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    NM29N16 Search Results

    NM29N16 Datasheets (4)

    Part ECAD Model Manufacturer Description Curated Type PDF
    NM29N16 National Semiconductor 16 MBit (2M x 8 Bit) CMOS NAND FLASH E2PROM Original PDF
    NM29N16E National Semiconductor 16-Mbit (2M x 8-Bit) CMOS NAND Flash E2PROM Original PDF
    NM29N16R National Semiconductor 16 MBit (2M x 8 Bit) CMOS NAND FLASH E2PROM Scan PDF
    NM29N16S National Semiconductor 16 MBit (2M x 8 Bit) CMOS NAND FLASH E2PROM Scan PDF

    NM29N16 Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    NM29N16S

    Abstract: C1996 ICC01 NM29N16 NM29N16R
    Text: NM29N16 16 MBit 2M x 8 Bit CMOS NAND FLASH E2PROM General Description Features The NM29N16 is a 16 Mbit (2 Mbyte) NAND FLASH The device is organized as an array of 512 blocks each consisting of 16 pages Each page contains 264 bytes All commands and data are sent through eight I O pins To read


    Original     		PDF NM29N16 NM29N16 NM29N16S C1996 ICC01 NM29N16R

    NM29N16ES

    Abstract: C1996 ICC01 NM29N16E
    Text: NM29N16E 16 MBit 2M x 8 Bit CMOS NAND FLASH E2PROM General Description Features The NM29N16E is a 16 Mbit (2 Mbyte) NAND FLASH which operates over the industrial (b40 C to a 85 C) temperature range The device is organized as an array of 512 blocks each consisting of 16 pages Each page contains 264 bytes


    Original     		PDF NM29N16E NM29N16E NM29N16ES C1996 ICC01

    Rob Frizzell

    Abstract: 68HC11 80 Cliff 68HC11 74HCT138 C1995 MAX707 NM29N16 Frizzell
    Text: National Semiconductor Application Note 910 Cliff Zitlaw Rob Frizzell September 1993 INTRODUCTION The NM29N16 is a 2Mbyte NAND Flash EEPROM memory that operates from a single 5V supply This device does not have the parallel data address and control bus interfaces


    Original     		PDF NM29N16 NM29N16 68HC11 Rob Frizzell 68HC11 80 Cliff 74HCT138 C1995 MAX707 Frizzell

    toshiba NAND ID code

    Abstract: toshiba nand flash 16Mb KM29N16000TS TC5816FT toshiba nand flash 1995 C1995 KM29N16000RS NM29N16 NM29N16R NM29N16S
    Text: National Semiconductor Application Note 993 Robert Frizzell April 1995 INTRODUCTION The NM29N16 is a 16Mb NAND Flash device which is second sourced by other manufacturers This provides customers the added confidence of knowing that they will have an adequate supply of competively priced product which is not


    Original     		PDF NM29N16 toshiba NAND ID code toshiba nand flash 16Mb KM29N16000TS TC5816FT toshiba nand flash 1995 C1995 KM29N16000RS NM29N16R NM29N16S

    Rob Frizzell

    Abstract: AN-922 C1995 NM29N16 an-922 national
    Text: NAND FLASH Operation NAND FLASH Operation National Semiconductor Application Note 922 Rob Frizzell December 1993 INTRODUCTION The NM29N16 is a 16Mb FLASH memory that utilizes the NAND architecture The device incorporates a number of features that make it suitable for numerous portable applications that need large amounts of data storage but can not


    Original     		PDF NM29N16 20-3A Rob Frizzell AN-922 C1995 an-922 national

    toshiba nand flash 16Mb

    Abstract: etox C1995 NM28F010 NM29N16 NOR FLASH AN920 NM28F040 NOR Flash read cycle AN-920 national
    Text: INTRODUCTION Flash technology is basically an outgrowth of EPROM technology Toshiba first invented Flash technology in the mid 80’s Intel quickly developed its own version based on a simpler cell structure ETOX EPROM Tunnel Oxide Cells based on the ETOX structure are the basis for the majority


    Original     		PDF 20-3A toshiba nand flash 16Mb etox C1995 NM28F010 NM29N16 NOR FLASH AN920 NM28F040 NOR Flash read cycle AN-920 national

    0x1030

    Abstract: AN-998 PCM16C02 C1995 NM29N16 PCM16C02VJG VJG100A 0x10400
    Text:  DMA INTERFACE PIN DESCRIPTION AND BLOCK DIAGRAM  ATTRIBUTE MEMORY MAP  HOST-SIDE DMA REGISTER 0x3FA  FUNCTION CONFIGURATION OPTION REGISTER 1 (0x1040)  DMA READ TIMING DIAGRAM AND SPECIFICATIONS  DMA WRITE TIMING DIAGRAM AND SPECIFICATIONS OVERVIEW


    Original     		PDF 0x1040) PCM16C02 0x1030 AN-998 C1995 NM29N16 PCM16C02VJG VJG100A 0x10400

    C1996

    Abstract: NM29N16 PCM16C010 PCM16C02 Enabler
    Text: OVERVIEW The PCM16C02 Configurable Multiple Function PC Card Interface Chip can also be used as a PC Card 95 standard compliant interface between the PC Card host bus and a single card function The PCM16C02 will operate with a single memory or I O function allowing host system software


    Original     		PDF PCM16C02 C1996 NM29N16 PCM16C010 Enabler

    0x104E

    Abstract: AN-758 C1995 NM29N16 NM93C86 PCM16C02
    Text:  EEPROM Programming Methodologies  CIS Data Security Note This application note uses the following notation convention hexadecimal numbers are represented with the prefix ‘‘0x’’ numbers with no prefix are decimal OVERVIEW The PCMCIA’s PC Card Standard requires for basic compatibility that each PC Card contain a small Card Information Structure CIS which starts at offset 0 of the card’s


    Original     		PDF 20-3A 0x104E AN-758 C1995 NM29N16 NM93C86 PCM16C02

    National Semiconductor 333

    Abstract: C1995 DP83902A NM29N16 PCM16C00 PCM16C02 national semiconductor logic Application Note National Semiconductor
    Text: National Semiconductor Application Note 981 January 1995 Purpose The purpose of this application note is to provide the necessary functional differentiation between the PCM16C00 and the PCM16C02 to enable customers to select the part that best suits the needs of their applications


    Original     		PDF PCM16C00 PCM16C02 20-3A National Semiconductor 333 C1995 DP83902A NM29N16 national semiconductor logic Application Note National Semiconductor

    AN7583

    Abstract: PCMCIA SRAM Card C1995 NM29N16 NM93C86 PCM16C00 PCM16C02 PCM16C02VJG VJG100A an-758 national
    Text: PCM16C02 Configurable Multiple Function PC Card Interface Chip General Description National’s PCM16C02 acts as a standard interface between the PC Card Host bus and local card busses found on I O and memory PC Cards This device allows the card designer to focus on the design of the I O functions while providing a


    Original     		PDF PCM16C02 PCM16C02 PCM16C00 AN7583 PCMCIA SRAM Card C1995 NM29N16 NM93C86 PCM16C02VJG VJG100A an-758 national

    I80486

    Abstract: boardsite PAL Decoder 16L8 NM28F010 16L8 27C010 C1995 MTD4P05 NM29N16 NM28N16
    Text: National offers two types of Flash Devices namely NOR type and NAND type The device densities ranging from 1 Mbit to 16 Mbit suited for various kinds of applications like BIOS code storage Solid state file storage Image file storage etc Some of the devices also feature Auto program


    Original     		PDF 20-3A I80486 boardsite PAL Decoder 16L8 NM28F010 16L8 27C010 C1995 MTD4P05 NM29N16 NM28N16

    PCMCIA SRAM Card

    Abstract: C1996 NM29N16 NM93C86 PCM16C010 PCM16C010VJG PCM16C02 VJG100A an-758 national pcm16c00
    Text: PCM16C010 Configurable PC Card Interface Chip General Description National’s PCM16C010 acts as a standard interface between the PC Card Host bus and local card busses found on I O and memory PC Cards This device allows the card designer to focus on the design of the I O functions while


    Original     		PDF PCM16C010 PCM16C010 NM29N16) PCMCIA SRAM Card C1996 NM29N16 NM93C86 PCM16C010VJG PCM16C02 VJG100A an-758 national pcm16c00

    C1995

    Abstract: NM29A040 NM29A080 NM29N16 NM29N32 AN-1011 national
    Text: INTRODUCTION In the past use of nonvolatile memory devices EPROM Flash was predominantly confined to storing code for the microprocessor or micrcontroller (Code Storage) Now advances in nonvolatile memory device density and design are opening up new applications where the memory is used to


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: National NM29N16 tß Semiconductor NM29N16 16 MBit 2M x 8 Bit CMOS NAND FLASH E2PROM General Description Features The NM29N16 is a 16 Mbit (2 Mbyte) NAND FLASH. The device is organized as an array of 512 blocks, each consist­ ing of 16 pages. Each page contains 264 bytes. All com­


    OCR Scan     		PDF NM29N16 NM29N16