling
    • 用于低功耗扩展USB闪存设备的链接DMA,无轮询
    • US20080065794A1
    • 2008-03-13
    • US11928124
    • 2007-10-30
    • Charles LeeDavid ChowAbraham MaFrank YuMing-Shiang ShenHorng-Yee Chou
    • Charles LeeDavid ChowAbraham MaFrank YuMing-Shiang ShenHorng-Yee Chou
    • G06F13/28
    • G06F13/28Y02D10/14
    • An extended Universal-Serial Bus (EUSB) host has reduced loading by using radio frequency (RF) transceivers or direct wiring traces rather than a pair of legacy USB cables. The reduced loading opens the eye pattern. The EUSB device transfers internal data using chained Direct-Memory Access (DMA). Registers in a DMA controller point to a vector table that has vector entries, each pointing to a destination and a source. The source is a memory table for a memory group. The memory table has entries for several memory segments. Each memory-table entry has a pointer to a memory segment and a byte count for the segment. Once all bytes in the segment are transferred, a flag in the entry indicates when another memory segment follows within the memory group. When an END flag is read, then vector table is advanced to the next vector entry, and another memory group of memory segments processed.
    • 扩展的通用串行总线(EUSB)主机通过使用射频(RF)收发器或直接布线轨迹而不是一对传统的USB电缆减少了负载。 减少负荷打开眼睛图案。 EUSB设备使用链接的直接内存访问(DMA)传输内部数据。 DMA控制器中的寄存器指向具有向量条目的向量表,每个向量表指向一个目的地和一个源。 源是内存组的内存表。 内存表有几个内存段的条目。 每个存储表条目具有指向存储器段的指针和段的字节计数。 一旦片段中的所有字节都被传送,该条目中的标志表示在存储器组中跟随其他内存段的时间。 读取END标志时,向量表前进到下一个向量条目,并处理另一个内存段的内存组。