MCNIX MX29GA257E

MX29GA256/257E H/L
MX29GA128/129E H/L
MX29GA - E Series
DATASHEET
P/N:PM1484
REV. 0.02, MAR. 06, 2009
1
PRELIMINARY
MX29GA256/257E H/L
MX29GA128/129E H/L
SINGLE VOLTAGE 3V ONLY FLASH MEMORY
FEATURES
GENERAL FEATURES
• Power Supply Operation
- 2.7 to 3.6 volt for read, erase, and program operations
- V I/O voltage must tight with VCC
- V I/O=VCC=2.7V~3.6V
• Byte/Word mode switchable
- 33,554,432 x 8 / 16,777,216 x 16 (MX29GA256/257E H/L)
- 16,777,216 x 8 / 8,388,608 x 16 (MX29GA128/129E H/L)
• 64KW/128KB uniform sector architecture
- MX29GA256/257E H/L: 256 equal sectors
- MX29GA128/129E H/L: 128 equal sectors
• 16-byte/8-word page read buffer
• 64-byte/32-word write buffer
• Latch-up protected to 100mA from -1V to 1.5xVcc
• Low Vcc write inhibit : Vcc ≤ VLKO
• Compatible with JEDEC standard
- Pinout and software compatible to single power supply Flash
• Deep power down mode
PERFORMANCE
• High Performance
- MX29GA256/257E H/L: 90ns (Vcc=3.0~3.6V), 100ns (Vcc=2.7~3.6V)
- MX29GA128/129E H/L: 90ns (Vcc=2.7~3.6V)
- Page access time: 25ns
- Fast program time: 11us/word
- Fast erase time: 0.6s/sector
• Low Power Consumption
- Low active read current: 30mA (typical) at 5MHz
- Low standby current: 30uA (typical)
• Typical 100,000 erase/program cycle
• 10 years data retention
SOFTWARE FEATURES
• Program/Erase Suspend & Program/Erase Resume
- Suspends sector erase operation to read data from or program data to another sector which is not being
erased
- Suspends sector program operation to read data from another sector which is not being program
• Status Reply
- Data# Polling & Toggle bits provide detection of program and erase operation completion
• Support Common Flash Interface (CFI)
HARDWARE FEATURES
• Ready/Busy# (RY/BY#) Output
- Provides a hardware method of detecting program and erase operation completion
• Hardware Reset (RESET#) Input
- Provides a hardware method to reset the internal state machine to read mode
• WP#/ACC input pin
- Hardware write protect pin/Provides accelerated program capability
SECURITY
• Extra 128-word sector for security
- Features factory locked and identifiable, and customer lockable
P/N:PM1484
REV. 0.02, MAR. 06, 2009
2
MX29GA256/257E H/L
MX29GA128/129E H/L
• Advanced sector protection/unprotection function (Solid and Password Protect)
- Provides sector protect/unprotect function to disable or enable program or erase operation in the sector
PACKAGE
• 64-Ball LFBGA (11mm x 13mm)
• 64-Ball FBGA (10mm x 13mm)
• All Pb-free devices are RoHS Compliant
PIN CONFIGURATION for MX29GA256E/128E H/L
Please contact Macronix sales for specific information regarding 64-FBGA/64-LFBGA package pin
configuration.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
3
MX29GA256/257E H/L
MX29GA128/129E H/L
PIN DESCRIPTION for MX29GA256E/128E H/L
LOGIC SYMBOL for MX29GA256E/128E H/L
SYMBOL PIN NAME
A0~A23
Address Input
A0~A23 for 256Mb,
A0~A22 for 128Mb
Q0~Q14
Data Inputs/Outputs
Q15/A-1
Q15(Word Mode)/LSB addr(Byte Mode)
24
A0-A23
Chip Enable Input
WE#
Write Enable Input
OE#
OE#
Output Enable Input
WE#
Hardware Reset Pin, Active Low
RESET#
RY/BY#
Hardware Write Protect/Programming
Acceleration input
Read/Busy Output
BYTE#
Selects 8 bits or 16 bits mode
WP#/ACC*
VCC
+3.0V single power supply
GND
Device Ground
NC
VI/O*
16 or 8
CE#
CE#
RESET#
Q0-Q15
(A-1)
WP#/ACC
RY/BY#
BYTE#
VI/O
Pin Not Connected Internally
Power Supply for Input/Output
Notes:
1. WP#/ACC has internal pull up.
2. VI/O voltage must be tied to VCC.
VI/O=VCC=2.7V~3.6V
P/N:PM1484
REV. 0.02, MAR. 06, 2009
4
MX29GA256/257E H/L
MX29GA128/129E H/L
PIN CONFIGURATION for MX29GA257E/129E H/L
Please contact Macronix sales for specific information regarding 64-FBGA package pin configuration.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
5
MX29GA256/257E H/L
MX29GA128/129E H/L
PIN DESCRIPTION for MX29GA257E/129E H/L
SYMBOL
LOGIC SYMBOL for MX29GA257E/129E H/L
PIN NAME
24
A0~A23/A-1 Address Input/LSB addr (Byte Mode)
Q0~Q14
A0-A23
(A-1)
Data Inputs/Outputs
Q15(Word Mode)/LSB addr(Byte
Mode)
CE0#~CE2# Chip Enable Input (CEx#)
Q0-Q15
(A-1)
16 or 8
Q15
WE#
Write Enable Input
OE#
Output Enable Input
RESET#
OE#
WE#
Hardware Reset Pin, Active Low
RY/BY#
Hardware Write Protect/Programming
Acceleration input
Read/Busy Output
BYTE#
Selects 8 bits or 16 bits mode
WP#/ACC
CEx#
VCC
+3.0V single power supply
GND
Device Ground
RESET#
WP#/ACC
RY/BY#
BYTE#
VI/O
NC
Pin Not Connected Internally
VI/O
Power Supply for Input/Output, which
is tied to Vcc
Chip Enable Truth table for MX29GA257E/129E H/L
DEVICE
CE0#
CE1#
CE2#
Enabled
VIL
VIL
VIL
Disabled
VIL
VIH
VIL
Enabled
VIL
VIL
VIH
Enabled
VIL
VIH
VIH
Disabled
VIH
VIL
VIL
Disabled
VIH
VIH
VIL
Enabled
VIH
VIL
VIH
Disabled
VIH
VIH
VIH
Note: For Single-chip applications, CE2# and CE1#
can be strapped to GND.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
6
MX29GA256/257E H/L
MX29GA128/129E H/L
BLOCK DIAGRAM
CE#
OE#
WE#
RESET#
BYTE#
WP#/ACC
CONTROL
INPUT
LOGIC
PROGRAM/ERASE
STATE
HIGH VOLTAGE
MACHINE
(WSM)
LATCH
BUFFER
Y-DECODER
AND
STATE
X-DECODER
ADDRESS
A0-AM
WRITE
FLASH
REGISTER
ARRAY
ARRAY
Y-PASS GATE
SOURCE
HV
COMMAND
DATA
DECODER
SENSE
AMPLIFIER
PGM
DATA
HV
COMMAND
DATA LATCH
PROGRAM
DATA LATCH
Q0-Q15/A-1
I/O BUFFER
AM: MSB address
P/N:PM1484
REV. 0.02, MAR. 06, 2009
7
MX29GA256/257E H/L
MX29GA128/129E H/L
BLOCK DIAGRAM DESCRIPTION
The block diagram on Page 7 illustrates a simplified architecture of MX29GA256E H/L. Each block in the block
diagram represents one or more circuit modules in the real chip used to access, erase, program, and read the
memory array.
The "CONTROL INPUT LOGIC" block receives input pins CE#, OE#, WE#, RESET#, BYTE#, and WP#/ACC.
It creates internal timing control signals according to the input pins and outputs to the "ADDRESS LATCH AND
BUFFER" to latch the external address pins A0-AM(A23). The internal addresses are output from this block to
the main array and decoders composed of "X-DECODER", "Y-DECODER", "Y-PASS GATE", AND "FLASH ARRAY". The X-DECODER decodes the word-lines of the flash array, while the Y-DECODER decodes the bit-lines
of the flash array. The bit lines are electrically connected to the "SENSE AMPLIFIER" and "PGM DATA HV" selectively through the Y-PASS GATES. SENSE AMPLIFIERS are used to read out the contents of the flash memory, while the "PGM DATA HV" block is used to selectively deliver high power to bit-lines during programming. The
"I/O BUFFER" controls the input and output on the Q0-Q15/A-1 pads. During read operation, the I/O BUFFER
receives data from SENSE AMPLIFIERS and drives the output pads accordingly. In the last cycle of program
command, the I/O BUFFER transmits the data on Q0-Q15/A-1 to "PROGRAM DATA LATCH", which controls the
high power drivers in "PGM DATA HV" to selectively program the bits in a word or byte according to the user input pattern.
The "PROGRAM/ERASE HIGH VOLTAGE" block comprises the circuits to generate and deliver the necessary
high voltage to the X-DECODER, FLASH ARRAY, and "PGM DATA HV" blocks. The logic control module comprises of the "WRITE STATE MACHINE, WSM", "STATE REGISTER", "COMMAND DATA DECODER", and
"COMMAND DATA LATCH". When the user issues a command by toggling WE#, the command on Q0-A15/A-1
is latched in the COMMAND DATA LATCH and is decoded by the COMMAND DATA DECODER. The STATE
REGISTER receives the command and records the current state of the device. The WSM implements the internal algorithms for program or erase according to the current command state by controlling each block in the
block diagram.
ARRAY ARCHITECTURE
The main flash memory array can be organized as Byte mode (x8) or Word mode (x16). The details of the address ranges and the corresponding sector addresses are shown in Table 1.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
8
MX29GA256/257E H/L
MX29GA128/129E H/L
BLOCK STRUCTURE
Table 1-1: MX29GA256/257EH/L SECTOR ARCHITECTURE
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA0
SA1
SA2
SA3
SA4
SA5
SA6
SA7
SA8
SA9
SA10
SA11
SA12
SA13
SA14
SA15
SA16
SA17
SA18
SA19
SA20
SA21
SA22
SA23
SA24
SA25
SA26
SA27
SA28
SA29
SA30
SA31
SA32
SA33
SA34
SA35
SA36
SA37
P/N:PM1484
Sector Address
A23-A16
00000000
00000001
00000010
00000011
00000100
00000101
00000110
00000111
00001000
00001001
00001010
00001011
00001100
00001101
00001110
00001111
00010000
00010001
00010010
00010011
00010100
00010101
00010110
00010111
00011000
00011001
00011010
00011011
00011100
00011101
00011110
00011111
00100000
00100001
00100010
00100011
00100100
00100101
(x16)
Address Range
000000h-00FFFFh
010000h-01FFFFh
020000h-02FFFFh
030000h-03FFFFh
040000h-04FFFFh
050000h-05FFFFh
060000h-06FFFFh
070000h-07FFFFh
080000h-08FFFFh
090000h-09FFFFh
0A0000h-0AFFFFh
0B0000h-0BFFFFh
0C0000h-0CFFFFh
0D0000h-0DFFFFh
0E0000h-0EFFFFh
0F0000h-0FFFFFh
100000h-10FFFFh
110000h-11FFFFh
120000h-12FFFFh
130000h-13FFFFh
140000h-14FFFFh
150000h-15FFFFh
160000h-16FFFFh
170000h-17FFFFh
180000h-18FFFFh
190000h-19FFFFh
1A0000h-1AFFFFh
1B0000h-1BFFFFh
1C0000h-1CFFFFh
1D0000h-1DFFFFh
1E0000h-1EFFFFh
1F0000h-1FFFFFh
200000h-20FFFFh
210000h-21FFFFh
220000h-22FFFFh
230000h-23FFFFh
240000h-24FFFFh
250000h-25FFFFh
REV. 0.02, MAR. 06, 2009
9
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA38
SA39
SA40
SA41
SA42
SA43
SA44
SA45
SA46
SA47
SA48
SA49
SA50
SA51
SA52
SA53
SA54
SA55
SA56
SA57
SA58
SA59
SA60
SA61
SA62
SA63
SA64
SA65
SA66
SA67
SA68
SA69
SA70
SA71
SA72
SA73
SA74
SA75
SA76
SA77
P/N:PM1484
Sector Address
A23-A16
00100110
00100111
00101000
00101001
00101010
00101011
00101100
00101101
00101110
00101111
00110000
00110001
00110010
00110011
00110100
00110101
00110110
00110111
00111000
00111001
00111010
00111011
00111100
00111101
00111110
00111111
01000000
01000001
01000010
01000011
01000100
01000101
01000110
01000111
01001000
01001001
01001010
01001011
01001100
01001101
(x16)
Address Range
260000h-26FFFFh
270000h-27FFFFh
280000h-28FFFFh
290000h-29FFFFh
2A0000h-2AFFFFh
2B0000h-2BFFFFh
2C0000h-2CFFFFh
2D0000h-2DFFFFh
2E0000h-2EFFFFh
2F0000h-2FFFFFh
300000h-30FFFFh
310000h-31FFFFh
320000h-32FFFFh
330000h-33FFFFh
340000h-34FFFFh
350000h-35FFFFh
360000h-36FFFFh
370000h-37FFFFh
380000h-38FFFFh
390000h-39FFFFh
3A0000h-3AFFFFh
3B0000h-3BFFFFh
3C0000h-3CFFFFh
3D0000h-3DFFFFh
3E0000h-3EFFFFh
3F0000h-3FFFFFh
400000h-40FFFFh
410000h-41FFFFh
420000h-42FFFFh
430000h-43FFFFh
440000h-44FFFFh
450000h-45FFFFh
460000h-46FFFFh
470000h-47FFFFh
480000h-48FFFFh
490000h-49FFFFh
4A0000h-4AFFFFh
4B0000h-4BFFFFh
4C0000h-4CFFFFh
4D0000h-4DFFFFh
REV. 0.02, MAR. 06, 2009
10
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA78
SA79
SA80
SA81
SA82
SA83
SA84
SA85
SA86
SA87
SA88
SA89
SA90
SA91
SA92
SA93
SA94
SA95
SA96
SA97
SA98
SA99
SA100
SA101
SA102
SA103
SA104
SA105
SA106
SA107
SA108
SA109
SA110
SA111
SA112
SA113
SA114
SA115
SA116
SA117
P/N:PM1484
Sector Address
A23-A16
01001110
01001111
01010000
01010001
01010010
01010011
01010100
01010101
01010110
01010111
01011000
01011001
01011010
01011011
01011100
01011101
01011110
01011111
01100000
01100001
01100010
01100011
01100100
01100101
01100110
01100111
01101000
01101001
01101010
01101011
01101100
01101101
01101110
01101111
01110000
01110001
01110010
01110011
01110100
01110101
(x16)
Address Range
4E0000h-4EFFFFh
4F0000h-4FFFFFh
500000h-50FFFFh
510000h-51FFFFh
520000h-52FFFFh
530000h-53FFFFh
540000h-54FFFFh
550000h-55FFFFh
560000h-56FFFFh
570000h-57FFFFh
580000h-58FFFFh
590000h-59FFFFh
5A0000h-5AFFFFh
5B0000h-5BFFFFh
5C0000h-5CFFFFh
5D0000h-5DFFFFh
5E0000h-5EFFFFh
5F0000h-5FFFFFh
600000h-60FFFFh
610000h-61FFFFh
620000h-62FFFFh
630000h-63FFFFh
640000h-64FFFFh
650000h-65FFFFh
660000h-66FFFFh
670000h-67FFFFh
680000h-68FFFFh
690000h-69FFFFh
6A0000h-6AFFFFh
6B0000h-6BFFFFh
6C0000h-6CFFFFh
6D0000h-6DFFFFh
6E0000h-6EFFFFh
6F0000h-6FFFFFh
700000h-70FFFFh
710000h-71FFFFh
720000h-72FFFFh
730000h-73FFFFh
740000h-74FFFFh
750000h-75FFFFh
REV. 0.02, MAR. 06, 2009
11
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA118
SA119
SA120
SA121
SA122
SA123
SA124
SA125
SA126
SA127
SA128
SA129
SA130
SA131
SA132
SA133
SA134
SA135
SA136
SA137
SA138
SA139
SA140
SA141
SA142
SA143
SA144
SA145
SA146
SA147
SA148
SA149
SA150
SA151
SA152
SA153
SA154
SA155
SA156
SA157
SA158
SA159
P/N:PM1484
Sector Address
A23-A16
01110110
01110111
01111000
01111001
01111010
01111011
01111100
01111101
01111110
01111111
10000000
10000001
10000010
10000011
10000100
10000101
10000110
10000111
10001000
10001001
10001010
10001011
10001100
10001101
10001110
10001111
10010000
10010001
10010010
10010011
10010100
10010101
10010110
10010111
10011000
10011001
10011010
10011011
10011100
10011101
10011110
10011111
(x16)
Address Range
760000h-76FFFFh
770000h-77FFFFh
780000h-78FFFFh
790000h-79FFFFh
7A0000h-7AFFFFh
7B0000h-7BFFFFh
7C0000h-7CFFFFh
7D0000h-7DFFFFh
7E0000h-7EFFFFh
7F0000h-7FFFFFh
800000h-80FFFFh
810000h-81FFFFh
820000h-82FFFFh
830000h-83FFFFh
840000h-84FFFFh
850000h-85FFFFh
860000h-86FFFFh
870000h-87FFFFh
880000h-88FFFFh
890000h-89FFFFh
8A0000h-8AFFFFh
8B0000h-8BFFFFh
8C0000h-8CFFFFh
8D0000h-8DFFFFh
8E0000h-8EFFFFh
8F0000h-8FFFFFh
900000h-90FFFFh
910000h-91FFFFh
920000h-92FFFFh
930000h-93FFFFh
940000h-94FFFFh
950000h-95FFFFh
960000h-96FFFFh
970000h-97FFFFh
980000h-98FFFFh
990000h-99FFFFh
9A0000h-9AFFFFh
9B0000h-9BFFFFh
9C0000h-9CFFFFh
9D0000h-9DFFFFh
9E0000h-9EFFFFh
9F0000h-9FFFFFh
REV. 0.02, MAR. 06, 2009
12
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA160
SA161
SA162
SA163
SA164
SA165
SA166
SA167
SA168
SA169
SA170
SA171
SA172
SA173
SA174
SA175
SA176
SA177
SA178
SA179
SA180
SA181
SA182
SA183
SA184
SA185
SA186
SA187
SA188
SA189
SA190
SA191
SA192
SA193
SA194
SA195
SA196
SA197
SA198
SA199
SA200
P/N:PM1484
Sector Address
A23-A16
10100000
10100001
10100010
10100011
10100100
10100101
10100110
10100111
10101000
10101001
10101010
10101011
10101100
10101101
10101110
10101111
10110000
10110001
10110010
10110011
10110100
10110101
10110110
10110111
10111000
10111001
10111010
10111011
10111100
10111101
10111110
10111111
11000000
11000001
11000010
11000011
11000100
11000101
11000110
11000111
11001000
(x16)
Address Range
A00000h-A0FFFFh
A10000h-A1FFFFh
A20000h-A2FFFFh
A30000h-A3FFFFh
A40000h-A4FFFFh
A50000h-A5FFFFh
A60000h-A6FFFFh
A70000h-A7FFFFh
A80000h-A8FFFFh
A90000h-A9FFFFh
AA0000h-AAFFFFh
AB0000h-ABFFFFh
AC0000h-ACFFFFh
AD0000h-ADFFFFh
AE0000h-AEFFFFh
AF0000h-AFFFFFh
B00000h-B0FFFFh
B10000h-B1FFFFh
B20000h-B2FFFFh
B30000h-B3FFFFh
B40000h-B4FFFFh
B50000h-B5FFFFh
B60000h-B6FFFFh
B70000h-B7FFFFh
B80000h-B8FFFFh
B90000h-B9FFFFh
BA0000h-BAFFFFh
BB0000h-BBFFFFh
BC0000h-BCFFFFh
BD0000h-BDFFFFh
BE0000h-BEFFFFh
BF0000h-BFFFFFh
C00000h-C0FFFFh
C10000h-C1FFFFh
C20000h-C2FFFFh
C30000h-C3FFFFh
C40000h-C4FFFFh
C50000h-C5FFFFh
C60000h-C6FFFFh
C70000h-C7FFFFh
C80000h-C8FFFFh
REV. 0.02, MAR. 06, 2009
13
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA201
SA202
SA203
SA204
SA205
SA206
SA207
SA208
SA209
SA210
SA211
SA212
SA213
SA214
SA215
SA216
SA217
SA218
SA219
SA220
SA221
SA222
SA223
SA224
SA225
SA226
SA227
SA228
SA229
SA230
SA231
SA232
SA233
SA234
SA235
SA236
SA237
SA238
SA239
SA240
P/N:PM1484
Sector Address
A23-A16
11001001
11001010
11001011
11001100
11001101
11001110
11001111
11010000
11010001
11010010
11010011
11010100
11010101
11010110
11010111
11011000
11011001
11011010
11011011
11011100
11011101
11011110
11011111
11100000
11100001
11100010
11100011
11100100
11100101
11100110
11100111
11101000
11101001
11101010
11101011
11101100
11101101
11101110
11101111
11110000
(x16)
Address Range
C90000h-C9FFFFh
CA0000h-CAFFFFh
CB0000h-CBFFFFh
CC0000h-CCFFFFh
CD0000h-CDFFFFh
CE0000h-CEFFFFh
CF0000h-CFFFFFh
D00000h-D0FFFFh
D10000h-D1FFFFh
D20000h-D2FFFFh
D30000h-D3FFFFh
D40000h-D4FFFFh
D50000h-D5FFFFh
D60000h-D6FFFFh
D70000h-D7FFFFh
D80000h-D8FFFFh
D90000h-D9FFFFh
DA0000h-DAFFFFh
DB0000h-DBFFFFh
DC0000h-DCFFFFh
DD0000h-DDFFFFh
DE0000h-DEFFFFh
DF0000h-DFFFFFh
E00000h-E0FFFFh
E10000h-E1FFFFh
E20000h-E2FFFFh
E30000h-E3FFFFh
E40000h-E4FFFFh
E50000h-E5FFFFh
E60000h-E6FFFFh
E70000h-E7FFFFh
E80000h-E8FFFFh
E90000h-E9FFFFh
EA0000h-EAFFFFh
EB0000h-EBFFFFh
EC0000h-ECFFFFh
ED0000h-EDFFFFh
EE0000h-EEFFFFh
EF0000h-EFFFFFh
F00000h-F0FFFFh
REV. 0.02, MAR. 06, 2009
14
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA241
SA242
SA243
SA244
SA245
SA246
SA247
SA248
SA249
SA250
SA251
SA252
SA253
SA254
SA255
P/N:PM1484
Sector Address
A23-A16
11110001
11110010
11110011
11110100
11110101
11110110
11110111
11111000
11111001
11111010
11111011
11111100
11111101
11111110
11111111
(x16)
Address Range
F10000h-F1FFFFh
F20000h-F2FFFFh
F30000h-F3FFFFh
F40000h-F4FFFFh
F50000h-F5FFFFh
F60000h-F6FFFFh
F70000h-F7FFFFh
F80000h-F8FFFFh
F90000h-F9FFFFh
FA0000h-FAFFFFh
FB0000h-FBFFFFh
FC0000h-FCFFFFh
FD0000h-FDFFFFh
FE0000h-FEFFFFh
FF0000h-FFFFFFh
REV. 0.02, MAR. 06, 2009
15
MX29GA256/257E H/L
MX29GA128/129E H/L
Table 1-2: MX29GA128/129E H/L SECTOR ARCHITECTURE
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA0
SA1
SA2
SA3
SA4
SA5
SA6
SA7
SA8
SA9
SA10
SA11
SA12
SA13
SA14
SA15
SA16
SA17
SA18
SA19
SA20
SA21
SA22
SA23
SA24
SA25
SA26
SA27
SA28
SA29
SA30
SA31
SA32
SA33
SA34
SA35
SA36
SA37
P/N:PM1484
Sector Address
A22-A16
0000000
0000001
0000010
0000011
0000100
0000101
0000110
0000111
0001000
0001001
0001010
0001011
0001100
0001101
0001110
0001111
0010000
0010001
0010010
0010011
0010100
0010101
0010110
0010111
0011000
0011001
0011010
0011011
0011100
0011101
0011110
0011111
0100000
0100001
0100010
0100011
0100100
0100101
(x16)
Address Range
000000h-00FFFFh
010000h-01FFFFh
020000h-02FFFFh
030000h-03FFFFh
040000h-04FFFFh
050000h-05FFFFh
060000h-06FFFFh
070000h-07FFFFh
080000h-08FFFFh
090000h-09FFFFh
0A0000h-0AFFFFh
0B0000h-0BFFFFh
0C0000h-0CFFFFh
0D0000h-0DFFFFh
0E0000h-0EFFFFh
0F0000h-0FFFFFh
100000h-10FFFFh
110000h-11FFFFh
120000h-12FFFFh
130000h-13FFFFh
140000h-14FFFFh
150000h-15FFFFh
160000h-16FFFFh
170000h-17FFFFh
180000h-18FFFFh
190000h-19FFFFh
1A0000h-1AFFFFh
1B0000h-1BFFFFh
1C0000h-1CFFFFh
1D0000h-1DFFFFh
1E0000h-1EFFFFh
1F0000h-1FFFFFh
200000h-20FFFFh
210000h-21FFFFh
220000h-22FFFFh
230000h-23FFFFh
240000h-24FFFFh
250000h-25FFFFh
REV. 0.02, MAR. 06, 2009
16
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA38
SA39
SA40
SA41
SA42
SA43
SA44
SA45
SA46
SA47
SA48
SA49
SA50
SA51
SA52
SA53
SA54
SA55
SA56
SA57
SA58
SA59
SA60
SA61
SA62
SA63
SA64
SA65
SA66
SA67
SA68
SA69
SA70
SA71
SA72
SA73
SA74
SA75
SA76
SA77
P/N:PM1484
Sector Address
A22-A16
0100110
0100111
0101000
0101001
0101010
0101011
0101100
0101101
0101110
0101111
0110000
0110001
0110010
0110011
0110100
0110101
0110110
0110111
0111000
0111001
0111010
0111011
0111100
0111101
0111110
0111111
1000000
1000001
1000010
1000011
1000100
1000101
1000110
1000111
1001000
1001001
1001010
1001011
1001100
1001101
(x16)
Address Range
260000h-26FFFFh
270000h-27FFFFh
280000h-28FFFFh
290000h-29FFFFh
2A0000h-2AFFFFh
2B0000h-2BFFFFh
2C0000h-2CFFFFh
2D0000h-2DFFFFh
2E0000h-2EFFFFh
2F0000h-2FFFFFh
300000h-30FFFFh
310000h-31FFFFh
320000h-32FFFFh
330000h-33FFFFh
340000h-34FFFFh
350000h-35FFFFh
360000h-36FFFFh
370000h-37FFFFh
380000h-38FFFFh
390000h-39FFFFh
3A0000h-3AFFFFh
3B0000h-3BFFFFh
3C0000h-3CFFFFh
3D0000h-3DFFFFh
3E0000h-3EFFFFh
3F0000h-3FFFFFh
400000h-40FFFFh
410000h-41FFFFh
420000h-42FFFFh
430000h-43FFFFh
440000h-44FFFFh
450000h-45FFFFh
460000h-46FFFFh
470000h-47FFFFh
480000h-48FFFFh
490000h-49FFFFh
4A0000h-4AFFFFh
4B0000h-4BFFFFh
4C0000h-4CFFFFh
4D0000h-4DFFFFh
REV. 0.02, MAR. 06, 2009
17
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
64
Sector
SA78
SA79
SA80
SA81
SA82
SA83
SA84
SA85
SA86
SA87
SA88
SA89
SA90
SA91
SA92
SA93
SA94
SA95
SA96
SA97
SA98
SA99
SA100
SA101
SA102
SA103
SA104
SA105
SA106
SA107
SA108
SA109
SA110
SA111
SA112
SA113
SA114
SA115
SA116
SA117
P/N:PM1484
Sector Address
A22-A16
1001110
1001111
1010000
1010001
1010010
1010011
1010100
1010101
1010110
1010111
1011000
1011001
1011010
1011011
1011100
1011101
1011110
1011111
1100000
1100001
1100010
1100011
1100100
1100101
1100110
1100111
1101000
1101001
1101010
1101011
1101100
1101101
1101110
1101111
1110000
1110001
1110010
1110011
1110100
1110101
(x16)
Address Range
4E0000h-4EFFFFh
4F0000h-4FFFFFh
500000h-50FFFFh
510000h-51FFFFh
520000h-52FFFFh
530000h-53FFFFh
540000h-54FFFFh
550000h-55FFFFh
560000h-56FFFFh
570000h-57FFFFh
580000h-58FFFFh
590000h-59FFFFh
5A0000h-5AFFFFh
5B0000h-5BFFFFh
5C0000h-5CFFFFh
5D0000h-5DFFFFh
5E0000h-5EFFFFh
5F0000h-5FFFFFh
600000h-60FFFFh
610000h-61FFFFh
620000h-62FFFFh
630000h-63FFFFh
640000h-64FFFFh
650000h-65FFFFh
660000h-66FFFFh
670000h-67FFFFh
680000h-68FFFFh
690000h-69FFFFh
6A0000h-6AFFFFh
6B0000h-6BFFFFh
6C0000h-6CFFFFh
6D0000h-6DFFFFh
6E0000h-6EFFFFh
6F0000h-6FFFFFh
700000h-70FFFFh
710000h-71FFFFh
720000h-72FFFFh
730000h-73FFFFh
740000h-74FFFFh
750000h-75FFFFh
REV. 0.02, MAR. 06, 2009
18
MX29GA256/257E H/L
MX29GA128/129E H/L
Kbytes
128
128
128
128
128
128
128
128
128
128
Sector Size
Kwords
64
64
64
64
64
64
64
64
64
64
Sector
SA118
SA119
SA120
SA121
SA122
SA123
SA124
SA125
SA126
SA127
P/N:PM1484
Sector Address
A22-A16
1110110
1110111
1111000
1111001
1111010
1111011
1111100
1111101
1111110
1111111
(x16)
Address Range
760000h-76FFFFh
770000h-77FFFFh
780000h-78FFFFh
790000h-79FFFFh
7A0000h-7AFFFFh
7B0000h-7BFFFFh
7C0000h-7CFFFFh
7D0000h-7DFFFFh
7E0000h-7EFFFFh
7F0000h-7FFFFFh
REV. 0.02, MAR. 06, 2009
19
MX29GA256/257E H/L
MX29GA128/129E H/L
BUS OPERATION
Table 2-1. BUS OPERATION
OE#
Address
(Note4)
Data
I/O
Q0~Q7
X
X
X
HighZ
Byte#
Vil
Vih
Data (I/O)
Q8~Q15
HighZ
HighZ
X
X
X
HighZ
HighZ
HighZ
H
H
H
X
HighZ
HighZ
HighZ
L/H
L
H
L
AIN
DOUT
DOUT
L/H
H
L
L
H
AIN
DIN
DIN
Note1,2
H
L
L
H
AIN
DIN
DIN
Vhv
RESET#
CE#
WE#
L
Vcc ±
0.3V
H
X
Vcc±
0.3V
L
Read Mode
H
Write
Accelerate Program
Mode Select
Device Reset
Standby Mode
Output Disable
Q8-Q14=
HighZ,
Q15=A1
WP#/
ACC
L/H
Notes:
1. The first or last sector was protected if WP#/ACC=Vil.
2. When WP#/ACC = Vih, the protection conditions of the outmost sector depends on previous protection conditions. Refer to the advaned protect feature.
3. Q0~Q15 are input (DIN) or output (DOUT) pins according to the requests of command sequence, sector protection, or data polling algorithm.
4. In Word Mode (Byte#=Vih), the addresses are AM to A0, AM: MSB of address.
In Byte Mode (Byte#=Vil), the addresses are AM to A-1 (Q15), AM: MSB of address.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
20
MX29GA256/257E H/L
MX29GA128/129E H/L
Table 2-2. BUS OPERATION
Item
AM A11
to
to
CE# WE# OE# A12 A10
Control Input
A9
A8
to
A7
A6
A5
to
A4
A3
to
A2
A1
A0 Q0 ~ Q7 Q8 ~ Q15
Sector Lock Status
Verification
L
H
L
SA
X
Vhv
X
L
X
L
H
L
01h or
00h
(Note 1)
X
Read Silicon ID
Manufacturer
Code
L
H
L
X
X
Vhv
X
L
X
L
L
L
C2H
X
Read Silicon ID -- MX29GA256/257E H/L
Cycle 1
L
H
L
X
X
Vhv
X
L
X
L
L
H
7EH
Cycle 2
L
H
L
X
X
Vhv
X
L
X
H
H
L
38H
Cycle 3
L
H
L
X
X
Vhv
X
L
X
H
H
H
01H
22H(Word),
XXH(Byte)
22H(Word),
XXH(Byte)
22H(Word),
XXH(Byte)
Read Silicon ID -- MX29GA128/129E H/L
Cycle 1
L
H
L
X
X
Vhv
X
L
X
L
L
H
7EH
22H(Word),
XXH(Byte)
Cycle 2
L
H
L
X
X
Vhv
X
L
X
H
H
L
37H
22H(Word),
XXH(Byte)
Cycle 3
L
H
L
X
X
Vhv
X
L
X
H
H
H
01H
22H(Word),
XXH(Byte)
Notes:
1. Sector unprotected code:00h. Sector protected code:01h.
2. Factory locked code: WP# protects high address sector: 99h.
WP# protects low address sector: 89h
Factory unlocked code: WP# protects high address sector: 19h.
WP# protects low address sector: 09h
3. AM: MSB of address.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
21
MX29GA256/257E H/L
MX29GA128/129E H/L
FUNCTIONAL OPERATION DESCRIPTION
READ OPERATION
To perform a read operation, the system addresses the desired memory array or status register location by providing its address on the address pins and simultaneously enabling the chip by driving CE# & OE# LOW, and
WE# HIGH. After the Tce and Toe timing requirements have been met, the system can read the contents of the
addressed location by reading the Data (I/O) pins. If either the CE# or OE# is held HIGH, the outputs will remain
tri-stated and no data will appear on the output pins.
PAGE READ
This device is able to conduct MXIC MaskROM compatible high performance page read. Page size is 16 bytes
or 8 words. The higher address Amax ~ A3 select the certain page, while A2~A0 for word mode, A2~A-1 for
byte mode select the particular word or byte in a page. The page access time is Taa or Tce, following by Tpa for
the rest of the page read time. When CE# toggles, access time is Taa or Tce. Page mode can be turned on by
keeping "page-read address" constant and changing the "intra-read page" addresses.
WRITE OPERATION
To perform a write operation, the system provides the desired address on the address pins, enables the chip by
asserting CE# LOW, and disables the Data (I/O) pins by holding OE# HIGH. The system then places data to be
written on the Data (I/O) pins and pulses WE# LOW. The device captures the address information on the falling
edge of WE# and the data on the rising edge of WE#. To see an example, please refer to the timing diagram
in Figure 1 on Page 53. The system is not allowed to write invalid commands (commands not defined in this
datasheet) to the device. Writing an invalid command may put the device in an undefined state.
DEVICE RESET
Driving the RESET# pin LOW for a period of Trp or more will return the device to Read mode. If the device is in
the middle of a program or erase operation, the reset operation will take at most a period of Tready1 before the
device returns to Read mode. Until the device does returns to Read mode, the RY/BY# pin will remain Low (Busy
Status).
When the RESET# pin is held at GND±0.3V, the device only consumes standby (Isbr) current. However, the device draws larger current if the RESET# pin is held at a voltage greater than GND+0.3V and less than or equal to
Vil.
It is recommended to tie the system reset signal to the RESET# pin of the flash memory. This allows the device
to be reset with the system and puts it in a state where the system can immediately begin reading boot code
from it.
STANDBY MODE
The device enters Standby mode whenever the RESET# and CE# pins are both held High except in the embedded mode. While in this mode, WE# and OE# will be ignored, all Data Output pins will be in a high impedance
state, and the device will draw minimal (Isb) current.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
22
MX29GA256/257E H/L
MX29GA128/129E H/L
FUNCTIONAL OPERATION DESCRIPTION (cont'd)
OUTPUT DISABLE
While in active mode (RESET# HIGH and CE# LOW), the OE# pin controls the state of the output pins. If OE# is
held HIGH, all Data (I/O) pins will remain tri-stated. If held LOW, the Byte or Word Data (I/O) pins will drive data.
BYTE/WORD SELECTION
The BYTE# input pin is used to select the organization of the array data and how the data is input/output on the
Data (I/O) pins. If the BYTE# pin is held HIGH, Word mode will be selected and all 16 data lines (Q0 to Q15) will
be active.
If BYTE# is forced LOW, Byte mode will be active and only data lines Q0 to Q7 will be active. Data lines Q8 to
Q14 will remain in a high impedance state and Q15 becomes the A-1 address input pin.
HARDWARE WRITE PROTECT
By driving the WP#/ACC pin LOW. The highest or lowest was protected from all erase/program operations. If
WP#/ACC is held HIGH (Vih to VCC), these sectors revert to their previously protected/unprotected status.
ACCELERATED PROGRAMMING OPERATION
By applying high voltage (Vhv) to the WP#/ACC pin, the device will enter the Accelerated Programming mode. This mode permits the system to skip the normal command unlock sequences and program byte/word locations
directly. During accelerated programming, the current drawn from the WP#/ACC pin is no more than ICP1.
WRITE BUFFER PROGRAMMING OPERATION
Programs 64bytes/32words in a programming operation. To trigger the Write Buffer Programming, start by the
first two unlock cycles, then third cycle writes the Write Buffer Load command at the destined programming Sector Address. The forth cycle writes the "word locations subtract one" number.
Following above operations, system starts to write the mingling of address and data. After the programming of
the first address or data, the "write-buffer-page" is selected. The following data should be within the above mentioned page.
The "write-buffer-page" is selected by choosing address Amax-A5.
"Write-Buffer-Page" address has to be the same for all address/ data write into the write buffer. If not, operation
will ABORT.
To program the content of the write buffer page this command must be followed by a write to buffer Program confirm command.
The operation of write-buffer can be suspended or resumed by the standard commands, once the write buffer
programming operation is finished, it’ll return to normal READ mode.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
23
MX29GA256/257E H/L
MX29GA128/129E H/L
FUNCTIONAL OPERATION DESCRIPTION (cont'd)
WRITE BUFFER PROGRAMMING OPERATION (cont'd)
ABORT will be executed for the Write Buffer Programming Sequence if following condition occurs:
• The value loaded is bigger than the page buffer size during "Number of Locations to Program"
• Address written in a sector is not the same as the one assigned during the Write-Buffer-Load command.
• Address/ Data pair written to a different write-buffer-page than the one assigned by the "Starting Address"
during
the "write buffer data loading" operation.
• Writing not "Confirm Command" after the assigned number of "data load" cycles.
The abort is triggered by Q1=1, Q7=DATA# (last address written), Q6=toggle, Q5=0. A Write-to-Buffer-Abort Reset command sequence has to be written to reset the device for the next operation.
Write buffer programming can be conducted in any sequence. However the CFI functions, autoselect, Secured
Silicon sector are not functional when program operation is in progress. Multiple write buffer programming operations on the same write buffer address range without intervening erases is available. Any bit in a write buffer address range can’t be programmed from 0 back to 1.
SECTOR PROTECT OPERATION
The device provides user programmable protection against program/erase operations for selected sectors.
Please refer to Table 1 which show all Sector assignments.
During the protection operation, the sector address of any sector within a Sector may be used to specify the Sector being protected.
AUTOMATIC SELECT BUS OPERATIONS
The following five bus operations require A9 to be raised to Vhv. Please see AUTOMATIC SELECT COMMAND
SEQUENCE in the COMMAND OPERATIONS section for details of equivalent command operations that do not
require the use of Vhv.
SECTOR LOCK STATUS VERIFICATION
To determine the protected state of any sector using bus operations, the system performs a READ OPERATION
with A9 raised to Vhv, the sector address applied to address pins A22 to A12, address pins A6, A3, A2 & A0 held
LOW, and address pin A1 held HIGH. If data bit Q0 is LOW, the sector is not protected, and if Q0 is HIGH, the
sector is protected.
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FUNCTIONAL OPERATION DESCRIPTION (cont'd)
READ SILICON ID MANUFACTURER CODE
To determine the Silicon ID Manufacturer Code, the system performs a READ OPERATION with A9 raised to
Vhv and address pins A6, A3, A2, A1, & A0 held LOW. The Macronix ID code of C2h should be present on data
bits Q0 to Q7.
READ INDICATOR BIT (Q7) FOR SECURITY SECTOR
To determine if the Security Sector has been locked at the factory, the system performs a READ OPERATION
with A9 raised to Vhv, address pin A6, A3 & A2 held LOW, and address pins A1 & A0 held HIGH. If the Security
Sector has been locked at the factory, the code 99h(H)/89h(L) will be present on data bits Q0 to Q7. Otherwise,
the factory unlocked code of 19h(H)/09h(L) will be present.
INHERENT DATA PROTECTION
To avoid accidental erasure or programming of the device, the device is automatically reset to Read mode during
power up. Additionally, the following design features protect the device from unintended data corruption.
COMMAND COMPLETION
Only after the successful completion of the specified command sets will the device begin its erase or program
operation. The failure in observing valid command sets will result in the memory returning to read mode.
LOW VCC WRITE INHIBIT
The device refuses to accept any write command when Vcc is less than VLKO. This prevents data from
spuriously being altered during power-up, power-down, or temporary power interruptions. The device
automatically resets itself when Vcc is lower than VLKO and write cycles are ignored until Vcc is greater than
VLKO. The system must provide proper signals on control pins after Vcc rises above VLKO to avoid unintentional
program or erase operations.
WRITE PULSE "GLITCH" PROTECTION
CE#, WE#, OE# pulses shorter than 5ns are treated as glitches and will not be regarded as an effective write
cycle.
LOGICAL INHIBIT
A valid write cycle requires both CE# and WE# at Vil with OE# at Vih. Write cycle is ignored when either CE# at
Vih, WE# at Vih, or OE# at Vil.
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FUNCTIONAL OPERATION DESCRIPTION (cont'd)
POWER-UP SEQUENCE
Upon power up, the device is placed in Read mode. Furthermore, program or erase operation will begin only
after successful completion of specified command sequences.
POWER-UP WRITE INHIBIT
When WE#, CE# is held at Vil and OE# is held at Vih during power up, the device ignores the first command on
the rising edge of WE#.
POWER SUPPLY DECOUPLING
A 0.1uF capacitor should be connected between the Vcc and GND to reduce the noise effect.
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COMMAND OPERATIONS
READING THE MEMORY ARRAY
Read mode is the default state after power up or after a reset operation. To perform a read operation, please refer to READ OPERATION in the BUS OPERATIONS section above.
If the device receives an Erase Suspend command while in the Sector Erase state, the erase operation will
pause (after a time delay not exceeding 20us) and the device will enter Erase-Suspended Read mode. While in
the Erase-Suspended Read mode, data can be programmed or read from any sector not being erased. Reading
from addresses within sector(s) being erased will only return the contents of the status register, which is in fact
how the current status of the device can be determined.
If a program command is issued to any inactive (not currently being erased) sector during Erase-Suspended
Read mode, the device will perform the program operation and automatically return to Erase-Suspended Read
mode after the program operation completes successfully.
While in Erase-Suspended Read mode, an Erase Resume command must be issued by the system to reactivate
the erase operation. The erase operation will resume from where is was suspended and will continue until it
completes successfully or another Erase Suspend command is received.
After the memory device completes an embedded operation (automatic Chip Erase, Sector Erase, or Program)
successfully, it will automatically return to Read mode and data can be read from any address in the array. If the
embedded operation fails to complete, as indicated by status register bit Q5 (exceeds time limit flag) going HIGH
during the operations, the system must perform a reset operation to return the device to Read mode.
There are several states that require a reset operation to return to Read mode:
1. A program or erase failure--indicated by status register bit Q5 going HIGH during the operation. Failures during either of these states will prevent the device from automatically returning to Read mode.
2. The device is in Auto Select mode or CFI mode. These two states remain active until they are terminated by a
reset operation.
In the two situations above, if a reset operation (either hardware reset or software reset command) is not performed, the device will not return to Read mode and the system will not be able to read array data.
AUTOMATIC PROGRAMMING OF THE MEMORY ARRAY
The device provides the user the ability to program the memory array in Byte mode or Word mode. As long as
the users enters the correct cycle defined in the Table 3 (including 2 unlock cycles and the A0H program command), any byte or word data provided on the data lines by the system will automatically be programmed into the
array at the specified location.
After the program command sequence has been executed, the internal write state machine (WSM) automatically
executes the algorithms and timings necessary for programming and verification, which includes generating suitable program pulses, checking cell threshold voltage margins, and repeating the program pulse if any cells do
not pass verification or have low margins. The internal controller protects cells that do pass verification and margin tests from being over-programmed by inhibiting further program pulses to these passing cells as weaker cells
continue to be programmed.
With the internal WSM automatically controlling the programming process, the user only needs to enter the program command and data once.
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COMMAND OPERATIONS (cont'd)
AUTOMATIC PROGRAMMING OF THE MEMORY ARRAY (cont'd)
Programming will only change the bit status from "1" to "0". It is not possible to change the bit status from "0" to
"1" by programming. This can only be done by an erase operation. Furthermore, the internal write verification
only checks and detects errors in cases where a "1" is not successfully programmed to "0".
Any commands written to the device during programming will be ignored except hardware reset or program suspend. Hard ware reset will terminate the program operation after a period of time no more than 10us. When the
embedded program algorithm is complete or the program operation is terminated by a hardware reset, the device will return to Read mode. Program suspend ready, the device will enter program suspend read mode.
After the embedded program operation has begun, the user can check for completion by reading the following
bits in the status register:
Status
In progress
Exceed time limit
Q7*1
Q7#
Q7#
Q6*1
Toggling
Toggling
Q5
0
1
Q1
0
N/A
RY/BY# (Note)
0
0
Note: RY/BY# is an open drain output pin and should be connected to VCC through a high value pull-up resistor.
ERASING THE MEMORY ARRAY
There are two types of erase operations performed on the memory array -- Sector Erase and Chip Erase. In
the Sector Erase operation, one or more selected sectors may be erased simultaneously. In the Chip Erase
operation, the complete memory array is erased except for any protected sectors. More details of the protected
sectors are explained in section 5.
SECTOR ERASE
The sector erase operation is used to clear data within a sector by returning all of its memory locations to the
"1" state. It requires six command cycles to initiate the erase operation. The first two cycles are "unlock cycles",
the third is a configuration cycle, the fourth and fifth are also "unlock cycles", and the sixth cycle is the Sector
Erase command. After the sector erase command sequence has been issued, an internal 50us time-out counter
is started. Until this counter reaches zero, additional sector addresses and Sector Erase commands may be issued thus allowing multiple sectors to be selected and erased simultaneously. After the 50us time-out counter
has expired, no new commands will be accepted and the embedded sector erase operation will begin. Note that
the 50us timer-out counter is restarted after every erase command sequence. If the user enters any command
other than Sector Erase or Erase Suspend during the time-out period, the erase operation will abort and the device will return to Read mode.
After the embedded sector erase operation begins, all commands except Erase Suspend will be ignored. The
only way to interrupt the operation is with an Erase Suspend command or with a hardware reset. The hardware
reset will completely abort the operation and return the device to Read mode.
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COMMAND OPERATIONS (cont'd)
SECTOR ERASE (cont'd)
The system can determine the status of the embedded sector erase operation by the following methods:
Status
Time-out period
In progress
Exceeded time limit
Q7
0
0
0
Q6
Toggling
Toggling
Toggling
Q3*1
0
1
1
Q5
0
0
1
Q2
Toggling
Toggling
Toggling
RY/BY#*2
0
0
0
Note:
1.The Q3 status bit is the 50us time-out indicator. When Q3=0, the 50us time-out counter has not yet reached
zero and a new Sector Erase command may be issued to specify the address of another sector to be erased.
When Q3=1, the 50us time-out counter has expired and the Sector Erase operation has already begun. Erase
Suspend is the only valid command that may be issued once the embedded erase operation is underway.
2.RY/BY# is open drain output pin and should be connected to VCC through a high value pull-up resistor.
3.When an attempt is made to erase only protected sector(s), the erase operation will abort thus preventing any
data changes in the protected sector(s). Q7 will output "0" and Q6 will toggle briefly (100us or less) before
aborting and returning the device to Read mode. If unprotected sectors are also specified, however, they will
be erased normally and the protected sector(s) will remain unchanged.
4. Q2 is a localized indicator showing a specified sector is undergoing erase operation or not. Q2 toggles when
user reads at addresses where the sectors are actively being erased (in erase mode) or to be erased (in erase
suspend mode).
CHIP ERASE
The Chip Erase operation is used erase all the data within the memory array. All memory cells containing a "0"
will be returned to the erased state of "1". This operation requires 6 write cycles to initiate the action. The first
two cycles are "unlock" cycles, the third is a configuration cycle, the fourth and fifth are also "unlock" cycles, and
the sixth cycle initiates the chip erase operation.
During the chip erase operation, no other software commands will be accepted, but if a hardware reset is received or the working voltage is too low, that chip erase will be terminated. After Chip Erase, the chip will automatically return to Read mode.
The system can determine the status of the embedded chip erase operation by the following methods:
Status
In progress
Exceed time limit
Q7
0
0
Q6
Toggling
Toggling
Q5
0
1
Q2
Toggling
Toggling
RY/BY#*1
0
0
*1: RY/BY# is open drain output pin and should be connected to VCC through a high value pull-up resistor.
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COMMAND OPERATIONS (cont'd)
ERASE SUSPEND/RESUME
After beginning a sector erase operation, Erase Suspend is the only valid command that may be issued. If system issues an Erase Suspend command during the 50us time-out period following a Sector Erase command, the
time-out period will terminate immediately and the device will enter Erase-Suspended Read mode. If the system
issues an Erase Suspend command after the sector erase operation has already begun, the device will not enter
Erase-Suspended Read mode until 20us time has elapsed. The system can determine if the device has entered
the Erase-Suspended Read mode through Q6, Q7, and RY/BY#.
After the device has entered Erase-Suspended Read mode, the system can read or program any sector(s) except those being erased by the suspended erase operation. Reading any sector being erased or programmed
will return the contents of the status register. Whenever a suspend command is issued, user must issue a resume command and check Q6 toggle bit status, before issue another erase command. The system can use the
status register bits shown in the following table to determine the current state of the device:
Status
Erase suspend read in erase suspended sector
Erase suspend read in non-erase suspended sector
Q7
Q6
Q5
Q3
Q2
Q1
RY/BY#
1
No toggle
0
N/A
toggle
N/A
1
Data
Data
1
N/A
N/A
0
Data
Erase suspend program in non-erase suspended sector Q7#
Data
Toggle
Data Data
0
N/A
When the device has suspended erasing, user can execute the command sets except sector erase and chip
erase, such as read silicon ID, sector protect verify, program, CFI query and erase resume.
SECTOR ERASE RESUME
The sector Erase Resume command is valid only when the device is in Erase-Suspended Read mode. After
erase resumes, the user can issue another Ease Suspend command, but there should be a 400us interval between Ease Resume and the next Erase Suspend command.
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COMMAND OPERATIONS (cont'd)
PROGRAM SUSPEND/RESUME
After beginning a program operation, Program Suspend is the only valid command that may be issued. The system can determine if the device has entered the Program-Suspended Read mode through Q6, and RY/BY#.
After the device has entered Program-Suspended mode, the system can read any sector(s) except those being
programd by the suspended program operation. Reading the sector being program suspended is invalid. Whenever a suspend command is issued, user must issue a resume command and check Q6 toggle bit status, before
issue another program command. The system can use the status register bits shown in the following table to determine the current state of the device:
Status
Q7
Q6
Q5
Program suspend read in program suspended sector
Q3
Q2
Q1
Invalid
Program suspend read in non-program suspended
Data
sector
Data
Data
RY/BY#
1
Data
Data
Data
1
When the device has Program/Erase suspended, user can execute read array, auto-select, read CFI, read security silicon.
PROGRAM RESUME
The Program Resume command is valid only when the device is in Program-Suspended mode. After program
resumes, the user can issue another Program Suspend command, but there should be a 5us interval between
Program Resume and the next Program Suspend command.
BUFFER WRITE ABORT
Q1 is the indicator of Buffer Write Abort. When Q1=1, the device will abort from buffer write and go back to read
status register shown as following table:
Status
Q7
Q6
Q5
Q3
Q2
Q1
RY/BY#
Buffer Write Busy
Q7#
Toggle
0
N/A
N/A
0
0
Buffer Write Abort
Q7#
Toggle
0
N/A
N/A
1
0
Buffer Write Exceeded Time Limit
Q7#
Toggle
1
N/A
N/A
0
0
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COMMAND OPERATIONS (cont'd)
AUTOMATIC SELECT OPERATIONS
When the device is in Read mode, Program Suspend Read mode, Erase-Suspended Read mode, or CFI mode,
the user can issue the Automatic Select command shown in Table 3 (two unlock cycles followed by the Automatic
Select command 90h) to enter Automatic Select mode. After entering Automatic Select mode, the user can query
the Manufacturer ID, Device ID, Security Sector locked status, or Sector protected status multiple times without
issuing a new Automatic Select command.
While In Automatic Select mode, issuing a Reset command (F0h) will return the device to Read mode (or EaseSuspended Read mode if Erase-Suspend was active or Program Suspend Read mode if Program Suspend was
active).
Another way to enter Automatic Select mode is to use one of the bus operations shown in Table 2. BUS
OPERATION_2. After the high voltage (Vhv) is removed from the A9 pin, the device will automatically return to
Read mode or Erase-Suspended Read mode.
AUTOMATIC SELECT COMMAND SEQUENCE
Automatic Select mode is used to access the manufacturer ID, device ID and to verify whether or not secured
silicon is locked and whether or not a sector is protected. The automatic select mode has four command cycles.
The first two are unlock cycles, and followed by a specific command. The fourth cycle is a normal read cycle,
and user can read at any address any number of times without entering another command sequence. The Reset
command is necessary to exit the Automatic Select mode and back to read array. The following table shows the
identification code with corresponding address.
Manufacturer ID
Device ID
MX29GA256/
257E
MX29GA128/
129E
Secured Silicon
Sector Protect Verify
Word
Byte
Word
Address
X00
X00
X01/0E/0F
Data (Hex)
Representation
C2
C2
227E/2238/2201
Byte
X02/1C/1E
7E/38/01
Word
X01/0E/0F
227E/2237/2201
Byte
X02/1C/1E
7E/37/01
Word
X03
Byte
X06
Word
Byte
(Sector address) X 02
(Sector address) X 04
99/19 (H)
89/09 (L)
99/19 (H)
89/09 (L)
00/01
00/01
Factory locked/unlocked
Factory locked/unlocked
Unprotected/protected
Unprotected/protected
After entering automatic select mode, no other commands are allowed except the reset command.
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COMMAND OPERATIONS (cont'd)
READ MANUFACTURER ID OR DEVICE ID
The Manufacturer ID (identification) is a unique hexadecimal number assigned to each manufacturer by the JEDEC committee. Each company has its own manufacturer ID, which is different from the ID of all other companies. The number assigned to Macronix is C2h.
After entering Automatic Select mode, performing a read operation with A1 & A0 held LOW will cause the device
to output the Manufacturer ID on the Data I/O (Q7 to Q0) pins. RESET
In the following situations, executing reset command will reset device back to Read mode:
•
•
•
•
Among erase command sequence (before the full command set is completed)
Sector erase time-out period
Erase fail (while Q5 is high)
Among program command sequence (before the full command set is completed, erase-suspended program
included)
• Program fail (while Q5 is high, and erase-suspended program fail is included)
• Auto-Select mode
• CFI mode
While device is at the status of program fail or erase fail (Q5 is high), user must issue reset command to reset
device back to read array mode. While the device is in Auto-Select mode or CFI mode, user must issue reset
command to reset device back to read array mode. When the device is in the progress of programming (not program fail) or erasing (not erase fail), device will ignore reset command.
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SECURITY SECTOR FLASH MEMORY REGION
The Security Sector region is an extra OTP memory space of 128 words in length. The security sector can be
locked upon shipping from factory, or it can be locked by customer after shipping. Customer can issue Security
Sector Factory Protect Verify and/or Security Sector Protect Verify to query the lock status of the device.
In factory-locked device, security sector region is protected when shipped from factory and the security silicon
sector indicator bit is set to "1". In customer lockable device, security sector region is unprotected when shipped
from factory and the security silicon indicator bit is set to "0".
Factory Locked: Security Sector Programmed and Protected at the Factory
In a factory locked device, the Security Sector is permanently locked before shipping from the factory. The device will have a 16-byte (8-word) ESN in the security region. The ESN occupies addresses 00000h to 0000Fh in
byte mode or 00000h to 00007h in word mode.
Secured Silicon Sector
Address Range
Standard Factory Locked
000000h-000007h
ESN
000008h-00007Fh
Unavailable
Express Flash
Factory Locked
ESN or Determined by
Customer
Determined by Customer
Customer Lockable
Determined by Customer
Customer Lockable: Security Sector NOT Programmed or Protected at the Factory
When the security feature is not required, the security region can act as an extra memory space.
Security silicon sector can also be protected by two methods. Note that once the security silicon sector is protected, there is no way to unprotect the security silicon sector and the content of it can no longer be altered.
After the security silicon is locked and verified, system must write Exit Security Sector Region, go through a power cycle, or issue a hardware reset to return the device to read normal array mode.
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TABLE 3. COMMAND DEFINITIONS
Automatic Select
Read Reset
Factory Protect
Command
Silicon ID Device ID
Mode Mode
Verify
Word Byte Word Byte
Word
Byte
555
AAA
1st Bus Addr Addr XXX 555 AAA 555 AAA
Cycle Data Data
F0
AA AA AA
AA
AA
AA
2AA 555 2AA 555
2AA
555
2nd Bus Addr
Cycle Data
55
55
55
55
55
55
555 AAA 555 AAA
555
AAA
3rd Bus Addr
Cycle Data
90
90
90
90
90
90
4th Bus
Cycle
5th Bus Cycle
6th Bus Cycle
X00
X00
X01
X02
X03
Data
C2h C2h
ID1
ID1
99/19(H)
89/09(L)
Command
Security
Exit Security
Sector
Program
Sector
Region
Word Byte Word Byte Word Byte
555 AAA 555 AAA 555 AAA
AA
AA
AA AA
AA
2AA
555
2AA 555 2AA
55
55
55
55
55
555
AAA
555 AAA 555
90
90
88
88
90
(Sector) (Sector)
X06
XXX
X02
X04
Addr
Addr
Data
Addr
Data
Sector Protect
Verify
Word
Byte
555
AAA
00/01
00/01
00
AA
555
55
AAA
90
AA
2AA
55
555
A0
AA
555
55
AAA
A0
XXX Addr Addr
00
Data Data
X0E X1C
ID2 ID2
X0F X1E
ID3 ID3
Write to
Buffer
Program
Write to
Buffer
Program
Abort
Reset
Write to
Buffer
Program
confirm
Chip
Erase
Sector
Erase
CFI Read
Program/
Erase
Suspend
Program/
Erase
Resume
Deep Power Down
Enter
Exit
Word Byte Word Byte Word Byte Word Byte Word Byte Word Byte Word Byte Word Byte Word Byte Word Byte
1st Bus Addr
Cycle Data
2nd Bus Addr
Cycle Data
3rd Bus Addr
Cycle Data
4th Bus Addr
Cycle Data
5th Bus Addr
Cycle Data
555
AA
2AA
55
SA
25
SA
N-1
WA
WD
AAA
AA
555
55
SA
25
SA
N-1
WA
WD
6th Bus Addr WBL WBL
Cycle
Data WD WD
555
AA
2AA
55
555
F0
AAA SA
AA 29
555
55
AAA
F0
SA
29
555
AA
2AA
55
555
80
555
AA
2AA
55
AAA
AA
555
55
AAA
80
AAA
AA
555
55
555
AA
2AA
55
555
80
555
AA
2AA
55
Sec555 AAA
tor
10 10
30
AAA 55
AA 98
555
55
AAA
80
AAA
AA
555
55
Sector
30
AA XXX XXX XXX XXX 555
98 B0 B0 30 30 AA
2AA
55
XXX
B9
AAA XXX XXX
AA AB AB
555
55
XXX
B9
WA= Write Address
WD= Write Data
SA= Sector Address
N= Word Count
WBL= Write Buffer Location
ID1/ID2/ID3: Refer to Table 2-2 for detail ID of each device.
Notes:
* It is not recommended to adopt any other code not in the command definition table which will potentially enter
the hidden mode.
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COMMON FLASH MEMORY INTERFACE (CFI) MODE
QUERY COMMAND AND COMMAND FLASH MEMORY INTERFACE (CFI) MODE
The device features CFI mode. Host system can retrieve the operating characteristics, structure and vendorspecified information such as identifying information, memory size, byte/word configuration, operating voltages
and timing information of this device by CFI mode. If the system writes the CFI Query command "98h", to address "55h"/"AAh" (depending on Word/Byte mode), the device will enter the CFI Query Mode, any time the device is ready to read array data. The system can read CFI information at the addresses given in Table 4.
Once user enters CFI query mode, user can issuereset command to exit CFI mode and return to read array
mode.
Table 4-1. CFI mode: Identification Data Values
(All values in these tables are in hexadecimal)
Description
Query-unique ASCII string "QRY"
Primary vendor command set and control interface ID code
Address for primary algorithm extended query table
Alternate vendor command set and control interface ID code
Address for alternate algorithm extended query table
Address (h)
(Word Mode)
10
11
12
13
14
15
16
17
18
19
1A
Address (h)
(Byte Mode)
20
22
24
26
28
2A
2C
2E
30
32
34
Address (h)
(Word Mode)
1B
1C
1D
1E
1F
Address (h)
(Byte Mode)
36
38
3A
3C
3E
20
40
0006
21
22
23
24
25
42
44
46
48
4A
0009
0013
0003
0005
0003
26
4C
0002
Data (h)
0051
0052
0059
0002
0000
0040
0000
0000
0000
0000
0000
Table 4-2. CFI mode: System Interface Data Values
Description
Vcc supply minimum program/erase voltage
Vcc supply maximum program/erase voltage
VPP supply minimum program/erase voltage
VPP supply maximum program/erase voltage
Typical timeout per single word/byte write, 2n us
Typical timeout for maximum-size buffer write, 2n us (00h, not
support)
Typical timeout per individual block erase, 2n ms
Typical timeout for full chip erase, 2n ms (00h, not support)
Maximum timeout for word/byte write, 2n times typical
Maximum timeout for buffer write, 2n times typical
Maximum timeout per individual block erase, 2n times typical
Maximum timeout for chip erase, 2n times typical (00h, not
support)
P/N:PM1484
Data (h)
0027
0036
0000
0000
0003
REV. 0.02, MAR. 06, 2009
36
MX29GA256/257E H/L
MX29GA128/129E H/L
Table 4-3. CFI mode: Device Geometry Data Values
Description
Device size = 2n in number of bytes (19=256Mb, 18=128Mb)
Flash device interface description (02=asynchronous x8/x16)
Maximum number of bytes in buffer write = 2n (00h, not support)
Number of erase regions within device (01h:uniform, 02h:boot)
Index for Erase Bank Area 1:
[2E,2D] = # of same-size sectors in region 1-1
[30, 2F] = sector size in multiples of 256Byte
256Mb=00FF, 0000, 0000, 0002
128Mb=007F, 0000, 0000, 0002
Index for Erase Bank Area 2
Index for Erase Bank Area 3
Index for Erase Bank Area 4
P/N:PM1484
Address (h)
(Word Mode)
Address (h)
(Byte Mode)
Data (h)
27
4E
0019/
0018
28
29
2A
2B
2C
50
52
54
56
58
2D
5A
0002
0000
0006
0000
0001
00xx
2E
5C
0000
2F
5E
0000
30
31
32
33
34
35
36
37
38
39
3A
3B
3C
60
62
64
66
68
6A
6C
6E
70
72
74
76
78
0002
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
0000
REV. 0.02, MAR. 06, 2009
37
MX29GA256/257E H/L
MX29GA128/129E H/L
Table 4-4. CFI mode: Primary Vendor-Specific Extended Query Data Values
Address (h)
(Word Mode)
40
41
42
43
44
45
46
47
48
49
4A
4B
Address (h)
(Byte Mode)
80
82
84
86
88
8A
8C
8E
90
92
94
96
4C
98
0002
4D
9A
0095
4E
9C
00A5
WP# Protection
04=Uniform sectors bottom WP# protect
05=Uniform sectors top WP# protect
4F
9E
0004/
0005
Program Suspend (0=not support, 1=support)
50
A0
0001
Description
Query - Primary extended table, unique ASCII string, PRI
Major version number, ASCII
Minor version number, ASCII
Unlock recognizes address (0= recognize, 1= don't recognize)
Erase suspend (2= to both read and program)
Sector protect (N= # of sectors/group)
Temporary sector unprotect (1=supported)
Sector protect/Chip unprotect scheme
Simultaneous R/W operation (0=not supported)
Burst mode (0=not supported)
Page mode (0=not supported, 01 = 4 word page, 02 = 8 word
page)
Minimum ACC(acceleration) supply (0= not supported), [D7:D4]
for volt, [D3:D0] for 100mV
Maximum ACC(acceleration) supply (0= not supported), [D7:D4]
for volt, [D3:D0] for 100mV
P/N:PM1484
Data (h)
0050
0052
0049
0031
0033
0014
0002
0001
0000
0008
0000
0000
REV. 0.02, MAR. 06, 2009
38
MX29GA256/257E H/L
MX29GA128/129E H/L
ELECTRICAL CHARACTERISTICS
ABSOLUTE MAXIMUM STRESS RATINGS
Surrounding Temperature with Bias
Storage Temperature
-65°C to +125°C
-65°C to +150°C
-0.5V to +4.0 V
VCC Voltage Range
VI/O
-0.5V to +4.0 V
A9, WP#/ACC
The other pins.
Output Short Circuit Current (less than one second)
-0.5V to +10.5 V
-0.5V to Vcc +0.5V
200 mA
OPERATING TEMPERATURE AND VOLTAGE
Commercial (C) Grade
Surrounding Temperature (TA )
0°C to +70°C
Industrial (I) Grade
Surrounding Temperature (TA )
-40°C to +85°C
VCC Supply Voltages
VCC range
VI/O range
+2.7 V to 3.6 V
+2.7 V to 3.6 V
P/N:PM1484
REV. 0.02, MAR. 06, 2009
39
MX29GA256/257E H/L
MX29GA128/129E H/L
DC CHARACTERISTICS
Symbol Description
Iilk
Input Leak
Iilk9
A9 Leak
Iolk
Output Leak
lcr1
Min
Typ
Max
±2.0uA
35uA
Read Current
6mA
20mA
30mA
50mA
60mA
100mA
VIO non-active current
0.2mA
10mA
Icw
Write Current
26mA
30mA
Isb
Standby Current
30uA
100uA
Isbr
Reset Current
30uA
100uA
Isbs
Sleep Mode Current
30uA
100uA
Idpd
Vcc deep power down current
10uA
Icp2
Vil
Vih
Vhv
Vol
Accelerated Pgm Current, WP#/Acc
pin(Word/Byte)
Accelerated Pgm Current, Vcc pin,
(Word/Byte)
Input Low Voltage
Input High Voltage
Very High Voltage for hardware Auto
Select/Accelerated Program
Output Low Voltage
A9=10.5V
±1.0uA
Iio
Icp1
Remark
CE#=Vil, OE#=Vih,
Vcc=Vccmax;
f=1MHz, Byte Mode
CE#=Vil, OE#=Vih,
Vcc=Vccmax;
f=5MHz, Byte Mode
CE#=Vil, OE#=Vih,
Vcc=Vccmax;
f=10MHz
CE#=Vil, OE#=Vih,
WE#=Vil
Vcc=Vcc max, other
pin disable
Vcc=Vccmax,
RESET# enable,
other pin disable
5mA
10mA
CE#=Vil, OE#=Vih
20mA
30mA
CE#=Vil, OE#=Vih
-0.1V
0.7xVI/O
0.3xVI/O
VI/O+0.3V
9.5V
10.5V
0.45V
Iol=100uA
Voh1
Ouput High Voltage
0.85xVI/O
Ioh1=-100uA
Voh2
Ouput High Voltage
VI/O-0.4V
Ioh2=-100uA
Vlko
Low Vcc Lock-out voltage
2.3V
P/N:PM1484
2.5V
REV. 0.02, MAR. 06, 2009
40
MX29GA256/257E H/L
MX29GA128/129E H/L
SWITCHING TEST CIRCUITS
3.3V
2.7KΩ
DEVICE UNDER
TEST
CL
6.2KΩ
Test Condition
Output Load Capacitance, CL : 1TTL gate, 30pF(90ns)
Rise/Fall Times : 5ns
Input pulse levels : 0.0 ~ VI/O
In/Out reference levels : VI/O / 2
SWITCHING TEST WAVEFORMS
VI/O
VI/O / 2
0.0V
VI/O / 2
Test Points
INPUT
OUTPUT
P/N:PM1484
REV. 0.02, MAR. 06, 2009
41
MX29GA256/257E H/L
MX29GA128/129E H/L
AC CHARACTERISTICS-(1)
29GL256/257E
(VCC=2.7V~3.6V)
Min. Typ. Max.
100
25
100
25
40
Symbol Description
Taa
Tpa
Tce
Toe
Tdf
Toh
Trc
Twc
Tcwc
Tas
Tah
Tds
Tdh
Tvcs
Tcs
Tch
Toes
Toeh
Valid data output after address
Page access time
Valid data output after CE# low
Valid data output after OE# low
Data output floating after OE# high
Output hold time from the earliest rising edge of
0
address,CE#, OE#
100
Read period time
100
Write period time
100
Command write period time
Address setup time
0
Address hold time
45
Data setup time
30
Data hold time
0
Vcc setup time
500
Chip enable Setup time
0
Chip enable hold time
0
Output enable setup time
0
Output enable hold time 29GL256/257E
(VCC=3.0V~3.6V)
Min. Typ. Max.
90
25
90
25
40
Unit
ns
ns
ns
ns
ns
0
ns
90
90
90
0
45
30
0
500
0
0
0
ns
ns
ns
ns
ns
ns
ns
us
ns
ns
ns
Read
0
0
ns
Toggle & Data#
Polling
10
10
ns
0
0
35
30
35
30
0
0
35
30
35
30
ns
ns
ns
ns
ns
ns
Tws
Twh
Tcepw
Tcepwh
Twp
Twph
WE# setup time
WE# hold time
CE# pulse width
CE# pulse width high
WE# pulse width
WE# pulse width high
Tbusy
Tghwl
Tghel
Twhwh1
Twhwh1
Twhwh1
Twhwh2
Tbal
Trdp
Program/Erase active time by RY/BY#
Read recover time before write
Read recover time before write
Program operation (Byte mode)
Program operation (Word mode)
Acc program operation (Word/Byte)
Sector erase operation
Sector add hold time
Release from deep power down mode
100
0
0
0
0
11
11
11
0.6
P/N:PM1484
90
5
50
200
11
11
11
0.6
5
50
200
ns
ns
ns
us
us
us
sec
us
us
REV. 0.02, MAR. 06, 2009
42
MX29GA256/257E H/L
MX29GA128/129E H/L
AC CHARACTERISTICS-(2)
29GL128/129E
(VCC=2.7V~3.6V)
Min. Typ. Max.
90
25
90
25
40
Symbol Description
Taa
Tpa
Tce
Toe
Tdf
Valid data output after address
Page access time
Valid data output after CE# low
Valid data output after OE# low
Data output floating after OE# high
Toh
Output hold time from the earliest rising edge of address,CE#, OE#
Trc
Twc
Tcwc
Tas
Tah
Tds
Tdh
Tvcs
Tcs
Tch
Toes
Toeh
ns
ns
ns
ns
ns
0
ns
90
90
90
0
45
30
0
500
0
0
0
ns
ns
ns
ns
ns
ns
ns
us
ns
ns
ns
Read
0
ns
Toggle & Data# Polling
10
ns
0
0
35
30
35
30
ns
ns
ns
ns
ns
ns
Read period time
Write period time
Command write period time
Address setup time
Address hold time
Data setup time
Data hold time
Vcc setup time
Chip enable Setup time
Chip enable hold time
Output enable setup time
Output enable hold time Unit
Tws
Twh
Tcepw
Tcepwh
Twp
Twph
WE# setup time
WE# hold time
CE# pulse width
CE# pulse width high
WE# pulse width
WE# pulse width high
Tbusy
Tghwl
Tghel
Twhwh1
Twhwh1
Twhwh1
Twhwh2
Tbal
Trdp
Program/Erase active time by RY/BY#
Read recover time before write
Read recover time before write
Program operation (Byte mode)
Program operation (Word mode)
Acc program operation (Word/Byte)
Sector erase operation
Sector add hold time
Release from deep power down mode
90
0
0
11
11
11
0.6
P/N:PM1484
5
50
200
ns
ns
ns
us
us
us
sec
us
us
REV. 0.02, MAR. 06, 2009
43
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 1. COMMAND WRITE OPERATION
Tcwc
CE#
Vih
Vil
Tch
Tcs
WE#
Vih
Vil
Toes
OE#
Twph
Twp
Vih
Vil
Addresses
Vih
VA
Vil
Tah
Tas
Tdh
Tds
Vih
Data
Vil
DIN
VA: Valid Address
P/N:PM1484
REV. 0.02, MAR. 06, 2009
44
MX29GA256/257E H/L
MX29GA128/129E H/L
READ/RESET OPERATION
Figure 2. READ TIMING WAVEFORMS
Tce
CE#
Vih
Vil
Vih
WE#
Vil
Toeh
Tdf
Toe
Vih
OE#
Vil
Toh
Taa
Trc
Vih
ADD Valid
Addresses
Vil
Outputs
Voh
HIGH Z
DATA Valid
HIGH Z
Vol
P/N:PM1484
REV. 0.02, MAR. 06, 2009
45
MX29GA256/257E H/L
MX29GA128/129E H/L
AC CHARACTERISTICS
Item
Description
MIN/MAX Speed
Unit
Trp1
RESET# Pulse Width (During Automatic Algorithms)
MIN
10
us
Trp2
RESET# Pulse Width (NOT During Automatic Algorithms)
MIN
500
ns
Trh
RESET# High Time Before Read
MIN
200
ns
Trb1
RY/BY# Recovery Time (to CE#, OE# go low)
MIN
0
ns
Trb2
RY/BY# Recovery Time (to WE# go low)
MIN
50
ns
Tready1 RESET# PIN Low (During Automatic Algorithms) to Read or Write
MAX
20
us
Tready2 RESET# PIN Low (NOT During Automatic Algorithms) to Read or Write
MAX
500
ns
Figure 3. RESET# TIMING WAVEFORM
Trb1
CE#, OE#
Trb2
WE#
Tready1
RY/BY#
RESET#
Trp1
Reset Timing during Automatic Algorithms
CE#, OE#
Trh
RY/BY#
RESET#
Trp2
Tready2
Reset Timing NOT during Automatic Algorithms
P/N:PM1484
REV. 0.02, MAR. 06, 2009
46
MX29GA256/257E H/L
MX29GA128/129E H/L
ERASE/PROGRAM OPERATION
Figure 4. AUTOMATIC CHIP ERASE TIMING WAVEFORM
CE#
Tch
Twhwh2
Twp
WE#
Twph
Tcs
Tghwl
OE#
Last 2 Erase Command Cycle
Twc
Address
2AAh
VA
555h
Tds
Data
Read Status
Tah
Tas
Tdh
55h
VA
In
Progress Complete
10h
Tbusy
Trb
RY/BY#
P/N:PM1484
REV. 0.02, MAR. 06, 2009
47
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 5. AUTOMATIC CHIP ERASE ALGORITHM FLOWCHART
START
Write Data AAH Address 555H
Write Data 55H Address 2AAH
Write Data 80H Address 555H
Write Data AAH Address 555H
Write Data 55H Address 2AAH
Write Data 10H Address 555H
Data# Polling Algorithm or
Toggle Bit Algorithm
NO
Data=FFh ?
YES
Auto Chip Erase Completed
P/N:PM1484
REV. 0.02, MAR. 06, 2009
48
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 6. AUTOMATIC SECTOR ERASE TIMING WAVEFORM
Read Status
CE#
Tch
Twhwh2
Twp
WE#
Twph
Tcs
Tghwl
OE#
Tbal
Last 2 Erase Command Cycle
Twc
Address
Tas
Sector
Address 0
2AAh
Tds
Tdh
55h
Sector
Address 1
Sector
Address n
Tah
VA
VA
In
Progress Complete
30h
30h
30h
Data
Tbusy
Trb
RY/BY#
P/N:PM1484
REV. 0.02, MAR. 06, 2009
49
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 7. AUTOMATIC SECTOR ERASE ALGORITHM FLOWCHART
START
Write Data AAH Address 555H
Write Data 55H Address 2AAH
Write Data 80H Address 555H
Write Data AAH Address 555H
Write Data 55H Address 2AAH
Write Data 30H Sector Address
Last Sector
NO
to Erase
YES
Data# Polling Algorithm or
Toggle Bit Algorithm
Data=FFh
NO
YES
Auto Sector Erase Completed
P/N:PM1484
REV. 0.02, MAR. 06, 2009
50
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 8. ERASE SUSPEND/RESUME FLOWCHART
START
Write Data B0H
Toggle Bit checking Q6
NO
ERASE SUSPEND
not toggled
YES
Read Array or
Program
Reading or
Programming End
NO
YES
Write Data 30H
ERASE RESUME
Continue Erase
Another
Erase Suspend ?
NO
YES
P/N:PM1484
REV. 0.02, MAR. 06, 2009
51
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 9. AUTOMATIC PROGRAM TIMING WAVEFORMS
CE#
Tch
Twhwh1
Twp
WE#
Tcs
Twph
Tghwl
OE#
Last 2 Program Command Cycle
555h
Address
Last 2 Read Status Cycle
Tah
Tas
VA
PA
Tds
VA
Tdh
A0h
Status
PD
DOUT
Data
Tbusy
Trb
RY/BY#
Figure 10. ACCELERATED PROGRAM TIMING DIAGRAM
Vhv
(9.5V ~ 10.5V)
WP#/ACC
Vil or Vih
Vil or Vih
250nS
250nS
P/N:PM1484
REV. 0.02, MAR. 06, 2009
52
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 11. CE# CONTROLLED WRITE TIMING WAVEFORM
WE#
Twhwh1 or Twhwh2
Tcepw
CE#
Tcepwh
Tghwl
OE#
Tah
Tas
Address
555h
Tds
Data
VA
PA
VA
Tdh
A0h
Status
PD
DOUT
Tbusy
RY/BY#
P/N:PM1484
REV. 0.02, MAR. 06, 2009
53
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 12. AUTOMATIC PROGRAMMING ALGORITHM FLOWCHART
START
Write Data AAH Address 555H
Write Data 55H Address 2AAH
Write Data A0H Address 555H
Write Program Data/Address
Data# Polling Algorithm or
Toggle Bit Algorithm
next address
Read Again Data:
Program Data?
No
YES
No
Last Word to be
Programed
YES
Auto Program Completed
P/N:PM1484
REV. 0.02, MAR. 06, 2009
54
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 13. SILICON ID READ TIMING WAVEFORM
VCC
3V
Vhv
Vih
Vil
ADD
A9
ADD
A0
Vih
Vil
Taa
A1
Taa
Taa
Taa
Vih
Vil
A2
Vih
Vil
ADD
CE#
WE#
Vih
Vil
Disable
Enable
Tce
Vih
Vil
OE#
Vih
Toe
Tdf
Vil
Toh
DATA
Q0-Q15
Toh
Toh
Toh
Vih
Vil
DATA OUT
DATA OUT
DATA OUT
DATA OUT
Manufacturer ID
Device ID
Cycle 1
Device ID
Cycle 2
Device ID
Cycle 3
P/N:PM1484
REV. 0.02, MAR. 06, 2009
55
MX29GA256/257E H/L
MX29GA128/129E H/L
WRITE OPERATION STATUS
Figure 14. DATA# POLLING TIMING WAVEFORMS (DURING AUTOMATIC ALGORITHMS)
Tce
CE#
Tch
WE#
Toe
OE#
Toeh
Tdf
Trc
Address
VA
VA
Taa
Toh
Q7
Status Data
Complement
True
Valid Data
Q0-Q6
Status Data
Status Data
True
Valid Data
High Z
High Z
Tbusy
RY/BY#
P/N:PM1484
REV. 0.02, MAR. 06, 2009
56
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 15. DATA# POLLING ALGORITHM
Start
Read Q7~Q0 at valid address
(Note 1)
No
Q7 = Data# ?
Yes
No
Q5 = 1 ?
Yes
Read Q7~Q0 at valid address
No
Q7 = Data# ?
(Note 2)
Yes
FAIL
Pass
Notes:
1. For programming, valid address means program address.
For erasing, valid address means erase sectors address.
2.Q7 should be rechecked even Q5="1" because Q7 may change simultaneously with Q5.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
57
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 16. TOGGLE BIT TIMING WAVEFORMS (DURING AUTOMATIC ALGORITHMS)
Tce
CE#
Tch
WE#
Toe
OE#
Toeh
Tdf
Trc
Address
VA
VA
VA
VA
Taa
Toh
Q6/Q2
Valid Status
(first read)
Valid Status
Valid Data
(second read)
(stops toggling)
Valid Data
Tbusy
RY/BY#
VA : Valid Address
P/N:PM1484
REV. 0.02, MAR. 06, 2009
58
MX29GA256/257E H/L
MX29GA128/129E H/L
Figure 17. TOGGLE BIT ALGORITHM
Start
Read Q7-Q0 Twice
Q6 Toggle ?
(Note 1)
NO
YES
NO
Q5 = 1?
YES
Read Q7~Q0 Twice
Q6 Toggle ?
NO
YES
PGM/ERS fail
Write Reset CMD
PGM/ERS Complete
Notes:
1. Read toggle bit twice to determine whether or not it is toggling.
2. Recheck toggle bit because it may stop toggling as Q5 changes to "1".
P/N:PM1484
REV. 0.02, MAR. 06, 2009
59
MX29GA256/257E H/L
MX29GA128/129E H/L
AC CHARACTERISTICS
WORD/BYTE CONFIGURATION (BYTE#)
Test
Setup
Max.
Max.
Min.
Parameter Description
Telfl/Telfh
Tflqz
Tfhqv
CE# to BYTE# from L/H
BYTE# from L to Output Hiz
BYTE# from H to Output Active
All Speed Options
Unit
5
30
90
ns
ns
ns
Figure 18. BYTE# TIMING WAVEFORM FOR READ OPERATIONS (BYTE# switching from byte mode to
word mode)
CE#
OE#
Telfh
BYTE#
Q0~Q14
DOUT
(Q0-Q7)
Q15/A-1
VA
DOUT
(Q0-Q14)
DOUT
(Q15)
Tfhqv
Figure 19. PAGE READ TIMING WAVEFORM
VALID ADD
Amax:A3
(A-1),A0,A1,A2
1'st ADD
taa
DATA
2'nd ADD
tpa
3'rd ADD
tpa
Data 1
Data 2
Data 3
CE#/OE#
Note: CE#, OE# are enable.
Page size is 8 words in 16-bit mode, 16 bytes in 8-bit mode.
Address are A2~A0 for Word mode, A2~A-1 for Byte mode.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
60
MX29GA256/257E H/L
MX29GA128/129E H/L
AC CHARACTERISTICS
ITEM
WEB high to release from deep power down mode
WEB high to deep power down mode
TPY
MAX
tRDP
100us
200us
tDP
10us
20us
Figure 20. DEEP POWER DOWN MODE WAVEFORM
CEB
WEB
ADD
tDP
55
DATA
XX
2AA
AA
tRDP
55
XX (don't care)
AB
B9
Standby mode
Deep power down mode Standby mode
Figure 21. WRITE BUFFER PROGRAM FLOWCHART
Write CMD: Data=AAh, Addr=555h
Write CMD: Data=55h, Addr=2AAh
Write CMD: Data=29h, Addr=SA
Write CMD: Data=25h, Addr=SA
Polling Status
Write CMD: Data=PWC, Addr=SA
PWC=PWC-1
Yes
Write CMD:
Data=PGM_data, Addr=PGM_addr
Want to Abort ?
PWC =0?
No
Return to read Mode
No
Fail
Yes
Write a different sector
address to cause Abort
Yes
No
No
Pass
Yes
Yes
Write Buffer Abort
No
SA: Sector Address of to be Programmed page
PWC: Program Word Count
Write Abort reset CMD
to return to read Mode
P/N:PM1484
Write reset CMD
to return to read Mode
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MX29GA256/257E H/L
MX29GA128/129E H/L
RECOMMENDED OPERATING CONDITIONS
At Device Power-Up
AC timing illustrated in Figure A is recommended for the supply voltages and the control signals at device powerup. If the timing in the figure is ignored, the device may not operate correctly.
Vcc(min)
Vcc
GND
Tvr
Tvcs
Tf
Tce
Tr
Vih
CE#
Vil
Vih
WE#
Vil
Tf
Toe
Tr
Vih
OE#
Vil
Tr or Tf
ADDRESS
Vih
Tr or Tf
Valid
Address
Vil
Voh
DATA
Taa
High Z
Valid
Ouput
Vol
Vih
WP#/ACC
Vil
Figure A. AC Timing at Device Power-Up
Symbol
Tvr
Tr
Tf
Tvcs
Parameter
Vcc Rise Time
Input Signal Rise Time
Input Signal Fall Time
Vcc Setup Time
Min.
20
200
P/N:PM1484
Max.
500000
20
20
Unit
us/V
us/V
us/V
us
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MX29GA256/257E H/L
MX29GA128/129E H/L
ERASE AND PROGRAMMING PERFORMANCE
LIMITS
TYP. (1)
128
MAX. (2)
300
128Mb
64
0.6
150
5
sec
sec
256Mb
100
350
sec
128Mb
Word Program Time
50
11
180
360
sec
us
Total Write Buffer Time
200
us
ACC Total Write Buffer Time
100
us
100,000
Cycles
PARAMETER
MIN.
256Mb
Chip Erase Time
Sector Erase Time
Chip Programming Time
Erase/Program Cycles
UNITS
sec
Notes:
1. Typical program and erase times assume the following conditions: 25°C, 3.0V VCC. Programming specifications assume checkboard data pattern.
2. Maximum values are measured at VCC = 3.0 V, worst case temperature. Maximum values are valid up to and
including 100,000 program/erase cycles.
3. Erase/Program cycles comply with JEDEC JESD-47E & A117A standard.
4. Exclude 00h program before erase operation.
LATCH-UP CHARACTERISTICS
MIN.
-1.0V
-1.0V
-100mA
Input Voltage voltage difference with GND on WP#/ACC, A9
Input Voltage voltage difference with GND on all normal pins input
Vcc Current
All pins included except Vcc. Test conditions: Vcc = 3.0V, one pin per testing
TSOP PIN CAPACITANCE
Parameter Symbol
CIN2
COUT
CIN
Parameter Description
Control Pin Capacitance
Output Capacitance
Input Capacitance
Test Set
VIN=0
VOUT=0
VIN=0
P/N:PM1484
TYP
7.5
8.5
6
MAX
9
12
7.5
MAX.
10.5V
1.5Vcc
+100mA
UNIT
pF
pF
pF
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MX29GA256/257E H/L
MX29GA128/129E H/L
ORDERING INFORMATION
Please contact Macronix sales for specific information regarding 64-LFBGA/64-FBGA ordering
information.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
64
MX29GA256/257E H/L
MX29GA128/129E H/L
PART NAME DESCRIPTION
Please contact Macronix sales for specific information regarding 64-LFBGA/64-FBGA part name
description.
P/N:PM1484
REV. 0.02, MAR. 06, 2009
65
MX29GA256/257E H/L
MX29GA128/129E H/L
PACKAGE INFORMATION
P/N:PM1484
REV. 0.02, MAR. 06, 2009
66
MX29GA256/257E H/L
MX29GA128/129E H/L
P/N:PM1484
REV. 0.02, MAR. 06, 2009
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MX29GA256/257E H/L
MX29GA128/129E H/L
REVISION HISTORY
Revision No.
0.01
Description
1. Added MX29GA257E/129E information
2. Added "Advance Sector Protection" information
3. Removed "Sector Group Protect/Unprotectd" information
4. Modified CFI data at address 21~26 (Word mode)
5. Modified the chip erase time from 100s/256Mb, 50s/128Mb to
128s/256Mb, 64s/128Mb
6. Added the VCC range description of MX29GA256/257E
Page
All
P69~77
Date
MAR/02/2009
P38
P65
P2,44,66,67
0.02
1. Changed title from "Advanced Information" to "Preliminary"
P2
2. Removed 64Mb information All
3. Added 64-CSP Dimensions "11x13x1.4mm, P:1.0mm, B:0.55mm" P3,64,65
P67
4. Modified content error
P/N:PM1484
MAR/06/2009
REV. 0.02, MAR. 06, 2009
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MX29GA256/257E H/L
MX29GA128/129E H/L
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