MT29F1G08ABADAWP-IT:D Micron Technology Inc, MT29F1G08ABADAWP-IT:D Datasheet - Page 6

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MT29F1G08ABADAWP-IT:D

Manufacturer Part Number
MT29F1G08ABADAWP-IT:D
Description
Manufacturer
Micron Technology Inc
Datasheet

Specifications of MT29F1G08ABADAWP-IT:D

Lead Free Status / Rohs Status
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List of Figures
Figure 1: Marketing Part Number Chart .......................................................................................................... 2
Figure 2: 48-Pin TSOP – Type 1, CPL (Top View) ............................................................................................... 8
Figure 3: 63-Ball VFBGA, x8 (Balls Down, Top View) ....................................................................................... 10
Figure 4: 63-Ball VFBGA, x16 (Balls Down, Top View) ...................................................................................... 11
Figure 5: 48-Pin TSOP – Type 1, CPL .............................................................................................................. 12
Figure 6: 63-Ball VFBGA (HC) ........................................................................................................................ 13
Figure 7: 63-Ball VFBGA (H4) 9mm x 11mm ................................................................................................... 14
Figure 8: NAND Flash Die (LUN) Functional Block Diagram ........................................................................... 15
Figure 9: Array Organization – x8 ................................................................................................................... 16
Figure 10: Array Organization – x16 ................................................................................................................ 17
Figure 11: Asynchronous Command Latch Cycle ............................................................................................ 19
Figure 12: Asynchronous Address Latch Cycle ................................................................................................ 20
Figure 13: Asynchronous Data Input Cycles ................................................................................................... 21
Figure 14: Asynchronous Data Output Cycles ................................................................................................. 22
Figure 15: Asynchronous Data Output Cycles (EDO Mode) ............................................................................. 23
Figure 16: READ/BUSY# Open Drain ............................................................................................................. 24
Figure 17:
Figure 18:
Figure 19: I
Figure 20: I
Figure 21: TC vs. Rp ....................................................................................................................................... 27
Figure 22: R/B# Power-On Behavior ............................................................................................................... 28
Figure 23: RESET (FFh) Operation ................................................................................................................. 31
Figure 24: READ ID (90h) with 00h Address Operation .................................................................................... 32
Figure 25: READ ID (90h) with 20h Address Operation .................................................................................... 32
Figure 26: READ PARAMETER (ECh) Operation .............................................................................................. 35
Figure 27: READ UNIQUE ID (EDh) Operation ............................................................................................... 39
Figure 28: SET FEATURES (EFh) Operation .................................................................................................... 41
Figure 29: GET FEATURES (EEh) Operation ................................................................................................... 42
Figure 30: READ STATUS (70h) Operation ...................................................................................................... 46
Figure 31: RANDOM DATA READ (05h-E0h) Operation .................................................................................. 47
Figure 32: RANDOM DATA INPUT (85h) Operation ........................................................................................ 48
Figure 33: PROGRAM FOR INTERNAL DATA INPUT (85h) Operation .............................................................. 49
Figure 34: READ PAGE (00h-30h) Operation ................................................................................................... 52
Figure 35: READ PAGE (00h-30h) Operation with Internal ECC Enabled .......................................................... 52
Figure 36: READ PAGE CACHE SEQUENTIAL (31h) Operation ........................................................................ 53
Figure 37: READ PAGE CACHE RANDOM (00h-31h) Operation ....................................................................... 54
Figure 38: READ PAGE CACHE LAST (3Fh) Operation ..................................................................................... 55
Figure 39: PROGRAM PAGE (80h-10h) Operaton ............................................................................................ 57
Figure 40: PROGRAM PAGE CACHE (80h-15h) Operation (Start) ..................................................................... 58
Figure 41: PROGRAM PAGE CACHE (80h-15h) Operation (End) ...................................................................... 58
Figure 42: ERASE BLOCK (60h-D0h) Operation .............................................................................................. 59
Figure 43: READ FOR INTERNAL DATA MOVE (00h-35h) Operation ............................................................... 61
Figure 44: READ FOR INTERNAL DATA MOVE (00h–35h) with RANDOM DATA READ (05h–E0h) ................... 61
Figure 45: INTERNAL DATA MOVE (85h-10h) with Internal ECC Enabled ....................................................... 62
Figure 46: INTERNAL DATA MOVE (85h-10h) with RANDOM DATA INPUT with Internal ECC Enabled ........... 62
Figure 47: PROGRAM FOR INTERNAL DATA MOVE (85h–10h) Operation ....................................................... 63
Figure 48: PROGRAM FOR INTERNAL DATA MOVE (85h-10h) with RANDOM DATA INPUT (85h) .................. 63
Figure 49: OTP DATA PROGRAM (After Entering OTP Operation Mode) .......................................................... 66
PDF: 09005aef83e5ffed
m68a.pdf – Rev. D 06/10 EN
t
t
Fall and
Fall and
OL
OL
vs. Rp (V
vs. Rp (1.8V V
t
t
Rise (3.3V V
Rise (1.8V V
CC
= 3.3V V
CC
) ....................................................................................................................... 26
CC
CC
CC
) ................................................................................................................ 25
) ................................................................................................................ 25
) .............................................................................................................. 26
6
Micron Technology, Inc. reserves the right to change products or specifications without notice.
1Gb x8, x16: NAND Flash Memory
© 2010 Micron Technology, Inc. All rights reserved.
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