S29GL128M90FFIR20 SPANSION, S29GL128M90FFIR20 Datasheet

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S29GL128M90FFIR20

Manufacturer Part Number
S29GL128M90FFIR20
Description
Manufacturer
SPANSION
Datasheet
S29GLxxxM MirrorBit
S29GL256M, S29GL128M, S29GL064M, S29GL032M
256 Megabit, 128 Megabit, 64 Megabit, and 32Megabit,
3.0 Volt-only Page Mode Flash Memory featuring
0.23 um MirrorBit process technology
Datasheet
Distinctive Characteristics
Architectural Advantages
Performance Characteristics
Single power supply operation
— 3 volt read, erase, and program operations
Manufactured on 0.23 um MirrorBit process
technology
SecSi™ (Secured Silicon) Sector region
— 128-word/256-byte sector for permanent, secure
— May be programmed and locked at the factory or by
Flexible sector architecture
— 256Mb: 512 32 Kword (64 Kbyte) sectors
— 128Mb: 256 32 Kword (64 Kbyte) sectors
— 64Mb (uniform sector models): 128 32 Kword (64
— 64Mb (boot sector models): 127 32 Kword (64 Kbyte)
— 32Mb (uniform sector models): 64 32Kword (64
— 32Mb (boot sector models): 63 32Kword (64 Kbyte)
Compatibility with JEDEC standards
— Provides pinout and software compatibility for single-
100,000 erase cycles typical per sector
20-year data retention typical
High performance
— 90 ns access time (128Mb, 64Mb, 32Mb),
— 4-word/8-byte page read buffer
— 25 ns page read times (128Mb, 64Mb, 32Mb)
— 30 ns page read times (256Mb)
— 16-word/32-byte write buffer
identification through an 8-word/16-byte random
Electronic Serial Number, accessible through a
command sequence
the customer
Kbyte) sectors or 128 32 Kword sectors
sectors + 8 4Kword (8Kbyte) boot sectors
Kbyte) sectors of 64 32Kword sectors
sectors + 8 4Kword (8Kbyte) boot sectors
power supply flash, and superior inadvertent write
protection
100 ns access time (256Mb)
Publication Number S29GLxxxM_00
TM
Flash Family
Revision A
Software & Hardware Features
Amendment 5
— 16-word/32-byte write buffer reduces overall
Low power consumption (typical values at 3.0 V, 5
MHz)
— 18 mA typical active read current (64 Mb, 32 Mb)
— 25 mA typical active read current (256 Mb, 128 Mb)
— 50 mA typical erase/program current
— 1 µA typical standby mode current
Package options
— 40-pin TSOP
— 48-pin TSOP
— 56-pin TSOP
— 64-ball Fortified BGA
— 48-ball fine-pitch BGA
— 63-ball fine-pitch BGA
Software features
— Program Suspend & Resume: read other sectors
— Erase Suspend & Resume: read/program other
— Data# polling & toggle bits provide status
— CFI (Common Flash Interface) compliant: allows host
— Unlock Bypass Program command reduces overall
Hardware features
— Sector Group Protection: hardware-level method of
— Temporary Sector Unprotect: V
— WP#/ACC input accelerates programming time
— Hardware reset input (RESET#) resets device
— Ready/Busy# output (RY/BY#) detects program or
programming time for multiple-word updates
before programming operation is completed
sectors before an erase operation is completed
system to identify and accommodate multiple flash
devices
multiple-word programming time
preventing write operations within a sector group
charging code in locked sectors
(when high voltage is applied) for greater throughput
during system production. Protects first or last sector
regardless of sector protection settings on uniform
sector models
erase cycle completion
Issue Date April 30, 2004
ID
PRELIMINARY
-level method of

Related parts for S29GL128M90FFIR20

S29GL128M90FFIR20 Summary of contents

Page 1

S29GLxxxM MirrorBit S29GL256M, S29GL128M, S29GL064M, S29GL032M 256 Megabit, 128 Megabit, 64 Megabit, and 32Megabit, 3.0 Volt-only Page Mode Flash Memory featuring 0.23 um MirrorBit process technology Datasheet Distinctive Characteristics Architectural Advantages Single power supply operation — 3 volt read, erase, ...

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General Description The S29GL256/128/064/032M family of devices are 3.0 V single power Flash memory manufactured using 0.23 um MirrorBit technology. The S29GL256M is a 256 Mbit, organized as 16,777,216 words or 33,554,432 bytes. The S29GL128M is a 128 Mbit, organized ...

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... Once this sector is protected, no further changes within the sector can occur. Spansion MirrorBit flash technology combines years of Flash memory manufac- turing experience to produce the highest levels of quality, reliability and cost effectiveness. The device electrically erases all bits within a sector simultaneously via hot-hole assisted erase ...

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Table of Contents Product Selector Guide . . . . . . . . . . . . . . . . . . . . . .6 S29GL256M .............................................................................................................6 S29GL128M ..............................................................................................................6 S29GL064M .............................................................................................................6 S29GL032M .............................................................................................................6 Block Diagram . . ...

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Figure 8. Toggle Bit Algorithm............................................ 118 DQ2: Toggle Bit II ..............................................................................................118 Reading Toggle Bits DQ6/DQ2 ..................................................................... 119 DQ5: Exceeded Timing Limits ....................................................................... 119 DQ3: Sector Erase Timer ................................................................................ 119 DQ1: Write-to-Buffer Abort .........................................................................120 Table 33. Write Operation Status ........................................120 Figure ...

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Product Selector Guide S29GL256M Part Number Speed Option Max. Access Time (ns) Max. CE# Access Time (ns) Max. Page Access Time (ns) Max. OE# Access Time (ns) S29GL128M Part Number Speed Option Max. Access Time (ns) Max. CE# Access Time ...

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Block Diagram RY/BY RESET# WE# State Control WP#/ACC BYTE# Command Register CE# OE# V Detector CC A **–A0 Max ** A GL256M = A23, A GL128M = A22, A Max Max A GL032M = A20 (A ...

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Connection Diagrams A16 1 A15 2 A14 3 A13 4 A12 5 A11 WE# 9 RESET# 10 ACC 11 RY/BY# 12 A18 ...

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Connection Diagrams A15 1 A14 2 A13 3 A12 4 A11 5 A10 A19 9 A20 10 WE# 11 RESET# 12 1,2 A21 13 2 WP#/ACC 14 2 RY/BY# 15 A18 16 A17 17 ...

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Connection Diagrams For S29GL064M (model R0) only A22 2 A16 3 4 A15 A14 5 6 A13 A12 7 A11 WE# 12 RESET# 13 ACC 14 RY/BY# 15 A18 ...

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Connection Diagrams A23 1 1 A22 2 2 A15 3 A14 4 A13 5 A12 6 A11 7 A10 A19 11 A20 12 WE# 13 RESET A21 15 WP#/ACC 16 RY/BY# 17 A18 ...

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Connection Diagrams A22 A7 B7 A13 A12 WE# RESET RY/BY# WP#/ACC A17 Notes: 1. Ball ...

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Connection Diagrams A8 B8 NC* NC NC* NC* A13 WE# C4 RY/BY NC NC* NC* Notes: 1. Ball S29GL064M (model R5). IO Special ...

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Connection Diagrams For S29GL064M (model R0) only NC* NC A14 NC* NC WE# C4 RY/BY NC NC* NC* Special Package Handling Instructions Special handling is ...

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Connection Diagrams A6 A13 WE# RESET# A3 RY/BY# WP#/ACC Special Package Handling Instructions Special handling is required for Flash Memory products in molded packages (TSOP and BGA). The package and/or data integrity may ...

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Connection Diagrams For S29GL032M (model R0) only. A6 A14 WE# A3 RY/BY Special Package Handling Instructions Special handling is required for Flash Memory products in molded packages (TSOP and BGA). The package and/or ...

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Pin Description A23–A0 A22–A0 A21–A0 A20–A0 DQ7–DQ0 DQ14–DQ0 DQ15/A-1 CE# OE# WE# WP#/ACC ACC WP# RESET# RY/BY# BYTE April 30, 2004 S29GLxxxM_00A5 ...

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Logic Symbol-S29GL032M (Model R0) Logic Symbol-S29GL032M (Models R1, R2) Logic Symbol-S29GL032M (Models R3, R4 A21–A0 DQ7–DQ0 CE# OE# WE# ACC RESET# V RY/BY A20–A0 16 ...

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Logic Symbol-S29GL064M (Models R0) Logic Symbol-S29GL064M (Models R1, R2) Logic Symbol-S29GL064M (Models R3, R4) April 30, 2004 S29GLxxxM_00A5 A22–A0 DQ7–DQ0 CE# (A-1) OE# WE# ACC RESET# V RY/BY# ...

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Logic Symbol-S29GL064M (Model R5) Logic Symbol-S29GL064M (Model R6, R7) Logic Symbol-S29GL128M A21–A0 DQ15–DQ0 CE# OE# WE# ACC RESET RY/BY# 22 A21–A0 DQ15–DQ0 CE# OE# WE# ...

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Logic Symbol-S29GL256M April 30, 2004 S29GLxxxM_00A5 A23–A0 DQ15–DQ0 CE# (A-1) OE# WE# WP#/ACC RESET# BYTE# RY/BY S29GLxxxM MirrorBit Flash Family ...

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Ordering Information-S29GL032M S29GL032M Standard Products Standard products are available in several packages and operating ranges. The order number (Valid Combination) is formed by a combination of the following: S29GL032M DEVICE NUMBER/DESCRIPTION S29GL032M 32 Megabit Page-Mode Flash ...

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Valid Combinations for TSOP Package S29GL032M10 S29GL032M11 The TSOP package marking appears as the first 16 characters of the OPN. For example, the package marking for OPN S29GL032M10TAIR00 is “S29GL032M10TAIR0.” Valid Combinations for S29GL032M10 S29GL032M11 The BGA package marking appears ...

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Ordering Information-S29GL064M S29GL064M Standard Products Standard products are available in several packages and operating ranges. The order number (Valid Combination) is formed by a combination of the following: S29GL064M DEVICE NUMBER/DESCRIPTION S29GL064M 64 Megabit Page-Mode Flash ...

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Valid Combinations for TSOP Package TAI TFI S29GL064M90 TAI S29GL064M10 TFI S29GL064M11 TBI TCI TAI TDI The TSOP package marking appears as the first 16 characters of the OPN. For example, the package marking for OPN S29GL064M90TAIR10 is “S29GL064M90TAIR1.” Valid ...

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Ordering Information-S29GL128M S29GL128M Standard Products Standard products are available in several packages and operating ranges. The order number (Valid Combination) is formed by a combination of the following: S29GL128M DEVICE NUMBER/DESCRIPTION S29GL128M 128 Megabit Page-Mode Flash ...

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Ordering Information-S29GL256M S29GL256M Standard Products Standard products are available in several packages and operating ranges. The order number (Valid Combination) is formed by a combination of the following: S29GL256M DEVICE NUMBER/DESCRIPTION S29GL1256M 256 Megabit Page-Mode Flash ...

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Device Bus Operations This section describes the requirements and use of the device bus operations, which are initiated through the internal command register. The command register itself does not occupy any addressable memory location. The register is a latch used ...

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Word/Byte Configuration The BYTE# pin controls whether the device data I/O pins operate in the byte or word configuration. If the BYTE# pin is set at logic ‘1’, the device is in word con- figuration, DQ0–DQ15 are active and controlled ...

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Refer to the DC Characteristics table for the active current specification for the write mode. The AC Characteristics section contains timing specification tables and timing diagrams for write operations. Write Buffer Write Buffer Programming allows the system write to a ...

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Automatic Sleep Mode The automatic sleep mode minimizes Flash device energy consumption. The de- vice automatically enables this mode when addresses remain stable for t 30 ns. The automatic sleep mode is independent of the CE#, WE#, and OE# con- ...

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Table 2. S29GL032M (Model R0) Sector Address Table Sector A21 A20 SA0 0 0 SA1 0 0 SA2 0 0 SA3 0 0 SA4 0 0 SA5 0 0 SA6 0 0 SA7 0 0 SA8 0 0 SA9 0 ...

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Table 2. S29GL032M (Model R0) Sector Address Table (Continued) Sector A21 A20 SA35 1 0 SA36 1 0 SA37 1 0 SA38 1 0 SA39 1 0 SA40 1 0 SA41 1 0 SA42 1 0 SA43 1 0 SA44 ...

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Table 3. S29GL032M (Models R1, R2) Sector Address Table A20-A15 Sector SA0 SA1 SA2 SA3 SA4 SA5 SA6 SA7 ...

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Table 3. S29GL032M (Models R1, R2) Sector Address Table (Continued) A20-A15 Sector SA45 SA46 SA47 SA48 SA49 SA50 SA51 ...

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Table 4. S29GL032M (Model R3) Top Boot Sector Architecture Sector Address Sector A20–A12 SA0 000000xxx SA1 000001xxx SA2 000010xxx SA3 000011xxx SA4 000100xxx SA5 000101xxx SA6 000110xxx SA7 000111xxx SA8 001000xxx SA9 001001xxx SA10 001010xxx SA11 001011xxx SA12 001100xxx SA13 ...

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Table 4. S29GL032M (Model R3) Top Boot Sector Architecture (Continued) Sector Address Sector A20–A12 SA36 100100xxx SA37 100101xxx SA38 100110xxx SA39 100111xxx SA40 101000xxx SA41 101001xxx SA42 101010xxx SA43 101011xxx SA44 101100xxx SA45 101101xxx SA46 101110xxx SA47 101111xxx SA48 110000xxx ...

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Table 5. S29GL032M (Model R4) Bottom Boot Sector Architecture Sector Address Sector A20–A12 SA0 000000000 SA1 000000001 SA2 000000010 SA3 000000011 SA4 000000100 SA5 000000101 SA6 000000110 SA7 000000111 SA8 000001xxx SA9 000010xxx SA10 000011xxx SA11 000100xxx SA12 000101xxx SA13 ...

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Table 5. S29GL032M (Model R4) Bottom Boot Sector Architecture (Continued) Sector Address Sector A20–A12 SA36 011101xxx SA37 011110xxx SA38 011111xxx SA39 100000xxx SA40 100001xxx SA41 100010xxx SA42 101011xxx SA43 100100xxx SA44 100101xxx SA45 100110xxx SA46 100111xxx SA47 101000xxx SA48 101001xxx ...

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Table 6. S29GL064M (Model R0) Sector Address Table Sector A22 A21 SA0 0 0 SA1 0 0 SA2 0 0 SA3 0 0 SA4 0 0 SA5 0 0 SA6 0 0 SA7 0 0 SA8 0 0 SA9 0 ...

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Table 6. S29GL064M (Model R0) Sector Address Table (Continued) Sector A22 A21 SA35 0 1 SA36 0 1 SA37 0 1 SA38 0 1 SA39 0 1 SA40 0 1 SA41 0 1 SA42 0 1 SA43 0 1 SA44 ...

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Table 6. S29GL064M (Model R0) Sector Address Table (Continued) Sector A22 A21 SA70 1 0 SA71 1 0 SA72 1 0 SA73 1 0 SA74 1 0 SA75 1 0 SA76 1 0 SA77 1 0 SA78 1 0 SA79 ...

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Table 6. S29GL064M (Model R0) Sector Address Table (Continued) Sector A22 A21 SA105 1 1 SA106 1 1 SA107 1 1 SA108 1 1 SA109 1 1 SA110 1 1 SA111 1 1 SA112 1 1 SA113 1 1 SA114 ...

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Table 7. S29GL064M (Model R1, R2) Sector Address Table Sector SA0 SA1 SA2 SA3 SA4 SA5 SA6 SA7 0 ...

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Table 7. S29GL064M (Model R1, R2) Sector Address Table (Continued) Sector SA34 SA35 SA36 SA37 SA38 SA39 SA40 SA41 ...

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Table 7. S29GL064M (Model R1, R2) Sector Address Table (Continued) Sector SA69 SA70 SA71 SA72 SA73 SA74 SA75 SA76 ...

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Table 7. S29GL064M (Model R1, R2) Sector Address Table (Continued) Sector SA104 SA105 SA106 SA107 SA108 SA109 SA110 SA111 ...

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Table 8. S29GL064M (Model R3) Top Boot Sector Architecture (Continued) Sector Address Sector A21–A12 SA7 0000111xxx SA8 0001000xxx SA9 0001001xxx SA10 0001010xxx SA11 0001011xxx SA12 0001100xxx SA13 0001101xxx SA14 0001101xxx SA15 0001111xxx SA16 0010000xxx SA17 0010001xxx SA18 0010010xxx SA19 0010011xxx ...

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Table 8. S29GL064M (Model R3) Top Boot Sector Architecture (Continued) Sector Address Sector A21–A12 SA43 0101011xxx SA44 0101100xxx SA45 0101101xxx SA46 0101110xxx SA47 0101111xxx SA48 0110000xxx SA49 0110001xxx SA50 0110010xxx SA51 0110011xxx SA52 0100100xxx SA53 0110101xxx SA54 0110110xxx SA55 0110111xxx ...

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Table 8. S29GL064M (Model R3) Top Boot Sector Architecture (Continued) Sector Address Sector A21–A12 SA79 1001111xxx SA80 1010000xxx SA81 1010001xxx SA82 1010010xxx SA83 1010011xxx SA84 1010100xxx SA85 1010101xxx SA86 1010110xxx SA87 1010111xxx SA88 1011000xxx SA89 1011001xxx SA90 1011010xxx SA91 1011011xxx ...

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Table 8. S29GL064M (Model R3) Top Boot Sector Architecture (Continued) Sector Address Sector A21–A12 SA115 1110011xxx SA116 1110100xxx SA117 1110101xxx SA118 1110110xxx SA119 1110111xxx SA120 1111000xxx SA121 1111001xxx SA122 1111010xxx SA123 1111011xxx SA124 1111100xxx SA125 1111101xxx SA126 1111110xxx SA127 1111111000 ...

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Table 9. S29GL064M (Model R4) Bottom Boot Sector Architecture (Continued) Sector Address Sector A21–A12 SA13 0000110xxx SA14 0000111xxx SA15 0001000xxx SA16 0001001xxx SA17 0001010xxx SA18 0001011xxx SA19 0001100xxx SA20 0001101xxx SA21 0001101xxx SA22 0001111xxx SA23 0010000xxx SA24 0010001xxx SA25 0010010xxx ...

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Table 9. S29GL064M (Model R4) Bottom Boot Sector Architecture (Continued) Sector Address Sector A21–A12 SA49 0101010xxx SA50 0101011xxx SA51 0101100xxx SA52 0101101xxx SA53 0101110xxx SA54 0101111xxx SA55 0110000xxx SA56 0110001xxx SA57 0110010xxx SA58 0110011xxx SA59 0100100xxx SA60 0110101xxx SA61 0110110xxx ...

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Table 9. S29GL064M (Model R4) Bottom Boot Sector Architecture (Continued) Sector Address Sector A21–A12 SA85 1001110xxx SA86 1001111xxx SA87 1010000xxx SA88 1010001xxx SA89 1010010xxx SA90 1010011xxx SA91 1010100xxx SA92 1010101xxx SA93 1010110xxx SA94 1010111xxx SA95 1011000xxx SA96 1011001xxx SA97 1011010xxx ...

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Table 9. S29GL064M (Model R4) Bottom Boot Sector Architecture (Continued) Sector Address Sector A21–A12 SA121 1110010xxx SA122 1110011xxx SA123 1110100xxx SA124 1110101xxx SA125 1110110xxx SA126 1110111xxx SA127 1111000xxx SA128 1111001xxx SA129 1111010xxx SA130 1111011xxx SA131 1111100xxx SA132 1111101xxx SA133 1111110xxx ...

Page 56

Table 10. S29GL064M (Model R5) Sector Address Table (Continued) Sector SA23 0 0 SA24 0 0 SA25 0 0 SA26 0 0 SA27 0 0 SA28 0 0 SA29 0 0 SA30 0 0 SA31 0 0 SA64 1 0 ...

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Table 10. S29GL064M (Model R5) Sector Address Table (Continued) Sector SA36 0 1 SA37 0 1 SA38 0 1 SA39 0 1 SA40 0 1 SA41 0 1 SA42 0 1 SA43 0 1 SA44 0 1 SA45 0 1 ...

Page 58

Table 10. S29GL064M (Model R5) Sector Address Table (Continued) Sector SA113 1 1 SA114 1 1 SA115 1 1 SA116 1 1 SA117 1 1 SA118 1 1 SA119 1 1 SA120 1 1 SA121 1 1 SA122 1 1 ...

Page 59

Table 11. S29GL064M (Model R6, R7) Sector Address Table (Continued) Sector SA25 0 0 SA26 0 0 SA27 0 0 SA28 0 0 SA29 0 0 SA30 0 0 SA31 0 0 SA64 1 0 SA65 1 0 SA66 1 ...

Page 60

Table 11. S29GL064M (Model R6, R7) Sector Address Table (Continued) Sector SA38 0 1 SA39 0 1 SA40 0 1 SA41 0 1 SA42 0 1 SA43 0 1 SA44 0 1 SA45 0 1 SA46 0 1 SA47 0 ...

Page 61

Table 11. S29GL064M (Model R6, R7) Sector Address Table (Continued) Sector SA115 1 1 SA116 1 1 SA117 1 1 SA118 1 1 SA119 1 1 SA120 1 1 SA121 1 1 SA122 1 1 SA123 1 1 SA124 1 ...

Page 62

Table 12. S29GL128M Sector Address Table (Continued) Sector A22–A15 SA27 SA28 SA29 SA30 SA31 SA32 SA33 ...

Page 63

Table 12. S29GL128M Sector Address Table (Continued) Sector A22–A15 SA72 SA73 SA74 SA75 SA76 SA77 SA78 ...

Page 64

Table 12. S29GL128M Sector Address Table (Continued) Sector A22–A15 SA117 SA118 SA119 SA120 SA121 SA122 SA123 ...

Page 65

Table 12. S29GL128M Sector Address Table (Continued) Sector A22–A15 SA162 SA163 SA164 SA165 SA166 SA167 SA168 ...

Page 66

Table 12. S29GL128M Sector Address Table (Continued) Sector A22–A15 SA207 SA208 SA209 SA210 SA211 SA212 SA213 ...

Page 67

Table 12. S29GL128M Sector Address Table (Continued) Sector A22–A15 SA252 SA253 SA254 SA255 Table 13. S29GL256M Sector Address Table Sector A23–A15 SA0 0 0 ...

Page 68

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA35 SA36 SA37 SA38 SA39 SA40 ...

Page 69

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA80 SA81 SA82 SA83 SA84 SA85 ...

Page 70

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA125 SA126 SA127 SA128 SA129 SA130 ...

Page 71

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA170 SA171 SA172 SA173 SA174 SA175 ...

Page 72

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA215 SA216 SA217 SA218 SA219 SA220 ...

Page 73

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA260 SA261 SA262 SA263 SA264 SA265 ...

Page 74

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA305 SA306 SA307 SA308 SA309 SA310 ...

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Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA350 SA351 SA352 SA353 SA354 SA355 ...

Page 76

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA395 SA396 SA397 SA398 SA399 SA400 ...

Page 77

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA440 SA441 SA442 SA443 SA444 SA445 ...

Page 78

Table 13. S29GL256M Sector Address Table (Continued) Sector A23–A15 SA485 SA486 SA487 SA488 SA489 SA490 ...

Page 79

... Table 14. Autoselect Codes, (High Voltage Method Description OE Manufacturer ID: Spansion Products Cycle 1 Cycle Cycle 3 Cycle 1 Cycle Cycle 3 Cycle 1 Cycle Cycle 3 Cycle 1 Cycle Cycle 3 Sector Group Protection ...

Page 80

... The device is shipped with all sector groups unprotected. FASL offers the option of programming and protecting sector groups at its factory prior to shipping the device through Spansion Programming Service. Contact a Spansion representa- tive for details possible to determine whether a sector group is protected or unprotected. ...

Page 81

Table 16. S29GL032M (Model R1) Top Boot Sector Protection (Continued) Sector SA52-SA55 SA56-SA59 SA60-SA62 SA63 SA64 SA65 SA66 SA67 SA68 SA69 SA70 Table 17. S29GL032M (Model R2) Bottom Boot Sector Protection Sector SA0 SA1 SA2 SA3 SA4 SA5 SA6 SA7 ...

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Table 18. S29GL032M (Models R3, R4) Sector Group Protection/Unprotection Address Table Sector Group SA0 SA1 SA2 SA3 SA4–SA7 SA8–SA11 SA12–SA15 SA16–SA19 SA20–SA23 SA24–SA27 SA28–SA31 SA32–SA35 SA36–SA39 SA40–SA43 SA44–SA47 SA48–SA51 SA52–SA55 SA56–SA59 SA60 SA61 SA62 SA63 ...

Page 83

Table 19. S29GL065M (Model 00) Sector Group Protection/Unprotection Address Table Sector Group SA0–SA3 SA4–SA7 SA8–SA11 SA12–SA15 SA16–SA19 SA20–SA23 SA24–SA27 SA28–SA31 SA32–SA35 SA36–SA39 SA40–SA43 SA44–SA47 SA48–SA51 SA52–SA55 SA56–SA59 SA60–SA63 SA64–SA67 SA68–SA71 SA72–SA75 SA76–SA79 SA80–SA83 SA84–SA87 SA88–SA91 SA92–SA95 SA96–SA99 SA100–SA103 SA104–SA107 SA108–SA111 ...

Page 84

Table 20. S29GL064M (Model R1) Top Boot Sector Protection (Continued) Sector SA20-SA23 SA24-SA27 SA28-SA31 SA32-SA35 SA36-SA39 SA40-SA43 SA44-SA47 SA48-SA51 SA52-SA55 SA56-SA59 SA60-SA63 SA64-SA67 SA68-SA71 SA72-SA75 SA76-SA79 SA80-SA83 SA84-SA87 SA88-SA91 SA92-SA95 SA96-SA99 SA100-SA103 SA104-SA107 SA108-SA111 SA112-SA115 SA116-SA119 SA120-SA123 SA124-SA126 SA127 SA128 ...

Page 85

Table 21. S29GL064M (Model R2) Bottom Boot Sector Protection (Continued) Sector SA3 SA4 SA5 SA6 SA7 SA8–SA10 SA11–SA14 SA15–SA18 SA19–SA22 SA23–SA26 SA27-SA30 SA31-SA34 SA35-SA38 SA39-SA42 SA43-SA46 SA47-SA50 SA51-SA54 SA55–SA58 SA59–SA62 SA63–SA66 SA67–SA70 SA71–SA74 SA75–SA78 SA79–SA82 SA83–SA86 SA87–SA90 SA91–SA94 SA95–SA98 SA99–SA102 ...

Page 86

Sector Group SA3 SA4–SA7 SA8–SA11 SA12–SA15 SA16–SA19 SA20–SA23 SA24–SA27 SA28–SA31 SA32–SA35 SA36–SA39 SA40–SA43 SA44–SA47 SA48–SA51 SA52–SA55 SA56–SA59 SA60–SA63 SA64–SA67 SA68–SA71 SA72–SA75 SA76–SA79 SA80–SA83 SA84–SA87 SA88–SA91 SA92–SA95 SA96–SA99 SA100–SA103 SA104–SA107 SA108–SA111 SA112–SA115 SA116–SA119 SA120–SA123 SA124 SA125 SA126 SA127 ...

Page 87

Table 23. S29GL064M (Model R5) Sector Group Protection/Unprotection Address Table Sector Group SA0–SA3 SA4–SA7 SA8–SA11 SA12–SA15 SA16–SA19 SA20–SA23 SA24–SA27 SA28–SA31 SA32–SA35 SA36–SA39 SA40–SA43 SA44–SA47 SA48–SA51 SA52–SA55 SA56–SA59 SA60–SA63 SA64–SA67 SA68–SA71 SA72–SA75 SA76–SA79 SA80–SA83 SA84–SA87 SA88–SA91 SA92–SA95 SA96–SA99 SA100–SA103 SA104–SA107 SA108–SA111 ...

Page 88

Table 24. S29GL064M (Models R6, R7) Sector Group Protection/Unprotection Address Table Sector Group SA0–SA3 SA4–SA7 SA8–SA11 SA12–SA15 SA16–SA19 SA20–SA23 SA24–SA27 SA28–SA31 SA32–SA35 SA36–SA39 SA40–SA43 SA44–SA47 SA48–SA51 SA52–SA55 SA56–SA59 SA60–SA63 SA64–SA67 SA68–SA71 SA72–SA75 SA76–SA79 SA80–SA83 SA84–SA87 SA88–SA91 SA92–SA95 SA96–SA99 SA100–SA103 SA104–SA107 ...

Page 89

Table 25. S29GL128M Sector Group Protection/Unprotection Address Table (Continued) Sector Group SA8–SA11 SA12–SA15 SA16–SA19 SA20–SA23 SA24–SA27 SA28–SA31 SA32–SA35 SA36–SA39 SA40–SA43 SA44–SA47 SA48–SA51 SA52–SA55 SA56–SA59 SA60–SA63 SA64–SA67 SA68–SA71 SA72–SA75 SA76–SA79 SA80–SA83 SA84–SA87 SA88–SA91 SA92–SA95 SA96–SA99 SA100–SA103 SA104–SA107 SA108–SA111 SA112–SA115 SA116–SA119 SA120–SA123 ...

Page 90

Table 25. S29GL128M Sector Group Protection/Unprotection Address Table (Continued) Sector Group SA172–SA175 SA176–SA179 SA180–SA183 SA184–SA187 SA188–SA191 SA192–SA195 SA196–SA199 SA200–SA203 SA204–SA207 SA208–SA211 SA212–SA215 SA216–SA219 SA220–SA223 SA224–SA227 SA228–SA231 SA232–SA235 SA236–SA239 SA240–SA243 SA244–SA247 SA248–SA251 SA252 SA253 SA254 SA255 Table 26. S29GL256M Sector Group ...

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Table 26. S29GL256M Sector Group Protection/Unprotection Address Table (Continued) Sector Group SA40–SA43 SA44–SA47 SA48–SA51 SA52–SA55 SA56–SA59 SA60–SA63 SA64–SA67 SA68–SA71 SA72–SA75 SA76–SA79 SA80–SA83 SA84–SA87 SA88–SA91 SA92–SA95 SA96–SA99 SA100–SA103 SA104–SA107 SA108–SA111 SA112–SA115 SA116–SA119 SA120–SA123 SA124–SA127 SA128–SA131 SA132–SA135 SA136–SA139 SA140–SA143 SA144–SA147 SA148–SA151 SA152–SA155 ...

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Table 26. S29GL256M Sector Group Protection/Unprotection Address Table (Continued) Sector Group SA204–SA207 SA208–SA211 SA212–SA215 SA216–SA219 SA220–SA223 SA224–SA227 SA228–SA231 SA232–SA235 SA236–SA239 SA240–SA243 SA244–SA247 SA248–SA251 SA252–SA255 SA256–SA259 SA260–SA263 SA264–SA267 SA268–SA271 SA272–SA275 SA276–SA279 SA280–SA283 SA284–SA287 SA288–SA291 SA292–SA295 SA296–SA299 SA300–SA303 SA304–SA307 SA308–SA311 SA312–SA315 SA316–SA319 ...

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Table 26. S29GL256M Sector Group Protection/Unprotection Address Table (Continued) Sector Group SA368–SA371 SA372–SA375 SA376–SA379 SA380–SA383 SA384–SA387 SA388–SA391 SA392–SA395 SA396–SA399 SA400–SA403 SA404–SA407 SA408–SA411 SA412–SA415 SA416–SA419 SA420–SA423 SA424–SA427 SA428–SA431 SA432–SA435 SA436–SA439 SA440–SA443 SA444–SA447 SA448–SA451 SA452–SA455 SA456–SA459 SA460–SA463 SA464–SA467 SA468–SA471 SA472–SA475 SA476–SA479 SA480–SA483 ...

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Temporary Sector Group Unprotect This feature allows temporary unprotection of previously protected sector groups to change data in-system. The Sector Group Unprotect mode is activated by set- ting the RESET# pin to can be programmed or erased by selecting the ...

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START PLSCNT = 1 RESET Wait 1 µs Temporary Sector No First Write Group Unprotect Cycle = 60h? Mode Yes Set up sector group address Sector Group Protect: Write 60h to sector group address with A6–A0 = ...

Page 96

... ESN once the product is shipped to the field. The factory offers the device with the SecSi Sector either customer lockable (standard shipping option) or factory locked (contact a Spansion sales represen- tative for ordering information). The customer-lockable version is shipped with the SecSi Sector unprotected, allowing customers to program the sector after re- ceiving the device. The customer-lockable version also has the SecSi Sector Indicator Bit permanently set to a “ ...

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... Spansion programming service (Customer Factory Locked). The devices are then shipped from the factory with the SecSi Sector permanently locked. Contact your sales representative for details on using the Spansion programming service. Write Protect (WP#) The Write Protect function provides a hardware method of protecting the first or last sector group without using V by the WP#/ACC input ...

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Write Pulse “Glitch” Protection Noise pulses of less than 3 ns (typical) on OE#, CE# or WE# do not initiate a write cycle. Logical Inhibit Write cycles are inhibited by holding any one of OE ...

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Addresses Addresses (x16) (x8) 10h 20h 11h 22h 12h 24h 13h 26h 14h 28h 15h 2Ah 16h 2Ch 17h 2Eh 18h 30h 19h 32h 1Ah 34h Addresses Addresses (x16) (x8) 1Bh 36h 1Ch 38h 1Dh 3Ah 1Eh 3Ch 1Fh 3Eh ...

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Addresses Addresses (x16) (x8) 27h 4Eh 28h 50h 29h 52h 2Ah 54h 2Bh 56h 2Ch 58h 2Dh 5Ah 2Eh 5Ch 2Fh 5Eh 30h 60h 31h 60h 32h 64h 33h 66h 34h 68h 35h 6Ah 36h 6Ch 37h 6Eh 38h 70h ...

Page 101

Table 30. Primary Vendor-Specific Extended Query Addresses Addresses (x16) (x8) 40h 80h 41h 82h 42h 84h 43h 86h 44h 88h 45h 8Ah 46h 8Ch 47h 8Eh 48h 90h 49h 92h 4Ah 94h 4Bh 96h 4Ch 98h 4Dh 9Ah 4Eh 9Ch ...

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All addresses are latched on the falling edge of WE# or CE#, whichever happens later. All data is latched on the rising edge of WE# or CE#, whichever happens first. Refer to the AC Characteristics section for timing diagrams. Reading ...

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Autoselect Command Sequence The autoselect command sequence allows the host system to read several iden- tifier codes at specific addresses: Identifier Code Manufacturer ID Device ID, Cycle 1 Device ID, Cycle 2 Device ID, Cycle 3 SecSi Sector Factory Protect ...

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... For such application requirements, please contact your local Spansion representative. Word programming is supported for backward compatibility with existing Flash driver software and for occasional writing of in- dividual words. Use of write buffer programming (see below) is strongly recommended for general programming use when more than a few words are to be programmed ...

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... For applications requiring incremental bit program- ming, a modified programming method is required; please contact your local Spansion representative. Any bit in a write buffer address range cannot be programmed from “0” back to a “1.” Attempting may cause the de- vice to set DQ5=1, of cause the DQ7 and DQ6 status bits to indicate the operation was successful. However, a succeeding read will show that the data is still “ ...

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Accelerated Program The device offers accelerated program operations through the WP#/ACC or ACC pin depending on the particular product. When the system asserts V WP#/ACC or ACC pin. The device uses the higher voltage on the WP#/ACC or ACC pin ...

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Write “Write to Buffer” command and Sector Address Write number of addresses to program minus 1(WC) and Sector Address Write first address/data Yes Abort Write to Buffer Operation? Write next address/data pair (Note ...

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Increment Address Note: mand sequence. Program Suspend/Program Resume Command Sequence The Program Suspend command allows the system to interrupt a programming operation or a Write to Buffer programming operation so that data can be read from any non-suspended sector. When ...

Page 109

After the Program Resume command is written, the device reverts to program- ming. The system can determine the status of the program operation using the DQ7 or DQ6 status bits, just as in the standard program operation. See Write Op- ...

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Any commands written during the chip erase operation are ignored. However, note that a hardware reset immediately terminates the erase operation. If that occurs, the chip erase command sequence should be reinitiated once the device has returned to reading array ...

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Notes: 1. See Table sequence. 2. See the section on DQ3 for information on the sector erase timer. Erase Suspend/Erase Resume Commands The Erase Suspend command, B0h, allows the system to interrupt a sector erase operation and then read data ...

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DQ7 or DQ6 status bits, just as in the standard word program operation. Refer to the Write Operation Status section for more information. In the erase-suspend-read mode, the system can also issue the autoselect com- mand ...

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Command Definitions Table 31. Command Definitions (x16 Mode, BYTE Command Sequence (Note 1) 1 Read (Note 6) 1 Reset (Note 7) 4 Manufacturer ID 4 Device ID (Note 9) SecSi‰ Sector Factory Protect 4 (Note 10) Sector Group ...

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Table 32. Command Definitions (x8 Mode, BYTE Command Sequence (Note 1) Read (Note 6) 1 Reset (Note 7) 1 Manufacturer ID 4 Device ID (Note 9) 4 SecSi‰ Sector Factory 4 Protect (Note 10) Sector Group Protect Verify ...

Page 115

Write Operation Status The device provides several bits to determine the status of a program or erase operation: DQ2, DQ3, DQ5, DQ6, and DQ7. Table 19 and the following subsec- tions describe the function of these bits. DQ7 and DQ6 ...

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Notes Valid address for programming. During a sector erase operation, a valid address is any sector address within the sector being erased. During chip erase, a valid address is any non-protected sector address. 2. DQ7 should be ...

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DQ6: Toggle Bit I Toggle Bit I on DQ6 indicates whether an Embedded Program or Erase algorithm is in progress or complete, or whether the device has entered the Erase Suspend mode. Toggle Bit I may be read at any ...

Page 118

The system should recheck the toggle bit even if DQ5 = “1” because the toggle bit may stop toggling as DQ5 changes to “1.” See the subsections on DQ6 and DQ2 for more information. DQ2: ...

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DQ2 toggles when the system reads at addresses within those sectors that have been selected for erasure. (The system may use either OE# or CE# to control the read cycles.) But DQ2 cannot distinguish whether the sector is actively erasing ...

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If additional sectors are selected for erasure, the entire time-out also applies after each additional sector erase command. When the time-out period is complete, DQ3 switches from a “0” “1.” If the ...

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ABSOLUTE MAXIMUM RATINGS Storage Temperature, Plastic Packages . . . . . . . . . . . . . . . . –65°C to +150°C Ambient Temperature with Power Applied . . . . . . . . . ...

Page 122

DC Characteristics CMOS Compatible Parameter Parameter Description Symbol (Notes) I Input Load Current ( A9, ACC Input Load Current LIT I Reset Leakage Current LR I Output Leakage Current Initial Read Current (2), (3) CC1 ...

Page 123

Test Conditions Device Under Test C L 6.2 kΩ Note: Diodes are IN3064 or equivalent Figure 11. Test Setup Key to Switching Waveforms WAVEFORM Don’t Care, Any Change Permitted V CC Input 0 0.0 V April 30, 2004 ...

Page 124

AC Characteristics Read-Only Operations-S29GL256M only Parameter JEDEC Std Read Cycle Time (Note 1) AVAV Address to Output Delay AVQV ACC t t Chip Enable to Output Delay ELQV CE t Page Access Time PACC t ...

Page 125

AC Characteristics Read-Only Operations-S29GL064M only Parameter JEDEC Std Read Cycle Time (Note 1) AVAV Address to Output Delay AVQV ACC t t Chip Enable to Output Delay ELQV CE t Page Access Time PACC t ...

Page 126

AC Characteristics Addresses CE# OE# WE# Outputs RESET# RY/BY A23-A2 A1-A0* Data Bus CE# OE# * Figure shows device in word mode. Addresses are A1–A-1 for byte mode. 126 ...

Page 127

AC Characteristics Hardware Reset (RESET#) Parameter JEDEC Std. RESET# Pin Low (During Embedded Algorithms) t Ready to Read Mode (See Note) RESET# Pin Low (NOT During Embedded t Ready Algorithms) to Read Mode (See Note) t RESET# Pulse Width RP ...

Page 128

AC Characteristics Erase and Program Operations-S29GL256M only Parameter JEDEC Std Write Cycle Time (Note 1) AVAV Address Setup Time AVWL AS t Address Setup Time to OE# low during toggle bit polling ASO t t ...

Page 129

AC Characteristics Erase and Program Operations-S29GL128M only Parameter JEDEC Std Write Cycle Time (Note 1) AVAV Address Setup Time AVWL AS t Address Setup Time to OE# low during toggle bit polling ASO t t ...

Page 130

AC Characteristics Erase and Program Operations-S29GL064M only Parameter JEDEC Std Write Cycle Time (Note 1) AVAV Address Setup Time AVWL AS t Address Setup Time to OE# low during toggle bit polling ASO t t ...

Page 131

AC Characteristics Erase and Program Operations-S29GL032M only Parameter JEDEC Std Write Cycle Time (Note 1) AVAV Address Setup Time AVWL AS t Address Setup Time to OE# low during toggle bit polling ASO t t ...

Page 132

AC Characteristics Program Command Sequence (last two cycles Addresses 555h CE# OE Data RY/BY VCS Notes program address program data Illustration shows device in ...

Page 133

AC Characteristics Erase Command Sequence (last two cycles Addresses 2AAh CE Data RY/BY# t VCS V CC Notes sector address (for Sector Erase Valid Address for ...

Page 134

AC Characteristics t RC Addresses POLL ACC OE# t OEH WE# DQ7 DQ0–DQ6 t BUSY RY/BY# Note Valid address. Illustration shows first status cycle after command sequence, last ...

Page 135

AC Characteristics Addresses CE# t OEH WE# OE Valid Data DQ6 / DQ2 RY/BY# Note Valid address; not required for DQ6. Illustration shows first two status cycle after command sequence, last status read cycle, and array ...

Page 136

AC Characteristics Temporary Sector Unprotect Parameter Description JEDEC Std t V Rise and Fall Time (See Note) VIDR ID RESET# Setup Time for Temporary Sector t RSP Unprotect Notes: 1. Not 100% tested RESET ...

Page 137

AC Characteristics RESET# SA, A6, A3, A2, A1, A0 Sector Group Protect or Unprotect Data 60h 1 µs CE# WE# OE# Note: For sector group protect, A6:A0 = 0xx0010. For sector group unprotect, A6:A0 = 1xx0010. ...

Page 138

AC Characteristics Alternate CE# Controlled Erase and Program Operations-S29GL256M Parameter JEDEC Std Write Cycle Time (Note 1) AVAV Address Setup Time AVWL Address Hold Time ELAX Data Setup Time ...

Page 139

AC Characteristics Alternate CE# Controlled Erase and Program Operations-S29GL128M Parameter JEDEC Std Write Cycle Time (Note 1) AVAV Address Setup Time AVWL Address Hold Time ELAX Data Setup Time ...

Page 140

AC Characteristics Alternate CE# Controlled Erase and Program Operations-S29GL064M Parameter JEDEC Std Write Cycle Time (Note 1) AVAV Address Setup Time AVWL Address Hold Time ELAX Data Setup Time ...

Page 141

AC Characteristics Alternate CE# Controlled Erase and Program Operations-S29GL032M Parameter JEDEC Std AVAV AVWL ELAX DVEH EHDX DH Read Recovery Time Before Write t t GHEL ...

Page 142

AC Characteristics PBA for program 2AA for erase Addresses WE# OE# CE Data t RH RESET# RY/BY# Notes: 1. Figure indicates last two bus cycles of a program or erase operation ...

Page 143

Erase And Programming Performance Parameter Sector Erase Time Chip Erase Time Total Write Buffer Program Time Notes (3), (5) Total Accelerated Effective Write Buffer Program Time Notes (4), (5) Chip Program Time Notes: 1. Typical program and erase times assume ...

Page 144

TSOP Pin and BGA Package Capacitance For package types TA, TF, BA, BF, FA, FF (refer to Ordering Information Pages): Parameter Symbol Parameter Description C Input Capacitance IN C Output Capacitance OUT C Control Pin Capacitance IN2 For package types ...

Page 145

Physical Dimensions TS040—40-Pin Standard Thin Small Outline Package April 30, 2004 S29GLxxxM_00A5 S29GLxxxM MirrorBit Flash Family TM Dwg rev AA; 10/99 145 ...

Page 146

Physical Dimensions TSR040—40-Pin Standard/Reverse Thin Small Outline Package (TSOP) REVERSE PIN OUT (TOP VIEW SEE DETAIL B SEE DETAIL B - SEE DETAIL A SEE DETAIL A R 0˚ PARALLEL TO L ...

Page 147

Physical Dimensions TS048—48-Pin Standard/Reverse Thin Small Outline Package (TSOP) STANDARD PIN OUT (TOP VIEW SEE DETAIL B SEE DETAIL B - SEE DETAIL A SEE DETAIL A R 0˚ PARALLEL TO L ...

Page 148

Physical Dimensions TSR048—48-Pin Standard/Reverse Thin Small Outline Package (TSOP) REVERSE PIN OUT (TOP VIEW SEE DETAIL B SEE DETAIL B - SEE DETAIL A SEE DETAIL A R 0˚ PARALLEL TO L ...

Page 149

Physical Dimensions TS056/TSR056—56-Pin Standard/Reverse Thin Small Outline Package (TSOP) PACKAGE TS/TSR 56 JEDEC MO-142 (B) EC SYMBOL MIN. NOM. MAX. A --- --- 1.20 A1 0.05 --- 0.15 A2 0.95 1.00 1.05 b1 0.17 0.20 0.23 b 0.17 0.22 0.27 ...

Page 150

Physical Dimensions LAA064—64-Ball Fortified Ball Grid Array (FBGA) 150 S29GLxxxM MirrorBit Flash Family TM S29GLxxxM_00A5 April 30, 2004 ...

Page 151

Physical Dimensions LAC064—64-Pin package D 0. CORNER ID. (INK OR LASER) 1.00±0.5 TOP VIEW A1 CORNER SIDE VIEW PACKAGE LAC 064 JEDEC N/A 18. 12.00 mm PACKAGE SYMBOL ...

Page 152

Physical Dimensions FBA048—48-Pin 6.15 x 8.15 mm package 152 S29GLxxxM MirrorBit Flash Family TM Dwg rev AF; 10/99 S29GLxxxM_00A5 April 30, 2004 ...

Page 153

Physical Dimensions FBC048—48-Pin package April 30, 2004 S29GLxxxM_00A5 S29GLxxxM MirrorBit Flash Family TM Dwg rev AF; 10/99 153 ...

Page 154

Physical Dimensions FBE063—63-Pin package 154 S29GLxxxM MirrorBit Flash Family TM Dwg rev AF; 10/99 S29GLxxxM_00A5 April 30, 2004 ...

Page 155

Physical Dimensions FPT-48P-M19 LEAD No. 1 INDEX 24 20.00 ± 0.20 (.787 ± .008) * 18.40 ± 0.20 (.724 ± .008) "A" 0.10(.004) April 30, 2004 S29GLxxxM_00A5 ...

Page 156

Physical Dimensions FPT-56P-M01 LEAD No. 1 INDEX 28 20.00±0.20(.787±.008 18.40±0.10(.724±.004) 0.08(.003) 156 0.10±0.05 (.004±.002) (Stand off 14.00±0.10 (.551±.004) 29 1.10 .043 (Mounting height) 0.17±0.03 ...

Page 157

Physical Dimensions BGA-48P-M20 8.00 ± 0.20(.315 ± .008) (INDEX AREA) 0.10(.004) April 30, 2004 S29GLxxxM_00A5 +0.12 +.003 1.08 .043 –0.13 –.005 (Mounting height) 0.38 ± 0.10(.015 ± .004) (Stand ...

Page 158

Revision Summary Revision A (January 29, 2004) Initial Release. Revision A+1 (February 23, 2004) Connection Diagrams Removed 80-ball Fine-pitch BGA pinout. Ordering Information Added additional packing type. Removed frame description from package material set. Updated valid combinations to reflect the ...

Page 159

Updated the 48-pin standard TSOP diagram. Removed the 48-pin reverse TSOP diagram. Removed the 56-pin reverse TSOP diagram. Ordering Information Removed all references to package type R. Table 14 Autoselect Codes, (High Voltage Method) Updated the R3, R4 column replacing ...

Page 160

... Trademarks and Notice Copyright © 2004 FASL LLC. All rights reserved. Spansion, the Spansion logo, MirrorBit, and combinations thereof are registered trademarks of FASL LLC. ExpressFlash is a trademark of FASL LLC. Product names used in this publication are for identification purposes only and may be trademarks of their respective companies. ...

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