PRODUCTS & SUPPORT ABOUT MICRON MY WORKSPACE MT29F8G08ABACAM71M3WC1 Global Products & Support NAND Flash See all SLC NAND parts SLC NAND Login or Register to MT29F8G08ABACAM71M3WC1 Add Email See all 8Gb SLC NAND parts Data Sheets (1) Die Data Sheet Download Add Email Orderable Parts (1) Compare all MT29F8G08ABACAM71M3WC1 6 Orderable Part Information Status Contact Factory Alternative Part N/A FBGA Code N/A SPD Data N/A MBQual Data N/A Shipping Media N/A PLP No Start Date N/A Specs Density 8Gb Status Contact Factory RoHS Yes Width x8 Voltage 3.3V Package Wafer Pin Count n/a MT/s I/O Common Where to Buy View All Distributors Showing 34 Micron Distributors: Need Help? Contact a sales rep to request samples, get a quote, and receive a callback. Overview Login Documentation & Support Sim Models & Software Recently Added FAQs FAQs Date What was added 04/2013 MT29F (1Gb, 2Gb, 4Gb, 8Gb, 16Gb, 32Gb) General Low-Level Driver 08/2012 Find my Rep Do you support small block devices? How much ECC do I need to support your devices? I am using the correct amount of error correction code (ECC) for the NAND device, but I'm still seeing bit/byte errors in data I read back Verilog: NAND 8/16Gb SLC M71M from the NAND device. See all FAQs Sim Models & Software Title & Description Secure ID Updated IBIS: 8Gb,16Gb: x8, x16 NAND (Rev C) M71M: Rev. 2.0 M71M 05/2012 Verilog: NAND 8/16Gb SLC M71M: 8/16Gb Verilog model Rev 7.30 M71M 08/2012 See all Sim Models (2) Documentation & Support Search Search Filter c Case Study d e f g c Customer Service Note d e f g c Data Sheet d e f g c Other Documents d e f g c Part Numbering Guide d e f g c Presentation d e f g c Product Flyer d e f g c RoHS Certification d e f g c Technical Note d e f g c Tool d e f g c Webinar d e f g c White Paper d e f g For MT29F8G08ABACAM71M3WC1 (3) For SLC NAND (6) For NAND Flash (92) For Products and Support (14) Please Note: To view Secure Documents ( ) please log in or click on a secured document to request access. Search Search Filter c NAND Flash Softw are d e f g c Sim Model d e f g For MT29F8G08ABACAM71M3WC1 (3) For SLC NAND (5) For NAND Flash (6) For Products and Support (0) Please Note: To view Secure Documents ( ) please log in or click on a secured document to request access. Disclaimers 1. Micron Models: By downloading any Micron model from this site, you must agree to the terms of Micron's Simulation Models License Agreement. If you do not agree to terms, you do not have permission to use the site or download material from it. 2. Non-Micron Models: For your convenience, Micron links to third-party simulation models. Note that Micron does not guarantee functionality or accuracy of these models. SLC NAND FAQs (3) Do you support small block devices? How much ECC do I need to support your devices? I am using the correct amount of error correction code (ECC) for the NAND device, but I'm still seeing bit/byte errors in data I read back from the NAND device. NAND Flash FAQs (15) How do I achieve greater PROGRAM/READ throughput for the NAND device? How is Nvb specified? I am seeing a lot of READ DISTURB errors. Can you tell me if there is a problem with your part? I've heard that NAND has too many errors to boot from. Is this true? Should I be marking blocks bad due to READ errors? When I issue a Read ID command (90h) to a two-die NAND device, I get a device ID back that states it is a one-die NAND device. Where can I find additional technical information about Micron NAND devices that is not covered in the device data sheets? Where can I find simulation models for NAND Flash devices? Why am I getting a bit/byte error reading back the information I programmed into the NAND device? Why doesn't the NAND Flash device respond correctly to commands issued to it? What is a "bank"? What is the impedance tolerance of the driver in match-impedance mode relative to the expected value base on the perfect reference resistor connected to ZQ pin? Does thermal information change for IT parts? My design was based on a specification stating the JTAG was relative to VDD (1.8V), but now we've discovered that JTAG is actually relative to VDDQ (1.5V). It's a fairly significant board spin to change this; what do I risk by leaving the design as-is? I assume that the specification is still for VDDQ + 0.3V = 1.8V, but with CMOS parts there's no way I can guarantee that it won't swing past that on transitions. Should the ECC memory chip share chip select and CKE signals with the other two main memory chips in our point-to-point application? Products and Support FAQs (1) Who do I contact if I have questions about my buymicron.com order? Contact Micron How to Buy Sales Resources (c) 2014 Micron Technology, Inc. All Rights Reserved Site Map Surplus Equipment Sales Terms Privacy Our Commitment