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    Using nvsRAM in RAID Controller Applications

    Abstract: No abstract text available
    Text: Using nvSRAM in RAID Controller Applications Introduction The term RAID Redundant Array of Independent Disks first appeared in papers written by Garth Gibson, Randy Katz, and Dave Patterson of the University of California at Berkeley. Since that time the


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    PDF STK11Cxx Using nvsRAM in RAID Controller Applications

    Using nvsRAM in RAID Controller Applications

    Abstract: 12CXX nonvolatile semiconductor memory
    Text: Using nvSRAM in RAID Controller Applications Using nvSRAM in RAID Controller Applications Introduction The term RAID Redundant Array of Independent Disks first appeared 5 years ago in papers written by Garth Gibson, Randy Katz, and Dave Patterson of the


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    dallas nvram

    Abstract: dallas nvram DS1225AB DS1225Y 451 cross-reference DS1225AB M48Z35AY MK48Z08 MK48Z09 sonos nvsram
    Text: nvSRAM versus Battery Backed-up SRAM Introduction With lead-free initiatives being implemented globally for 2006, nvSRAMs have become a very popular choice for NVRAM selection. This white paper explores the additional advantages of nvSRAM over Battery backed SRAM BBSRAM ,


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    PDF STK10CXX STK11CXX STK12CXX STK15CXX STK16CXX DS1225AB DS1225D DS1225Y MK48Z08 MK48Z09 dallas nvram dallas nvram DS1225AB DS1225Y 451 cross-reference DS1225AB M48Z35AY MK48Z08 MK48Z09 sonos nvsram

    DS1225Y

    Abstract: dallas ds1225y MK48Z09 DS1225AB MK48Z08 STK14C88
    Text: Comparison of SIMTEK nvSRAM versus Battery Backed-up SRAM Introduction STK10C family , by executing a software sequence (STK11C family), or automatically upon power loss (AutoStore and AutoStorePlus™ families). The information is loaded back into the SRAM automatically on power-up or by using the hardware or software function.


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    PDF STK10C STK11C STK10Cxx STK11Cxx STK12Cxx STK14C88 STK15Cxx STK16Cxx DS1225AB DS1225D DS1225Y dallas ds1225y MK48Z09 DS1225AB MK48Z08 STK14C88

    mc56002

    Abstract: DSP56002 15C88 STK16CXX
    Text: Using SIMTEK nvSRAM with the Motorola DSP56002 Introduction The Motorola DSP56002 is a 24 bit, high-performance Digital Signal Processor that is ideally suited for audio, instrumentation, and automotive applications. When coupled with nonvolatile Simtek Static


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    PDF DSP56002 DSP56002 STK12/15CXX STK11Cxx mc56002 15C88 STK16CXX

    MC56002

    Abstract: digital security system block diagram DSP56002 15CXX
    Text: Motorola DSP56002 with nvSRAM Using Simtek nvSRAMs with the Motorola DSP56002 The Motorola DSP56002 is a 24 bit, high-performance Digital Signal Processor that is ideally suited for audio, instrumentation, and automotive applications. When coupled with nonvolatile Simtek Static Random Access Memories nvSRAM , the DSP56002 running at


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    PDF DSP56002 DSP56002 STK12/15CXX MC56002 digital security system block diagram 15CXX