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    Micron Technology

    Abstract: No abstract text available
    Text: Micron DRAM Products Overview August 2013 John Quigley – Micron FAE 2012 Micron Technology, Inc. All rights reserved. Products are warranted only to meet Micron’s production data sheet specifications. Information, products, and/or specifications are subject to change without notice. All information is provided on an “AS IS” basis without warranties of any kind. Dates are estimates only. Drawings are not to scale. Micron and


    Original     		PDF 20Note/DRAM/TN4102 TN-41-04: TN-41-13: TN-46-02: TN-46-06: TN-46-11: TN-46-14: TN-47-19: TN-47-20: Micron Technology

    Board Design Guideline

    Abstract: board design guidelines LT1764AEQ-2.5 945 MOTHERBOARD CIRCUIT diagram EP1C12 pin diagram TN-46-06 EP1C12 EP1C6Q240C6 MT46V16M8 MT46V8M16
    Text: Interfacing DDR SDRAM with Cyclone Devices Application Note 348 July 2004, ver. 1.1 Introduction Many applications use single data rate SDR memory. However, as these applications become more demanding, designers need to find ways to improve performance without increasing cost. Over the years, DRAM


    Original     		PDF

    Board Design Guideline

    Abstract: board design guidelines TN-46-06 ddr sdram controller sdr sdram reference EP1S60
    Text: Interfacing DDR SDRAM with Stratix & Stratix GX Devices December 2005 ver. 2.0 Application Note 342 Introduction Traditionally, systems featuring FPGAs used single data rate SDR SDRAM, which transmits data on each rising edge of the clock signal. The total amount of data an SDR memory device can send or receive is equal


    Original     		PDF

    TN-46-06

    Abstract: FR4 substrate with dielectric constant 4.4 transmission lines in signal integrity TN4606 micron power resistor FR4 substrate with dielectric constant 4 MICRON 63 micron resistor Signal Integrity transmission line theory
    Text: TN-46-06 TERMINATON FOR POINT-TO-POINT SYSTEMS TECHNICAL NOTE TERMINATION FOR POINTTO-POINT SYSTEMS INTRODUCTION TRANSMISSION LINE THEORY Because digital signal rates in computing systems are increasing at an astonishing rate, signal integrity issues have become far more important to designers. At higher


    Original     		PDF TN-46-06 TN-46-06: TN4606 TN-46-06 FR4 substrate with dielectric constant 4.4 transmission lines in signal integrity micron power resistor FR4 substrate with dielectric constant 4 MICRON 63 micron resistor Signal Integrity transmission line theory