MX29LV640EBTI-70G_技术文档

MX29LV640E T/B

64M-BIT [8M x 8/4M x 16] SINGLE VOLTAGE 3V

ONLY FLASH MEMORY

FEATURES

GENERALFEATURES

• 8,388,608 x 8 / 4,194,304 x 16 switchable

• Sector Structure

- 8KB(4KW) x 8 and 64KB(32KW) x 127

• Extra 128-word sector for security

- Features factory locked and identifiable, and customer lockable

• SectorGroups Protection / Chip Unprotect

- Provides sector group protect function to prevent program or erase operation in the protected sector group

- Provides chip unprotect function to allow code changing

- Provides temporary sector group unprotect function for code changing in previously protected sector groups

• Single Power Supply Operation

- 2.7 to 3.6 volt for read, erase, and program operations

• Latch-up protected to 100mA from -1V to 1.5 x Vcc

• Low Vcc write inhibit : Vcc <= Vlko

• Compatible with JEDEC standard

- Pinout and software compatible to single power supply Flash

PERFORMANCE

• High Performance

- Fast access time: 70ns

- Fast program time: 11us/word (typical)

- Fast erase time: 0.7s/sector, 45s/chip (typical)

• Low Power Consumption

- Low active read current: 9mA(typical) at 5MHz

- Low standby current: 5uA(typical)

• 100,000 erase/program cycle (typical)

• 10 years data retention

SOFTWARE FEATURES

• Erase Suspend/ Erase Resume

- Suspends sector erase operation to read data from or program data to another sector which is not being erased

• 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

- Provides accelerated program capability

P/N:PM1328

REV. 1.1, MAR. 12, 2009

1

MX29LV640E T/B

PACKAGE

• 48-Pin TSOP

• 48-Ball FBGA

• All Pb-free devices are RoHS Compliant

PIN CONFIGURATION

48 TSOP

A15

A14

1

48

47

46

45

44

43

42

41

40

39

38

37

36

35

34

33

32

31

30

29

28

27

26

25

A16

2

BYTE#

GND

Q15/A-1

Q7

A13

3

A12

4

A11

5

A10

6

Q14

Q6

A9

7

A8

8

Q13

Q5

A19

9

A20

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

Q12

Q4

WE#

RESET#

A21

V

CC

Q11

Q3

WP#/ACC

RY/BY#

A18

Q10

Q2

A17

Q9

A7

Q1

A6

Q8

A5

Q0

A4

OE#

GND

CE#

A0

A3

A2

A1

48-Ball FBGA 6mm x 8mm (Ball Pich=0.8mm), Top View, Balls Facing Down

A

B

C

D

E

F

G

H

Q15/

A-1

A13

A9

A12

A8

A14

A15

A11

A19

A16

BYTE#

GND

6

5

4

3

2

1

A10

A21

Q7

Q5

Q14

Q12

Q13

Q6

Q4

RE-

SET#

WE#

VCC

6.0 mm

RY/

BY#

WP#/

ACC

Q3

Q1

A18

A6

A20

A5

Q2

Q0

Q10

Q8

Q11

Q9

A7

A3

A17

A4

A2

A1

GND

A0

CE#

OE#

8.0 mm

P/N:PM1328

REV. 1.1, MAR. 12, 2009

2

MX29LV640E T/B

LOGIC SYMBOL

PIN DESCRIPTION

SYMBOL PIN NAME

22

16 or 8

A0-A21

Q0-Q15

(A-1)

A0~A21

Q0~Q14

Q15/A-1

CE#

Address Input

Data Inputs/Outputs

Q15(Word Mode)/LSB addr(Byte Mode)

Chip Enable Input

CE#

WE#

Write Enable Input

OE#

Output Enable Input

RESET#

BYTE#

Hardware Reset Pin,Active Low

Word/Byte Selection Input

WE#

RESET#

WP#/ACC

BYTE#

RY/BY#

WP#/ACC Hardware Write Protect/Programming

Acceleration Input

RY/BY#

VCC

Read/Busy Output

+3.0V single power supply

DeviceGround

GND

P/N:PM1328

REV. 1.1, MAR. 12, 2009

3

MX29LV640E T/B

BLOCK DIAGRAM

CE#

OE#

WRITE

CONTROL

INPUT

PROGRAM/ERASE

STATE

MACHINE

(WSM)

WE#

RESET#

BYTE#

WP#/ACC

HIGH VOLTAGE

LOGIC

STATE

FLASH

ARRAY

ADDRESS

LATCH

REGISTER

ARRAY

A0-AM

AND

SOURCE

HV

BUFFER

Y-PASS GATE

COMMAND

DATA

DECODER

PGM

SENSE

DATA

HV

AMPLIFIER

COMMAND

DATA LATCH

PROGRAM

DATA LATCH

Q0-Q15/A-1

I/O BUFFER

AM: MSB address

P/N:PM1328

REV. 1.1, MAR. 12, 2009

4

MX29LV640E T/B

Table 1. BLOCK STRUCTURE

MX29LV640ET SECTORGROUPARCHITECTURE

Sector

Sector Size

Sector

Sector Address

Address Range

Group Byte Mode Word Mode

A21-A12

Byte Mode (x8)

Word Mode (x16)

(Kbytes)

64

(Kwords)

32

1

2

3

4

5

6

7

8

9

10

SA0

SA1

0000000xxx

0000001xxx

0000010xxx

0000011xxx

0000100xxx

0000101xxx

0000110xxx

0000111xxx

0001000xxx

0001001xxx

0001010xxx

0001011xxx

0001100xxx

0001101xxx

0001110xxx

0001111xxx

0010000xxx

0010001xxx

0010010xxx

0010011xxx

0010100xxx

0010101xxx

0010110xxx

0010111xxx

0011000xxx

0011001xxx

0011010xxx

0011011xxx

0011100xxx

0011101xxx

0011110xxx

0011111xxx

0100000xxx

0100001xxx

0100010xxx

0100011xxx

0100100xxx

0100101xxx

0100110xxx

0100111xxx

000000h-00FFFFh

010000h-01FFFFh

020000h-02FFFFh

030000h-03FFFFh

040000h-04FFFFh

050000h-05FFFFh

060000h-06FFFFh

070000h-07FFFFh

080000h-08FFFFh

090000h-09FFFFh

000000h-07FFFh

008000h-0FFFFh

010000h-17FFFh

018000h-01FFFFh

020000h-027FFFh

028000h-02FFFFh

030000h-037FFFh

038000h-03FFFFh

040000h-047FFFh

048000h-04FFFFh

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

SA38

SA39

0A0000h-0AFFFFh 050000h-057FFFh

0B0000h-0BFFFFh 058000h-05FFFFh

0C0000h-0CFFFFh 060000h-067FFFh

0D0000h-0DFFFFh 068000h-06FFFFh

0E0000h-0EFFFFh 070000h-077FFFh

0F0000h-0FFFFFh

100000h-10FFFFh

110000h-11FFFFh

120000h-12FFFFh

130000h-13FFFFh

140000h-14FFFFh

150000h-15FFFFh

160000h-16FFFFh

170000h-17FFFFh

180000h-18FFFFh

190000h-19FFFFh

078000h-07FFFFh

080000h-087FFFh

088000h-08FFFFh

090000h-097FFFh

098000h-09FFFFh

0A0000h-0A7FFFh

0A8000h-0AFFFFh

0B0000h-0B7FFFh

0B8000h-0BFFFFh

0C0000h-0C7FFFh

0C8000h-0CFFFFh

1A0000h-1AFFFFh 0D0000h-0D7FFFh

1B0000h-1BFFFFh 0D8000h-0DFFFFh

1C0000h-1CFFFFh 0E0000h-0E7FFFh

1D0000h-1DFFFFh 0E8000h-0EFFFFh

1E0000h-1EFFFFh 0F0000h-0F7FFFh

1F0000h-1FFFFFh

200000h-20FFFFh

210000h-21FFFFh

220000h-22FFFFh

230000h-23FFFFh

240000h-24FFFFh

250000h-25FFFFh

260000h-26FFFFh

270000h-27FFFFh

0F8000h-0FFFFFh

100000h-107FFFh

108000h-10FFFFh

110000h-117FFFh

118000h-11FFFFh

120000h-127FFFh

128000h-12FFFFh

130000h-137FFFh

138000h-13FFFFh

P/N:PM1328

REV. 1.1, MAR. 12, 2009

5

MX29LV640E T/B

Sector

Sector Size

Sector

Sector Address

Address Range

Group Byte Mode Word Mode

A21-A12

Byte Mode (x8)

Word Mode (x16)

(Kbytes)

64

(Kwords)

32

11

12

13

14

15

16

17

18

19

20

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

SA78

SA79

0101000xxx

0101001xxx

0101010xxx

0101011xxx

0101100xxx

0101101xxx

0101110xxx

0101111xxx

0110000xxx

0110001xxx

0110010xxx

0110011xxx

0110100xxx

0110101xxx

0110110xxx

0110111xxx

0111000xxx

0111001xxx

0111010xxx

0111011xxx

0111100xxx

0111101xxx

0111110xxx

0111111xxx

1000000xxx

1000001xxx

1000010xxx

1000011xxx

1000100xxx

1000101xxx

1000110xxx

1000111xxx

1001000xxx

1001001xxx

1001010xxx

1001011xxx

1001100xxx

1001101xxx

1001110xxx

1001111xxx

280000h-28FFFFh

290000h-29FFFFh

140000h-147FFFh

148000h-14FFFFh

2A0000h-2AFFFFh 150000h-157FFFh

2B0000h-2BFFFFh 158000h-15FFFFh

2C0000h-2CFFFFh 160000h-167FFFh

2D0000h-2DFFFFh 168000h-16FFFFh

2E0000h-2EFFFFh 170000h-177FFFh

2F0000h-2FFFFFh

300000h-30FFFFh

310000h-31FFFFh

320000h-32FFFFh

330000h-33FFFFh

340000h-34FFFFh

350000h-35FFFFh

360000h-36FFFFh

370000h-37FFFFh

380000h-38FFFFh

390000h-39FFFFh

178000h-17FFFFh

180000h-187FFFh

188000h-18FFFFh

190000h-197FFFh

198000h-19FFFFh

1A0000h-1A7FFFh

1A8000h-1AFFFFh

1B0000h-1B7FFFh

1B8000h-1BFFFFh

1C0000h-1C7FFFh

1C8000h-1CFFFFh

3A0000h-3AFFFFh 1D0000h-1D7FFFh

3B0000h-3BFFFFh 1D8000h-1DFFFFh

3C0000h-3CFFFFh 1E0000h-1E7FFFh

3D0000h-3DFFFFh 1E8000h-1EFFFFh

3E0000h-3EFFFFh 1F0000h-1F7FFFh

3F0000h-3FFFFFh

400000h-40FFFFh

410000h-41FFFFh

420000h-42FFFFh

430000h-43FFFFh

440000h-44FFFFh

450000h-45FFFFh

460000h-46FFFFh

470000h-47FFFFh

480000h-48FFFFh

490000h-49FFFFh

1F8000h-1FFFFFh

200000h-207FFFh

208000h-20FFFFh

210000h-217FFFh

218000h-21FFFFh

220000h-227FFFh

228000h-22FFFFh

230000h-237FFFh

238000h-23FFFFh

240000h-247FFFh

248000h-24FFFFh

4A0000h-4AFFFFh 250000h-257FFFh

4B0000h-4BFFFFh 258000h-25FFFFh

4C0000h-4CFFFFh 260000h-247FFFh

4D0000h-4DFFFFh 268000h-24FFFFh

4E0000h-4EFFFFh 270000h-277FFFh

4F0000h-4FFFFFh

278000h-27FFFFh

P/N:PM1328

REV. 1.1, MAR. 12, 2009

6

MX29LV640E T/B

Sector

Sector Size

Sector

Sector Address

Address Range

Group Byte Mode Word Mode

A21-A12

Byte Mode (x8)

Word Mode (x16)

(Kbytes)

64

(Kwords)

32

21

22

23

24

25

26

27

28

29

30

SA80

SA81

1010000xxx

1010001xxx

1010010xxx

1010011xxx

1010100xxx

1010101xxx

1010110xxx

1010111xxx

1011000xxx

1011001xxx

1011010xxx

1011011xxx

1011100xxx

1011101xxx

1011110xxx

1011111xxx

1100000xxx

1100001xxx

1100010xxx

1100011xxx

1100100xxx

1100101xxx

1100110xxx

1100111xxx

1101000xxx

1101001xxx

1101010xxx

1101011xxx

1101100xxx

1101101xxx

1101110xxx

1101111xxx

1110000xxx

1110001xxx

1110010xxx

1110011xxx

1110100xxx

1110101xxx

1110110xxx

1110111xxx

500000h-50FFFFh

510000h-51FFFFh

520000h-52FFFFh

530000h-53FFFFh

540000h-54FFFFh

550000h-55FFFFh

560000h-56FFFFh

570000h-57FFFFh

580000h-58FFFFh

590000h-59FFFFh

280000h-287FFFh

288000h-28FFFFh

290000h-297FFFh

298000h-29FFFFh

2A0000h-2A7FFFh

2A8000h-2AFFFFh

2B0000h-2B7FFFh

2B8000h-2BFFFFh

2C0000h-2C7FFFh

2C8000h-2CFFFFh

SA82

SA83

SA84

SA85

SA86

SA87

SA88

SA89

SA90

5A0000h-5AFFFFh 2D0000h-2D7FFFh

5B0000h-5BFFFFh 2D8000h-2DFFFFh

5C0000h-5CFFFFh 2E0000h-2E7FFFh

5D0000h-5DFFFFh 2E8000h-2EFFFFh

5E0000h-5EFFFFh 2F0000h-2F7FFFh

SA91

SA92

SA93

SA94

SA95

5F0000h-5FFFFFh

600000h-60FFFFh

610000h-61FFFFh

620000h-62FFFFh

630000h-63FFFFh

640000h-64FFFFh

650000h-65FFFFh

660000h-66FFFFh

670000h-67FFFFh

680000h-68FFFFh

690000h-69FFFFh

2F8000h-2FFFFFh

300000h-307FFFh

308000h-30FFFFh

310000h-317FFFh

318000h-31FFFFh

320000h-327FFFh

328000h-32FFFFh

330000h-337FFFh

338000h-33FFFFh

340000h-347FFFh

348000h-34FFFFh

SA96

SA97

SA98

SA99

SA100

SA101

SA102

SA103

SA104

SA105

SA106

SA107

SA108

SA109

SA110

SA111

SA112

SA113

SA114

SA115

SA116

SA117

SA118

SA119

6A0000h-6AFFFFh 350000h-357FFFh

6B0000h-6BFFFFh 358000h-35FFFFh

6C0000h-6CFFFFh 360000h-347FFFh

6D0000h-6DFFFFh 368000h-34FFFFh

6E0000h-6EFFFFh 370000h-377FFFh

6F0000h-6FFFFFh

700000h-70FFFFh

710000h-71FFFFh

720000h-72FFFFh

730000h-73FFFFh

740000h-74FFFFh

750000h-75FFFFh

760000h-76FFFFh

770000h-77FFFFh

378000h-37FFFFh

380000h-387FFFh

388000h-38FFFFh

390000h-397FFFh

398000h-39FFFFh

3A0000h-3A7FFFh

3A8000h-3AFFFFh

3B0000h-3B7FFFh

3B8000h-3BFFFFh

P/N:PM1328

REV. 1.1, MAR. 12, 2009

7

MX29LV640E T/B

Sector

Sector Size

Sector

Sector Address

Address Range

Group Byte Mode Word Mode

A21-A12

Byte Mode (x8)

Word Mode (x16)

(Kbytes)

(Kwords)

31

32

33

34

35

36

37

38

39

40

64

8

32

4

SA120

SA121

SA122

SA123

SA124

SA125

SA126

SA127

SA128

SA129

SA130

SA131

SA132

SA133

SA134

1111000xxx

1111001xxx

1111010xxx

1111011xxx

1111100xxx

1111101xxx

1111110xxx

1111111000

1111111001

1111111010

1111111011

1111111100

1111111101

1111111110

1111111111

780000h-78FFFFh

790000h-79FFFFh

3C0000h-3C7FFFh

3C8000h-3CFFFFh

7A0000h-7AFFFFh 3D0000h-3D7FFFh

7B0000h-7BFFFFh 3D8000h-3DFFFFh

7C0000h-7CFFFFh 3E0000h-3E7FFFh

7D0000h-7DFFFFh 3E8000h-3EFFFFh

7E0000h-7EFFFFh 3F0000h-3F7FFFh

7F0000h-7F1FFFh

7F2000h-7F3FFFh

7F4000h-7F5FFFh

7F6000h-7F7FFFh

7F8000h-7F9FFFh

3F8000h-3FFFFFh

3F9000h-3F9FFFh

3FA000h-3FAFFFh

3FB000h-3FBFFFh

3FC000h-3FCFFFh

8

4

8

4

8

4

8

4

8

4

7FA000h-7FBFFFh 3FD000h-3FDFFFh

7FC000h-7FDFFFh 3FE000h-3FEFFFh

7FE000h-7FFFFFh 3FF000h-3FFFFFh

8

4

8

4

Top Boot Security Sector Addresses

Sector Size

Sector Address

Address Range

Byte Mode

Word Mode

(words)

128

A21~A12

Byte Mode (x8)

Word Mode (x16)

(bytes)

256

1111111111

7FFF00h-7FFFFFh

3FFF80h-3FFFFFh

P/N:PM1328

REV. 1.1, MAR. 12, 2009

8

MX29LV640E T/B

MX29LV640EB SECTORGROUPARCHITECTURE

Sector

Sector Size

Sector

Sector Address

Address Range

Group Byte Mode Word Mode

A21-A12

Byte Mode (x8)

Word Mode (x16)

(Kbytes)

8

(Kwords)

4

1

SA0

SA1

0000000000

0000000001

0000000010

0000000011

0000000100

0000000101

0000000110

0000000111

0000001xxx

0000010xxx

0000011xxx

0000100xxx

0000101xxx

0000110xxx

0000111xxx

0001000xxx

0001001xxx

0001010xxx

0001011xxx

0001100xxx

0001101xxx

0001110xxx

0001111xxx

0010000xxx

0010001xxx

0010010xxx

0010011xxx

0010100xxx

0010101xxx

0010110xxx

0010111xxx

0011000xxx

0011001xxx

0011010xxx

0011011xxx

0011100xxx

0011101xxx

0011110xxx

0011111xxx

000000h-001FFFh

002000h-003FFFh

004000h-005FFFh

006000h-007FFFh

008000h-009FFFh

000000h-000FFFh

001000h-001FFFh

002000h-002FFFh

003000h-003FFFh

004000h-004FFFh

2

8

4

3

8

4

SA2

4

8

4

SA3

5

8

4

SA4

6

8

4

SA5

00A000h-00BFFFh 005000h-005FFFh

00C000h-00DFFFh 006000h-006FFFh

7

8

4

SA6

8

4

SA7

00E000h-00FFFFh

010000h-01FFFFh

020000h-02FFFFh

030000h-03FFFFh

040000h-04FFFFh

050000h-05FFFFh

060000h-06FFFFh

070000h-07FFFFh

080000h-08FFFFh

090000h-09FFFFh

007000h-007FFFh

008000h-00FFFFh

010000h-017FFFh

018000h-01FFFFh

020000h-027FFFh

028000h-02FFFFh

030000h-037FFFh

038000h-03FFFFh

040000h-047FFFh

048000h-04FFFFh

9

64

32

SA8

9

SA9

9

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

SA38

10

11

12

13

14

15

16

0A0000h-0AFFFFh 050000h-057FFFh

0B0000h-0BFFFFh 058000h-05FFFFh

0C0000h-0CFFFFh 060000h-067FFFh

0D0000h-0DFFFFh 068000h-06FFFFh

0E0000h-0EFFFFh 070000h-077FFFh

0F0000h-0FFFFFh

100000h-10FFFFh

110000h-11FFFFh

120000h-12FFFFh

130000h-13FFFFh

140000h-14FFFFh

150000h-15FFFFh

160000h-16FFFFh

170000h-17FFFFh

180000h-18FFFFh

190000h-19FFFFh

078000h-07FFFFh

080000h-087FFFh

088000h-08FFFFh

090000h-097FFFh

098000h-09FFFFh

0A0000h-0A7FFFh

0A8000h-0AFFFFh

0B0000h-0B7FFFh

0B8000h-0BFFFFh

0C0000h-0C7FFFh

0C8000h-0CFFFFh

1A0000h-1AFFFFh 0D0000h-0D7FFFh

1B0000h-1BFFFFh 0D8000h-0DFFFFh

1C0000h-1CFFFFh 0E0000h-0E7FFFh

1D0000h-1DFFFFh 0E8000h-0EFFFFh

1E0000h-1EFFFFh 0F0000h-0F7FFFh

1F0000h-1FFFFFh

0F8000h-0FFFFFh

P/N:PM1328

REV. 1.1, MAR. 12, 2009

9

MX29LV640E T/B

Sector

Sector Size

Sector

Sector Address

Address Range

Group Byte Mode Word Mode

A21-A12

Byte Mode (x8)

Word Mode (x16)

(Kbytes)

64

(Kwords)

32

17

18

19

20

21

22

23

24

25

26

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

SA78

0100000xxx

0100001xxx

0100010xxx

0100011xxx

0100100xxx

0100101xxx

0100110xxx

0100111xxx

0101000xxx

0101001xxx

0101010xxx

0101011xxx

0101100xxx

0101101xxx

0101110xxx

0101111xxx

0110000xxx

0110001xxx

0110010xxx

0110011xxx

0110100xxx

0110101xxx

0110110xxx

0110111xxx

0111000xxx

0111001xxx

0111010xxx

0111011xxx

0111100xxx

0111101xxx

0111110xxx

0111111xxx

1000000xxx

1000001xxx

1000010xxx

1000011xxx

1000100xxx

1000101xxx

1000110xxx

1000111xxx

200000h-20FFFFh

210000h-21FFFFh

220000h-22FFFFh

230000h-23FFFFh

240000h-24FFFFh

250000h-25FFFFh

260000h-26FFFFh

270000h-27FFFFh

280000h-28FFFFh

290000h-29FFFFh

100000h-107FFFh

108000h-10FFFFh

110000h-117FFFh

118000h-11FFFFh

120000h-127FFFh

128000h-12FFFFh

130000h-137FFFh

138000h-13FFFFh

140000h-147FFFh

148000h-14FFFFh

2A0000h-2AFFFFh 150000h-157FFFh

2B0000h-2BFFFFh 158000h-15FFFFh

2C0000h-2CFFFFh 160000h-167FFFh

2D0000h-2DFFFFh 168000h-16FFFFh

2E0000h-2EFFFFh 170000h-177FFFh

2F0000h-2FFFFFh

300000h-30FFFFh

310000h-31FFFFh

320000h-32FFFFh

330000h-33FFFFh

340000h-34FFFFh

350000h-35FFFFh

360000h-36FFFFh

370000h-37FFFFh

380000h-38FFFFh

390000h-39FFFFh

178000h-17FFFFh

180000h-187FFFh

188000h-18FFFFh

190000h-197FFFh

198000h-19FFFFh

1A0000h-1A7FFFh

1A8000h-1AFFFFh

1B0000h-1B7FFFh

1B8000h-1BFFFFh

1C0000h-1C7FFFh

1C8000h-1CFFFFh

3A0000h-3AFFFFh 1D0000h-1D7FFFh

3B0000h-3BFFFFh 1D8000h-1DFFFFh

3C0000h-3CFFFFh 1E0000h-1E7FFFh

3D0000h-3DFFFFh 1E8000h-1EFFFFh

3E0000h-3EFFFFh 1F0000h-1F7FFFh

3F0000h-3FFFFFh

400000h-40FFFFh

410000h-41FFFFh

420000h-42FFFFh

430000h-43FFFFh

440000h-44FFFFh

450000h-45FFFFh

460000h-46FFFFh

470000h-47FFFFh

1F8000h-1FFFFFh

200000h-207FFFh

208000h-20FFFFh

210000h-217FFFh

218000h-21FFFFh

220000h-227FFFh

228000h-22FFFFh

230000h-237FFFh

238000h-23FFFFh

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10

MX29LV640E T/B

Sector

Sector Size

Sector

Sector Address

Address Range

Group Byte Mode Word Mode

A21-A12

Byte Mode (x8)

Word Mode (x16)

(Kbytes)

64

(Kwords)

32

27

28

29

30

31

32

33

34

35

36

SA79

SA80

1001000xxx

1001001xxx

1001010xxx

1001011xxx

1001100xxx

1001101xxx

1001110xxx

1001111xxx

1010000xxx

1010001xxx

1010010xxx

1010011xxx

1010100xxx

1010101xxx

1010110xxx

1010111xxx

1011000xxx

1011001xxx

1011010xxx

1011011xxx

1011100xxx

1011101xxx

1011110xxx

1011111xxx

1100000xxx

1100001xxx

1100010xxx

1100011xxx

1100100xxx

1100101xxx

1100110xxx

1100111xxx

1101000xxx

1101001xxx

1101010xxx

1101011xxx

1101100xxx

1101101xxx

1101110xxx

1101111xxx

480000h-48FFFFh

490000h-49FFFFh

240000h-247FFFh

248000h-24FFFFh

SA81

4A0000h-4AFFFFh 250000h-257FFFh

4B0000h-4BFFFFh 258000h-25FFFFh

4C0000h-4CFFFFh 260000h-267FFFh

4D0000h-4DFFFFh 268000h-26FFFFh

4E0000h-4EFFFFh 270000h-277FFFh

SA82

SA83

SA84

SA85

SA86

SA87

4F0000h-4FFFFFh

500000h-50FFFFh

510000h-51FFFFh

520000h-52FFFFh

530000h-53FFFFh

540000h-54FFFFh

550000h-55FFFFh

560000h-56FFFFh

570000h-57FFFFh

580000h-58FFFFh

590000h-59FFFFh

278000h-27FFFFh

280000h-287FFFh

288000h-28FFFFh

290000h-297FFFh

298000h-29FFFFh

2A0000h-2A7FFFh

2A8000h-2AFFFFh

2B0000h-2B7FFFh

2B8000h-2BFFFFh

2C0000h-2C7FFFh

2C8000h-2CFFFFh

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

SA118

5A0000h-5AFFFFh 2D0000h-2D7FFFh

5B0000h-5BFFFFh 2D8000h-2DFFFFh

5C0000h-5CFFFFh 2E0000h-2E7FFFh

5D0000h-5DFFFFh 2E8000h-2EFFFFh

5E0000h-5EFFFFh 2F0000h-2F7FFFh

5F0000h-5FFFFFh

600000h-60FFFFh

610000h-61FFFFh

620000h-62FFFFh

630000h-63FFFFh

640000h-64FFFFh

650000h-65FFFFh

660000h-66FFFFh

670000h-67FFFFh

680000h-68FFFFh

690000h-69FFFFh

2F8000h-2FFFFFh

300000h-307FFFh

308000h-30FFFFh

310000h-317FFFh

318000h-31FFFFh

320000h-327FFFh

328000h-32FFFFh

330000h-337FFFh

338000h-33FFFFh

340000h-347FFFh

348000h-34FFFFh

6A0000h-6AFFFFh 350000h-357FFFh

6B0000h-6BFFFFh 358000h-35FFFFh

6C0000h-6CFFFFh 360000h-367FFFh

6D0000h-6DFFFFh 368000h-36FFFFh

6E0000h-6EFFFFh 370000h-377FFFh

6F0000h-6FFFFFh

378000h-37FFFFh

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11

MX29LV640E T/B

Sector

Sector Size

Sector

Sector Address

Address Range

Group Byte Mode Word Mode

A21-A12

Byte Mode (x8)

Word Mode (x16)

(Kbytes)

64

(Kwords)

32

37

38

39

40

SA119

SA120

SA121

SA122

SA123

SA124

SA125

SA126

SA127

SA128

SA129

SA130

SA131

SA132

SA133

SA134

1110000xxx

1110001xxx

1110010xxx

1110011xxx

1110100xxx

1110101xxx

1110110xxx

1110111xxx

1111000xxx

1111001xxx

1111010xxx

1111011xxx

1111100xxx

1111101xxx

1111110xxx

1111111xxx

700000h-70FFFFh

710000h-71FFFFh

720000h-72FFFFh

730000h-73FFFFh

740000h-74FFFFh

750000h-75FFFFh

760000h-76FFFFh

770000h-77FFFFh

780000h-78FFFFh

790000h-79FFFFh

380000h-387FFFh

388000h-38FFFFh

390000h-397FFFh

398000h-39FFFFh

3A0000h-3A7FFFh

3A8000h-3AFFFFh

3B0000h-3B7FFFh

3B8000h-3BFFFFh

3C0000h-3C7FFFh

3C8000h-3CFFFFh

64

32

64

32

64

32

64

32

64

32

64

32

64

32

64

32

64

32

64

32

7A0000h-7AFFFFh 3D0000h-3D7FFFh

7B0000h-7BFFFFh 3D8000h-3DFFFFh

7C0000h-7CFFFFh 3E0000h-3E7FFFh

7D0000h-7DFFFFh 3E8000h-3EFFFFh

7E0000h-7EFFFFh 3F0000h-3F7FFFh

64

32

64

32

64

32

64

32

64

32

7F0000h-7FFFFFh

3F8000h-3FFFFFh

Bottom Boot Security Sector Addresses

Sector Size

Sector Address

Address Range

Byte Mode

Word Mode

(words)

128

A21~A12

Byte Mode (x8)

Word Mode (x16)

(bytes)

256

0000000000

000000h-0000FFh

000000h-00007Fh

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12

MX29LV640E T/B

Table 2. BUS OPERATION--1

Mode Select

RE-

CE#

WE# OE#

Address

Data

(I/O)

Byte#

Vil

WP#/

ACC

SET#

Vih

Q0~Q7

Data (I/O)

Q8~Q15

Device Reset

Standby Mode

L

X

Vcc±

0.3V

L

X

HighZ

L/H

H

Vcc±

0.3V

H

HighZ

Output

H

X

HighZ

L/H

Disable

Read Mode

Write(Note1)

Accelerate

Program

H

L

H

L

H

AIN

DOUT

DIN

Q8-Q14= DOUT

L/H

Note3

Vhv

HighZ,

Q15=

A-1

DIN

Temporary

Sector-Group

Unprotect

Vhv

X

L

X

L

X

H

AIN

DIN

HighZ

DIN

X

Note3

L/H

Sector-Group

Protect (Note2)

SectorAddress, DIN,DOUT

A6=L, A1=H,

X

A0=L

Chip

SectorAddress, DIN,DOUT

A6=H, A1=H,

X

Note3

Unprotect

(Note2)

A0=L

Notes:

1. All sectors will be unprotected if WP#/ACC=Vhv.

2. The two outmost boot sectors are protected if WP#/ACC=Vil.

3. When WP#/ACC = Vih, the protection conditions of the two outmost boot sectors depend on previous protection

conditions."Sector/Sector Block Protection and Unprotection" describes the protect and unprotect method.

4. Q0~Q15 are input (DIN) or output (DOUT) pins according to the requests of command sequence, sector protection,

or data polling algorithm.

5. In Word Mode (Byte#=Vih), the addresses are AM to A0.

In Byte Mode (Byte#=Vil), the addresses are AM to A-1 (Q15).

6. AM: MSB of address.

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13

MX29LV640E T/B

BUS OPERATION--2

Item

Control Input

CE# WE# OE# to

A12 A10

AM A11

A8

to

A7

x

A5

to

A2

x

to

A9

A6

A1 A0 Q0~Q7 Q8~Q15

Sector Lock Status

Verification

L

H

L

SA

x

V_hv

L

H

L

01h or

00h

x

(Note1)

C2h

Read Silicon ID

Manufacturer Code

Read Silicon ID

MX29LV640ET

Read Silicon ID

MX29LV640EB

Read Indicator Bit

(Q7) For Security

Sector

L

H

L

x

V_hv

x

L

x

L

H

C9h 22h(Word)

XXh(Byte)

L

CBh 22h(Word)

XXh(Byte)

H

(Note2)

x

Notes:

1. Sector unprotected code:00h. Sector protected code:01h.

2. Factory locked code:

WP# protects bottom two address sector: 88h.

WP# protects top two address sector: 98h

Factory unlocked code: WP# protects bottom two address sector:08h.

WP# protects top two address sector:18h

3. AM: MSB of address.

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14

MX29LV640E T/B

WRITE COMMANDS/COMMAND SEQUENCES

To write a command to the device, system must drive WE# and CE# to Vil, and OE# to Vih. In a command cycle, all

address are latched at the later falling edge of CE# and WE#, and all data are latched at the earlier rising edge of CE#

and WE#.

Figure 1 illustrates theAC timing waveform of a write command, and Table 3 defines all the valid command sets of the

device. System is not allowed to write invalid commands not defined in this datasheet. Writing an invalid command will

bring the device to an undefined state.

REQUIREMENTS FOR READINGARRAYDATA

Read array action is to read the data stored in the array. While the memory device is in powered up or has been reset,

it will automatically enter the status of read array. If the microprocessor wants to read the data stored in the array, it

has to drive CE# (device enable control pin) and OE# (Output control pin) as Vil, and input the address of the data to be

read into address pin at the same time. After a period of read cycle (Tce or Taa), the data being read out will be

displayed on output pin for microprocessor to access. If CE# or OE# is Vih, the output will be in tri-state, and there will

be no data displayed on output pin at all.

After the memory device completes embedded operation (automatic Erase or Program), it will automatically return to

the status of read array, and the device can read the data in any address in the array. In the process of erasing, if the

device receives the Erase suspend command, erase operation will be stopped temporarily after a period of time no

more than Tready and the device will return to the status of read array. At this time, the device can read the data stored

in any address except the sector being erased in the array. In the status of erase suspend, if user wants to read the

data in the sectors being erased, the device will output status data onto the output. Similarly, if program command is

issued after erase suspend, after program operation is completed, system can still read array data in any address

except the sectors to be erased.

The device needs to issue reset command to enable read array operation again in order to arbitrarily read the data in

the array in the following two situations:

1. In program or erase operation, the programming or erasing failure causes Q5 to go high.

2. The device is in auto select mode or CFI mode.

In the two situations above, if reset command is not issued, the device is not in read array mode and system must

issue reset command before reading array data.

ACCELERATED PROGRAM OPERATION

The accelerated program can improve programming performance compared with word/byte program. By applying Vhv

on WP#/ACC pin, the device will enter accelerated program and draw current no more than Icp1 from WP#/ACC pin.

Removing the Vhv from WP#/ACC pin will put the device back to normal operation (not accelerated).

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15

MX29LV640E T/B

RESET# OPERATION

Driving RESET# pin low for a period more than Trp will reset the device back to read mode. If the device is in program

or erase operation, the reset operation will take at most a period of Tready for the device to return to read array mode.

Before the device returns to read array mode, the RY/BY# pin remains low (busy status).

When RESET# pin is held at GND± 0.3V, the device consumes standby current(Isb).However, device draws larger

current if RESET# pin is held at Vil but not within GND± 0.3V.

It is recommended that the system to tie its reset signal to RESET# pin of flash memory, so that the flash memory will

be reset during system reset and allows system to read boot code from flash memory.

SECTORGROUP PROTECT OPERATION

When a sector group is protected, program or erase operation will be disabled on these sectors. MX29LV640E T/B

provides two methods for sector group protection.

Once the sector group is protected, the sector group remains protected until next chip unprotect, or is temporarily

unprotected by asserting RESET# pin at Vhv. Refer to temporary sector group unprotect operation for further details.

The first method is by applying Vhv on RESET# pin. Refer to Figure 13 for timing diagram and Figure 14 for the

algorithm for this method.

The other method is asserting Vhv onA9 and OE# pins, withA6 and CE# at Vil. The protection operation begins at the

falling edge of WE# and terminates at the rising edge. Contact Macronix for details.

CHIP UNPROTECT OPERATION

MX29LV640E T/B provides two methods for chip unprotect. The chip unprotect operation unprotects all sectors within

the device. It is recommended to protect all sectors before activating chip unprotect mode. All sectors groups are

unprotected when shipped from the factory.

The first method is by applying Vhv on RESET# pin. Refer to Figure 13 for timing diagram and Figure 14 for algorithm

of the operation.

The other method is asserting Vhv onA9 and OE# pins, withA6 at Vih and CE# at Vil. The unprotect operation begins

at the falling edge of WE# and terminates at the rising edge. Contact Macronix for details.

TEMPORARY SECTORGROUP UNPROTECT OPERATION

System can apply RESET# pin at Vhv to place the device in temporary unprotect mode. In this mode, previously

protected sectors can be programmed or erased just as it is unprotected. The devices returns to normal operation once

Vhv is removed from RESET# pin and previously protected sectors are again protected.

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16

MX29LV640E T/B

WRITE PROTECT (WP#)

Another function of the WP#/ACC pin is to provide write protection function on the two outermost 8 Kbyte boot

sectors. When ViL is asserted on WP#/ACC pin, the two boot sectors are protected regardless of the previous state

of protection implemented by aforementioned SectorGroup Protect/Chip Unprotect. For MX29LV640ET, the two outer-

most sectors are the two boot sectors of the highest addresses. For MX29LV640EB, the two outermost sectors are

the two boot sectors of the lowest addresses.

Note that the WP#/ACC should be either Vhv, Vih, or Vil, and must not be floated or unconnected; otherwise the device

may not function properly.

AUTOMATIC SELECT OPERATION

When the device is in Read array mode, erase-suspended read array mode or CFI mode, user can issue read silicon

ID command to enter read silicon ID mode. After entering read silicon ID mode, user can query several silicon IDs

continuously and does not need to issue read silicon ID mode again. When A0 is Low, device will output Macronix

Manufacture IDC2H. WhenA0 is high, device will outputDevice ID. In read silicon IDmode, issuing reset command will

reset device back to read array mode or erase-suspended read array mode.

Another way to enter read silicon IDis to apply high voltage onA9 pin with CE#, OE#,A6 andA1 at Vil. While the high

voltage ofA9 pin is discharged, device will automatically leave read silicon IDmode and go back to read array mode or

erase-suspended read array mode. WhenA0 is Low, device will output Macronix Manufacture IDC2. WhenA0 is high,

device will outputDevice ID.

VERIFY SECTORGROUP PROTECT STATUS OPERATION

MX29LV640E T/B provides hardware sector protection against Program and Erase operation for protected sectors. The

sector protect status can be read through Sector Protect Verify command. This method requires V_hvonA9 pin, Vih on

WE# andA1 pins, Vil on CE#, OE#,A6 andA0 pins, and sector address onA12 toA21 pins. If the read out data is 01H,

the designated sector is protected. Oppositely, if the read out data is 00H, the designated sector is not protected.

SECURITY SECTOR FLASH MEMORY REGION

The Security Sector region is an extra memory space of 128 words in length. The security sectors 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 silicon region is permanently locked after shipping from factory. The device will

have a 16-byte (8-word) ESNin the security region. In bottom boot device : 000000h - 000007h (for MX29LV640EB).In

Top boot device : 3FFF70h - 3FFF77h (for MX29LV640ET).

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MX29LV640E T/B

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.

The first method is to write a three-cycle command of Enter Security Region, and then follow the sector group protect

algorithm as illustrated in Figure 14, except that RESET# pin may at either Vih or Vhv.

The other method is to write a three-cycle command of Enter Security Region, and then follow the alternate method of

sector protect with A9, OE# at Vhv.

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.

DATAPROTECTION

To avoid accidental erasure or programming of the device, the device is automatically reset to read array mode during

power up. Besides, only after successful completion of the specified command sets will the device begin its erase or

program operation.

Other features to protect the data from accidental alternation are described as followed.

LOW VCC WRITE INHIBIT

The device refuses to accept any write command when Vcc is less than Vlko. This prevents data from spuriously

altered. The device automatically resets itself when Vcc is lower than Vlko and write cycles are ignored until Vcc is

greater than Vlko. System must provide proper signals on control pins after Vcc is larger than Vlko to avoid uninten-

tional program or erase operation

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# a Vih, or OE# at Vil.

POWER-UP SEQUENCE

Upon power up, MX29LV640E T/B is placed in read array mode. Furthermore, program or erase operation will begin

only after successful completion of specified command sequences.

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MX29LV640E T/B

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 SUPPLYDECOUPLING

A0.1uF capacitor should be connected between the Vcc andGND to reduce the noise effect.

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19

MX29LV640E T/B

TABLE 3. MX29LV640E T/B COMMAND DEFINITIONS

Automatic Select

Enter Security

Sector Region

Enable

Read Reset

Mode Mode

Security Sector

Factory Protect Verify

Sector Protect

Verify

Command

Silicon ID

Device ID

Word

555

AA

2AA

55

Byte Word Byte

Word

555

AA

2AA

55

Byte

AAA

AA

555

55

Word

555

AA

2AA

55

Byte

AAA

AA

555

55

Word Byte

1st Bus Cyc Addr

Data

2nd Bus Cyc Addr

Data

Addr

Data

XXX

F0

AAA

AA

555 AAA

555

AA

2AA

55

AAA

AA

555

55

AA

2AA

55

AA

555

55

555

55

3rd Bus Cyc Addr

Data

555

90

AAA

90

555 AAA

90 90

555

90

AAA

90

555

90

AAA

90

555

88

AAA

88

(Sector) (Sector)

X02

X04

4th Bus Cyc Addr

Data

X00

C2H

X00

C2H

X01 X02

ID

X03

98/18(T)

X06

98/18(T)

ID

00/01

88/08(B) 88/08(B)

5th Bus Cyc Addr

Data

6th Bus Cyc Addr

Data

Exit Security

Sector

Erase

Suspend

Erase

Resume

Command

Program Chip Erase

Sector Erase

CFI Read

Word Byte Word Byte Word Byte Word

Byte Word Byte Word/Byte Word/Byte

1st Bus Cyc Addr

Data

2nd Bus Cyc Addr 2AA 555 2AA 555 2AA 555

Data

3rd Bus Cyc Addr

Data

555 AAA 555 AAA 555 AAA

AA AA AA AA AA AA

555

AA

2AA

55

555

80

AAA

AA

555

55

AAA

80

55

98

AA

98

XXX

B0

XXX

30

55

555 AAA 555 AAA 555 AAA

90 90 A0 A0 80 80

55

4th Bus Cyc Addr XXX XXX Addr Addr 555 AAA

555

AA

2AA

55

AAA

AA

555

55

00

Data

5th Bus Cyc Addr

Data

Data Data AA

2AA 555

55 55

AA

6th Bus Cyc Addr

Data

555 AAA Sector Sector

10 10 30 30

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MX29LV640E T/B

RESET

In the following situations, executing reset command will reset device back to read array 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 in-

cluded)

• Program fail (while Q5 is high, and erase-suspended program fail is included)

• Read silicon ID mode

• Sector protect verify

• 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 read silicon ID mode, sector protect verify 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.

AUTOMATIC SELECT COMMAND SEQUENCE

Automatic Select mode is used to access the manufacturer ID, device IDand 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 corre-

sponding address.

Address

X00

Data (Hex)

C2

Representation

Manufacturer ID

Device ID

Word

Byte

Word

Byte

Word

X00

C2

X01

22C9/22CB

C9/CB

Top/Bottom Boot Sector

Factory locked/unlocked

X02

Secured Silicon

X03

98/18 (T)

88/08 (B)

98/18 (T)

88/08 (B)

00/01

Byte

X06

Factory locked/unlocked

Sector Protect Verify Word

Byte

(Sector address) X 02

(Sector address) X 04

Unprotected/protected

00/01

There is an alternative method to that shown in Table 2, which is intended for EPROM programmers and requires Vhv

on address bit A9.

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21

MX29LV640E T/B

AUTOMATIC PROGRAMMING

The MX29LV640E T/B can provide the user program function by the form of Byte-Mode or Word-Mode. As long as the

users enter the right cycle defined in the Table.3 (including 2 unlock cycles and A0H), any data user inputs will

automatically be programmed into the array.

Once the program function is executed, the internal write state controller will automatically execute the algorithms and

timings necessary for program and verification, which includes generating suitable program pulse, verifying whether the

threshold voltage of the programmed cell is high enough and repeating the program pulse if any of the cells does not

pass verification. Meanwhile, the internal control will prohibit the programming to cells that pass verification while the

other cells fail in verification in order to avoid over-programming. With the internal write state controller, the device

requires the user to write the program command and data only.

Programming will only change the bit status from "1" to "0". That is to say, it is impossible to convert the bit status from

"0" to "1" by programming. Meanwhile, the internal write verification only detects the errors of the "1" that is not

successfully programmed to "0".

Any command written to the device during programming will be ignored except hardware reset, which will terminate the

program operation after a period of time no more than Tready. When the embedded program algorithm is complete or

the program operation is terminated by hardware reset, the device will return to the reading array data mode.

The typical chip program time at room temperature of the MX29LV640E T/B is less than 45 seconds.

When the embedded program operation is on going, user can confirm if the embedded operation is finished or not by

the following methods:

Status

Q7

Q7#

Q7

Q6

Q5

0

RY/BY#*2

In progress*1

Finished

Toggling

0

1

0

Stop Toggling

Toggling

0

Exceed time limit

Q7#

1

*1: The status "in progress" means both program mode and erase-suspended program mode.

*2: RY/BY# is an open drain output pin and should be weakly connected to VDDthrough a pull-up resistor.

*3: When an attempt is made to program a protected sector, Q7 will output its complement data or Q6 continues to

toggle for about 1us or less and the device returns to read array state without programing the data in the protected

sector.

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22

MX29LV640E T/B

CHIP ERASE

Chip Erase is to erase all the data with "1" and "0" as all "1". It needs 6 cycles to write the action in, and the first two

cycles are "unlock" cycles, the third one is a configuration cycle, the fourth and fifth are also "unlock" cycles, and the

sixth cycle is the chip erase operation.

During chip erasing, all the commands will not be accepted except hardware reset or the working voltage is too low that

chip erase will be interrupted. After Chip Erase, the chip will return to the state of Read Array.

When the embedded chip erase operation is on going, user can confirm if the embedded operation is finished or not by

the following methods:

Status

Q7

0

Q6

Q5

0

Q2

Toggling

1

RY/BY#

In progress

Finished

Togging

0

1

0

1

Stop Toggling

Toggling

0

Exceed time limit

0

1

Toggling

SECTOR ERASE

Sector Erase is to erase all the data in a sector with "1" and "0" as all "1". It requires six command cycles to issue. The

first two cycles are "unlock cycles", the third one 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 is issued, there is a time-

out period of 50us counted internally.During the time-out period, additional sector address and sector erase command

can be written multiply. Once user enters another sector erase command, the time-out period of 50us is recounted. If

user enters any command other than sector erase or erase suspend during time-out period, the erase command would

be aborted and the device is reset to read array condition. The number of sectors could be from one sector to all

sectors.After time-out period passing by, additional erase command is not accepted and erase embedded operation

begins.

During sector erasing, all commands will not be accepted except hardware reset and erase suspend and user can

check the status as chip erase.

When the embedded erase operation is on going, user can confirm if the embedded operation is finished or not by the

following methods:

Status

Q7

0

Q6

Q5

0

Q3

0

Q2

RY/BY#*2

Time-out period

In progress

Finished

Toggling

1

0

1

0

Toggling

0

1

Stop Toggling

Toggling

0

1

Exceed time limit

0

1

Toggling

Note :

1. The status Q3 is the time-out period indicator. When Q3=0, the device is in time-out period and is acceptible to

another sector address to be erased. When Q3=1, the device is in erase operation and only erase suspend is

valid.

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23

MX29LV640E T/B

2. RY/BY# is open drain output pin and should be weakly connected to VDD through a pull-up resistor.

3. When an attempt is made to erase a protected sector, Q7 will output its complement data or Q6 continues to toggle

for 100us or less and the device returned to read array status without erasing the data in the protected sector.

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). When a sector has been completely erased, Q2 stops toggling at the sector even when the device is still in

erase operation for remaining selected sectors.At that circumstance, Q2 will still toggle when device is read at any

other sector that remains to be erased.

SECTOR ERASE SUSPEND

During sector erasure, sector erase suspend is the only valid command. If user issue erase suspend command in the

time-out period of sector erasure, device time-out period will be over immediately and the device will go back to erase-

suspended read array mode. If user issue erase suspend command during the sector erase is being operated, device

will suspend the ongoing erase operation, and after the Tready1 (<=20us) suspend finishes and the device will enter

erase-suspended read array mode. User can judge if the device has finished erase suspend through Q6, Q7, and RY/

BY#.

After device has entered erase-suspended read array mode, user can read other sectors not at erase suspend by the

speed of Taa; while reading the sector in erase-suspend mode, device will output its status. 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

Q7

1

Q6

No toggle

Data

Q5

Q3

Q2

toggle

Data

N/A

RY/BY#

Erase suspend read in erase suspended sector

Erase suspend read in non-erase suspended sector

Erase suspend program in non-erase suspended sector

0

N/A

1

0

Data

Q7#

Data Data

N/A

Toggle

0

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

Sector erase resume command is valid only when the device is in erase suspend state. After erase resume, user can

issue another erase suspend command, but there should be a 4ms interval between erase resume and the next erase

suspend. If user issue infinite suspend-resume loop, or suspend-resume exceeds 1024 times, the time for erasing will

increase.

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24

MX29LV640E T/B

QUERYCOMMANDAND COMMON FLASH INTERFACE (CFI) MODE

MX29LV640E T/B features CFI mode. Host system can retrieve the operating characteristics, structure and vendor-

specified information such as identifying information, memory size, byte/word configuration, operating voltages and

timing information of this device by CFI mode. The device enters the CFI Query mode when the system writes the CFI

Query command, 98H, to address 55H/AAH (depending on Word/Byte mode) any time the device is ready to read

array data. The system can read CFI information at the addresses given in Table 4.Areset command is required to exit

CFI mode and go back to ready array mode or erase suspend mode. The system can write the CFI Query command

only when the device is in read mode, erase suspend, standby mode or automatic select mode.

Table 4-1. CFI mode: Identification Data Values

(All values in these tables are in hexadecimal)

Description

Address(h)

Address(h) Data(h)

(WordMode)

(ByteMode)

Query-unique ASCII string "QRY"

10

11

12

13

14

15

16

17

18

19

1A

20

22

24

26

28

2A

2C

2E

30

32

34

0051

0052

0059

0002

0000

0040

0000

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

Table 4-2. CFI Mode: System Interface Data Values

Description

Address(h)

Address(h) Data(h)

(WordMode) (ByteMode)

Vcc supply minimum program/erase voltage

1B

1C

1D

1E

1F

20

21

22

23

24

25

26

36

38

3A

3C

3E

40

42

44

46

48

4A

4C

0027

0036

0000

0004

0000

000A

0000

0005

0000

0004

0000

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, 2ⁿus

Typical timeout for maximum-size buffer write, 2ⁿus

Typical timeout per individual block erase, 2ⁿms

Typical timeout for full chip erase, 2ⁿms

Maximum timeout for word/byte write, 2ⁿtimes typical

Maximum timeout for buffer write, 2ⁿtimes typical

Maximum timeout per individual block erase, 2ⁿtimes typical

Maximum timeout for chip erase, 2ⁿtimes typical

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MX29LV640E T/B

Table 4-3. CFI Mode: Device Geometry Data Values

Description

Address(h)

Address(h) Data(h)

(WordMode) (ByteMode)

Device size = 2ⁿin number of bytes

27

28

29

2A

2B

2C

2D

2E

2F

30

31

32

33

34

35

36

37

38

39

3A

3B

3C

4E

50

52

54

56

58

5A

5C

5E

60

62

64

66

68

6A

6C

6E

70

72

74

76

78

0017

0002

0000

0002

0007

0000

0020

0000

007E

0000

0001

0000

Flash device interface description (02=asynchronous x8/x16)

Maximum number of bytes in buffer write = 2ⁿ(not support)

Number of erase regions within device

Index for Erase Bank Area 1

[2E,2D] = # of same-size sectors in region 1-1

[30, 2F] = sector size in multiples of 256-bytes

Index for Erase Bank Area 2

Index for Erase Bank Area 3

Index for Erase Bank Area 4

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26

MX29LV640E T/B

Table 4-4. CFI Mode: Primary Vendor-Specific Extended Query Data Values

Description

Address(h)

Address(h) Data(h)

(WordMode) (ByteMode)

Query - Primary extended table, unique ASCII string, PRI

40

41

42

43

44

45

46

47

48

49

4A

4B

4C

80

82

84

86

88

8A

8C

8E

90

92

94

96

98

9A

0050

0052

0049

0031

0000

0002

0004

0001

0004

0000

0095

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)

Temporarysectorunprotect(1=supported)

Sector protect/Chip unprotect scheme

SimultaneousR/Woperation(0=notsupported)

Burstmode(0=notsupported)

Pagemode(0=notsupported)

Minimum ACC (acceleration) supply (0= not supported), [D7:D4] for volt, 4D

[D3:D0] for 100mV

Maximum ACC (acceleration) supply (0= not supported), [D7:D4] for volt, 4E

[D3:D0] for 100mV

9C

9E

00A5

Top/Bottom boot block indicator

4F

0002/

0003

02h=bottom boot device 03h=top boot device

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27

MX29LV640E T/B

ABSOLUTE MAXIMUM STRESS RATINGS

Surrounding Temperature with Bias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -65^oC to +125^oC

Storage Temperature . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -65^oC to +150^oC

Voltage Range

Vcc . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.5 V to +4.0 V

RESET#, A9, ACC and OE# . .. . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.5 V to +10.5 V

The other pins. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-0.5 V to Vcc +0.5 V

Output Short Circuit Current (less than one second) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .200 mA

Note:

1.Minimum voltage may undershoot to -2V during transition and for less than 20ns during transitions.

2. Maximum voltage may overshoot to Vcc+2V during transition and for less than 20ns during transitions.

OPERATING TEMPERATURE AND VOLTAGE

Commercial (C) Grade

Surrounding Temperature (T^A). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0° C to +70°C

Industrial (I) Grade

Surrounding Temperature (T^A). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40° C to +85°C

V^CCSupply Voltages

V^CCrange. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . +2.7 V to 3.6 V

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MX29LV640E T/B

DC CHARACTERISTICS

Symbol Description

Min

Typ

Max

± ±1.0uA

35uA

Remark

Iilk

Input Leak

Iilk9

Iolk

Icr1

A9 Leak

A9=10.5V

Output Leak

Read Current(5MHz)

± ±1.0uA

16mA

9mA

2mA

CE#=Vil,

OE#=Vih

Icr2

Icw

Read Current(1MHz)

Write Current

4mA

CE#=Vil,

OE#=Vih

26mA

30mA

CE#=Vil,

OE#=Vih,

WE#=Vil

Isb

Standby Current

Reset Current

5uA

15uA

Vcc=Vcc max,

other pin disable

Vcc=Vccmax,

Reset# enable,

other pin disable

CE#=Vil,

Isbr

Icp1

Icp2

Accelerated Pgm Current,

WP#/Acc pin(Word/Byte)

Accelerated Pgm Current,

Vcc pin,(Word/Byte)

5mA

10mA

30mA

OE#=Vih,

15mA

CE#=Vil,

OE#=Vih,

Vil

Input Low Voltage

-0.5V

0.7xVcc

9.5V

0.8V

Vcc+0.3V

10.5V

Vih

Vhv

Input High Voltage

Very High Voltage for hardware

Protect/Unprotect/Auto Select/

Temporary Unprotect/

Accelerated Program

Output Low Voltage

Vol

0.45V

Iol=4.0mA

Voh1

Voh2

Vlko

Ouput High Voltage

0.85xVcc

Vcc-0.4V

2.3V

Ioh1=-2mA

Ioh2=-100uA

Ouput High Voltage

LowVcc Lock-outVoltage

2.5V

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29

MX29LV640E T/B

SWITCHING TEST CIRCUITS

Vcc

R2

TESTED DEVICE

+3.3V

0.1uF

CL

R1

DIODES=IN3064

OR EQUIVALENT

R1=6.2K ohm

R2=2.7K ohm

Test Condition

Output Load : 1 TTL gate

Output Load Capacitance,CL : 30pF

Rise/Fall Times : 5ns

In/Out reference levels :1.5V

SWITCHING TEST WAVEFORMS

3.0V

0.0V

1.5V

Test Points

INPUT

OUTPUT

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30

MX29LV640E T/B

AC CHARACTERISTICS

Symbol

Taa

Description

Min

Typ

Max

70

Unit

ns

Valid data output after address

Valid data output after CE# low

Valid data output after OE# low

Data output floating after OE# high (*Note 1)

Output hold time from the earliest rising edge of address,

CE#, OE#

Tce

70

ns

Toe

30

ns

Tdf

16

ns

Toh

0

ns

Trc

Read period time

70

0

ns

us

ns

Twc

Tcwc

Tas

Write period time

Command write period time

Address setup time

Tah

Address hold time

45

0

Tds

Tdh

Tvcs

Tcs

Data setup time

Data hold time

Vcc setup time

200

0

Chip enable Setup time

Chip enable hold time

Output enable setup time

Read

Tch

0

Toes

Toeh

0

Output enable hold time

Toggle &

10

Data# Polling

Tws

WE# setup time

0

ns

us

sec

us

Twh

WE# hold time

0

Tcep

CE# pulse width

35

30

35

30

Tceph

Twp

CE# pulse width high

WE# pulse width

Twph

WE# pulse width high

Program/Erase active time by RY/BY#

Read recover time before write

Program operation

Tbusy

Tghwl

Tghel

Twhwh1

Twhwh2

Tbal

70

0

Byte

9

11

7

Program operation

Word

Acc Program operation(Word/Byte)

Sector Erase Operation

Sector Add hold time

0.7

50

* Note 1: Sampled only, not 100% tested.

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31

MX29LV640E T/B

Figure 1. COMMAND WRITE OPERATION

Tcwc

Vih

CE#

Vil

Tch

Tcs

Vih

WE#

Vil

Toes

Twph

Twp

Vih

Vil

OE#

Vih

Vil

Addresses

VA

Tah

Tas

Tdh

Tds

Vih

Vil

Data

DIN

VA: Valid Address

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32

MX29LV640E T/B

READ/RESET OPERATION

Figure 2. READ TIMING WAVEFORMS

Tce

Vih

CE#

Vil

Vih

WE#

Vil

Toeh

Tdf

Toe

Vih

OE#

Vil

Toh

Taa

Trc

Vih

ADD Valid

Addresses

Vil

HIGH Z

Voh

Vol

Outputs

DATA Valid

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33

MX29LV640E T/B

AC CHARACTERISTICS

Item

Trp1

Trp2

Trh

Description

Setup

MIN

Speed

10

Unit

us

RESET# Pulse Width (DuringAutomaticAlgorithms)

RESET# Pulse Width (NOTDuringAutomaticAlgorithms)

RESET# High Time Before Read

MIN

500

50

ns

MIN

ns

Trb1

Trb2

Tready1

RY/BY# Recovery Time (to CE#, OE# go low)

RY/BY# Recovery Time (to WE# go low)

RESET# PINLow (DuringAutomaticAlgorithms)

to Read or Write

MIN

0

ns

MIN

50

ns

MAX

20

us

Tready2

RESET# PINLow (NOTDuringAutomatic

Algorithms) to Read or Write

MAX

500

ns

Figure 3. RESET# TIMING WAVEFORM

Trb1

CE#, OE#

WE#

Trb2

Tready1

RY/BY#

RESET#

Trp1

Reset Timing during Automatic Algorithms

CE#, OE#

RY/BY#

Trh

RESET#

Trp2

Tready2

Reset Timing NOT during Automatic Algorithms

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MX29LV640E T/B

ERASE/PROGRAM OPERATION

Figure 4. AUTOMATIC CHIP ERASE TIMING WAVEFORM

CE#

Tch

Twp

WE#

Twph

Tcs

Tghwl

OE#

Last 2 Erase Command Cycle

Read Status

Tah

Twc

Tas

VA

2AAh

SA

Address

Tds

Tdh

In

Complete

Progress

55h

10h

Data

Tbusy

Trb

RY/BY#

SA: 555h for chip erase

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MX29LV640E T/B

Figure 5. AUTOMATIC CHIP ERASEALGORITHM 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

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MX29LV640E T/B

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

Tas

Sector

VA

2AAh

Address

Address 0

Address 1

Address n

Tah

Tds Tdh

In

Progress

Complete

55h

30h

Data

Tbusy

Trb

RY/BY#

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MX29LV640E T/B

Figure 7. AUTOMATIC SECTOR ERASEALGORITHM 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

NO

Last Sector

to Erase

YES

Data# Polling Algorithm or

Toggle Bit Algorithm

NO

Data=FFh

YES

Auto Sector Erase Completed

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MX29LV640E T/B

Figure 8. ERASE SUSPEND/RESUME FLOWCHART

START

Write Data B0H

ERASE SUSPEND

NO

Toggle Bit checking Q6

not toggled

YES

Read Array or

Program

Reading or

NO

Programming End

YES

Write Data 30H

ERASE RESUME

Continue Erase

Another

NO

Erase Suspend ?

YES

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MX29LV640E T/B

Figure 9. AUTOMATIC PROGRAM TIMING WAVEFORMS

CE#

Tch

Twhwh1

Twp

WE#

Tcs

Twph

Tghwl

OE#

Last 2 Program Command Cycle

Tas

Last 2 Read Status Cycle

Tah

VA

555h

PA

Address

Tdh

Tds

Status

A0h

PD

DOUT

Data

Tbusy

Trb

RY/BY#

Figure 10. Accelerated Program Timing Diagram

(9.5V ~ 10.5V)

Vhv

WP#/ACC

Vil or Vih

250ns

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40

MX29LV640E T/B

Figure 11. CE# CONTROLLED WRITE TIMING WAVEFORM

WE#

Twhwh1 or Twhwh2

Tcep

CE#

Tceph

Tghwl

OE#

Tah

Tas

VA

555h

PA

Address

Tdh

Tds

Status

A0h

PD

DOUT

Data

Tbusy

RY/BY#

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MX29LV640E T/B

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

No

Read Again Data:

Program Data?

YES

No

Last Word to be

Programed

YES

Auto Program Completed

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42

MX29LV640E T/B

SECTOR GROUP PROTECT/CHIP UNPROTECT

Figure 13. SECTOR GROUP PROTECT/CHIP UNPROTECT WAVEFORM (RESET# Control)

150uS: Sector Protect

1us

15mS: Chip Unprotect

CE#

WE#

OE#

Verification

40h

Status

VA

Data

60h

VA

SA, A6

A1, A0

VA

Vhv

Vih

RESET#

VA: valid address

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MX29LV640E T/B

Figure 14-1. IN-SYSTEM SECTOR GROUP PROTECT WITH RESET#=Vhv

START

Retry count=0

RESET#=Vhv

Wait 1us

Temporary Unprotect Mode

No

First CMD=60h?

Yes

Write Sector Address

with [A6,A1,A0]:[0,1,0]

data: 60h

Wait 150us

Reset

PLSCNT=1

Write Sector Address

with [A6,A1,A0]:[0,1,0]

data: 40h

Retry Count +1

Read at Sector Address

with [A6,A1,A0]:[0,1,0]

No

Data=01h?

Yes

Retry Count=25?

Yes

Device fail

Yes

Protect another

sector?

No

Temporary Unprotect Mode

RESET#=Vih

Write RESET CMD

Sector Protect Done

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MX29LV640E T/B

Figure 14-2. CHIP UNPROTECT ALGORITHMS WITH RESET#=Vhv

START

Retry count=0

RESET#=Vhv

Wait 1us

Temporary Unprotect

No

First CMD=60h?

Yes

No

All sectors

protected?

Protect All Sectors

Yes

Write [A6,A1,A0]:[1,1,0]

data: 60h

Wait 15ms

Write [A6,A1,A0]:[1,1,0]

data: 40h

Retry Count +1

Read [A6,A1,A0]:[1,1,0]

No

Retry Count=1000?

Data=00h?

Yes

Device fail

Temporary Unprotect

Write reset CMD

Chip Unprotect Done

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MX29LV640E T/B

Table 5. TEMPORARY SECTORGROUP UNPROTECT

Parameter Alt

Description

Condition Speed

Unit

ns

Trpvhh

Tvhhwl

Tvidr

Trsp

RESET# Rise Time to Vhv and Vhv Fall Time to RESET#

RESET# Vhv to WE# Low

MIN

500

4

us

Figure 15. TEMPORARY SECTOR GROUP UNPROTECT WAVEFORMS

Program or Erase Command Sequence

CE#

WE#

Tvhhwl

RY/BY#

Vhv 10V

RESET#

0 or Vih

Vil or Vih

Trpvhh

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MX29LV640E T/B

Figure 16. TEMPORARY SECTOR GROUP UNPROTECT FLOWCHART

Start

Apply Reset# pin Vhv Volt

Enter Program or Erase Mode

Mode Operation Completed

(1) Remove Vhv Volt from Reset#

(2) RESET# = Vih

Completed Temporary Sector

Unprotected Mode

Notes:

1.Temporary unprotect all protected sectors Vhv=9.5~10.5V.

2.After leaving temporary unprotect mode, the previously protected sectors are again protected.

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MX29LV640E T/B

Figure 17. SILICON ID READ TIMING WAVEFORM

Vih

CE#

Vil

Tce

Vih

WE#

Vil

Toe

Vih

OE#

Vil

Tdf

Toh

Vhv

Vih

A9

Vil

Vih

A0

Vil

Taa

Vih

A1

Vil

Vih

ADD

Vil

DATA

Vih

Q0-Q7

(Byte Mode)

DATA OUT

Vil

C2h

C9h (TOP boot)

CBh (Bottom boot)

DATA

Q0-Q15/A-1

(Word Mode)

Vih

Vil

DATA OUT

00C2h

DATA OUT

22C9h (TOP boot)

22CBh (Bottom boot)

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MX29LV640E T/B

WRITE OPERATION STATUS

Figure 18. DATA# POLLING TIMING WAVEFORMS (DURING AUTOMATIC ALGORITHMS)

Tce

CE#

Tch

WE#

Toe

OE#

Toeh

Tdf

Trc

VA

Address

Taa

Toh

High Z

Complement

Status Data

True

Valid Data

Q7

Q0-Q6

Status Data

Tbusy

RY/BY#

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MX29LV640E T/B

Figure 19. 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 meas program address.

For erasing, valid address meas erase sectors address.

2. Q7 should be rechecked even Q5="1" because Q7 may change simultaneously with Q5.

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MX29LV640E T/B

Figure 20. TOGGLE BIT TIMING WAVEFORMS (DURING AUTOMATIC ALGORITHMS)

Tce

CE#

Tch

WE#

OE#

Toe

Toeh

Tdf

Trc

VA

Address

Taa

Toh

Valid Status

(second read)

Valid Status

(first read)

Valid Data

Q6/Q2

(stops toggling)

Tbusy

RY/BY#

VA : Valid Address

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MX29LV640E T/B

Figure 21. TOGGLE BIT ALGORITHM

Start

Read Q7-Q0 Twice

(Note 1)

NO

Q6 Toggle ?

YES

NO

Q5 = 1?

YES

Read Q7~Q0 Twice

NO

Q6 Toggle ?

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".

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MX29LV640E T/B

AC CHARACTERISTICS

WORD/BYTE CONFIGURATION (BYTE#)

Parameter

Description

Speed

70

Unit

Telfl/Telfh

Tflqz

CE# to BYTE# from L/H

MAX

MIN

5

ns

BYTE# from L to Output Hiz

BYTE# from H to OutputActive

30

Tfhqv

70

Figure 22. BYTE# TIMING WAVEFORM FOR READ OPERATIONS (BYTE# switching from byte mode to word

mode)

CE#

OE#

Telfh

BYTE#

DOUT

(Q0-Q7)

DOUT

(Q0-Q14)

Q0~Q14

Q15/A-1

DOUT

(Q15)

VA

Tfhqv

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MX29LV640E T/B

RECOMMENDED OPERATING CONDITIONS

At Device Power-Up

AC timing illustrated in FigureAis recommended for the supply voltages and the control signals at device power-up.

If the timing in the figure is ignored, the device may not operate correctly.

Vcc(min)

Vcc

GND

Tvr

Tvcs

Tf

Tce

Tr

Vih

Vil

CE#

WE#

OE#

Vih

Vil

Tf

Toe

Tr

Vih

Vil

Taa

Tr or Tf

Vih

Vil

Valid

Address

ADDRESS

Voh

Vol

High Z

Valid

Ouput

DATA

Vih

Vil

WP#/ACC

Figure A. AC Timing at Device Power-Up

Symbol

Parameter

Min.

Max.

500000

20

Unit

Tvr

Tr

Vcc Rise Time

20

us/V

us

Input Signal Rise Time

Input Signal Fall Time

Vcc Setup Time

Tf

20

Tvcs

200

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MX29LV640E T/B

ERASE AND PROGRAMMING PERFORMANCE

LIMITS

PARAMETER

MIN.

TYP.

MAX.

65

UNITS

sec

Cycles

sec

us

Chip Erase Time

Sector Erase Time

Erase/Program Cycles

45

0.7

100,000

50

2

Chip Programming Time

Byte Mode

Word Mode

160

140

210

360

300

45

Accelerated Byte/Word Program Time

Word Program Time

7

11

us

Byte Programming Time

9

us

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. Word/Byte programming specification is based upon a single word/byte programming operation not utilizing the

write buffer.

4. Erase/Program cycles comply with JEDEC JESD-47E & A117A standard.

LATCH-UP CHARACTERISTICS

MIN.

-1.0V

MAX.

10.5V

Input Voltage voltage difference with GND on WP#/ACC, A9, OE, Reset# pins

Input Voltage voltage difference with GND on all normal pins input

Input Current Pulse

-1.0V

Vcc x 1.5V

+100mA

-100mA

All pins included. Test conditions: Vcc = 3.0V, one pin per testing

TSOP PIN CAPACITANCE

Parameter Symbol

Parameter Description

Control Pin Capacitance

Output Capacitance

Input Capacitance

Test Set

VIN=0

TYP

MAX

9

UNIT

pF

CIN2

COUT

CIN

7.5

8.5

6

VOUT=0

VIN=0

12

pF

7.5

pF

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REV. 1.1, MAR. 12, 2009

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MX29LV640E T/B

ORDERING INFORMATION

PART NO.

ACCESS TIME

Ball Pitch/

Ball size

PACKAGE

Remark

(ns)

70

MX29LV640ETXEI-70G

MX29LV640EBXEI-70G

MX29LV640ETTI-70G

MX29LV640EBTI-70G

0.8mm/0.4mm

48 Ball TFBGA

Pb-free

70

48 Ball TFBGA

70

48 Pin TSOP(Normal Type)

70

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MX29LV640E T/B

PART NAME DESCRIPTION

MX 29 LV 640 E T T I

70 G

OPTION:

G: Lead-free package

SPEED:

70: 70ns

TEMPERATURE RANGE:

I: Industrial (-40°C to 85°C)

PACKAGE:

T: TSOP

X: FBGA (CSP)

XE - 0.4mm Ball

BOOT BLOCK TYPE:

T: Top Boot

B: Bottom Boot

REVISION:

E

DENSITY & MODE:

640: 64M x8/x16 Boot Block

TYPE:

LV: 3V

DEVICE:

29:Flash

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MX29LV640E T/B

PACKAGE INFORMATION

P/N:PM1328

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MX29LV640E T/B

P/N:PM1328

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MX29LV640E T/B

REVISION HISTORY

Revision No. Description

Page

P1

Date

OCT/21/2008

1.0

1. Removed "Advanced Information"

2. Removed 90ns option

P1,31,53,56

P57

3. Revised high voltage value from 11.5V to 10.5V

4. Changed Tcep value from 45ns(min.) to 35ns(min.)

1. Modified Table 1. BLOCK STRUCTURE : SA44,45

P28,55

P31

P6

1.1

MAR/12/2009

P/N:PM1328

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MX29LV640E T/B

Macronix's products are not designed, manufactured, or intended for use for any high risk applications in which the

failure of a single component could cause death, personal injury, severe physical damage, or other substantial harm

to persons or property, such as life-support systems, high temperature automotive, medical, aircraft and military

application. Macronix and its suppliers will not be liable to you and/or any third party for any claims, injuries or damages

that may be incurred due to use of Macronix's products in the prohibited applications.

trademarks or registered trademarks of Macronix International Co., Ltd.. The names and brands of other companies

are for identification purposes only and may be claimed as the property of the respective companies.

MACRONIX INTERNATIONALCO., LTD.

Macronix Offices : Taiwan

Headquarters, FAB2

Macronix Offices : Japan

Macronix Asia Limited.

NKF Bldg. 5F, 1-2 Higashida-cho,

Kawasaki-ku Kawasaki-shi,

Kanagawa Pref. 210-0005, Japan

Tel: +81-44-246-9100

Macronix, International Co., Ltd.

16, Li-Hsin Road, Science Park, Hsinchu,

Taiwan, R.O.C.

Tel: +886-3-5786688

Fax: +886-3-5632888

Fax: +81-44-246-9105

Taipei Office

Macronix Offices : Korea

Macronix Asia Limited.

Macronix, International Co., Ltd.

19F, 4, Min-Chuan E. Road, Sec. 3, Taipei,

Taiwan, R.O.C.

#906, 9F, Kangnam Bldg., 1321-4, Seocho-Dong, Seocho-Ku,

135-070, Seoul, Korea

Tel: +886-2-2509-3300

Fax: +886-2-2509-2200

Tel: +82-02-588-6887

Fax: +82-02-588-6828

Macronix Offices : China

Macronix (Hong Kong) Co., Limited.

702-703, 7/F, Building 9, Hong Kong Science Park,

5 Science Park West Avenue, Sha Tin,

N.T.

Macronix Offices : Singapore

Macronix Pte. Ltd.

1 Marine Parade Central, #11-03 Parkway Centre,

Singapore 449408

Tel: +65-6346-5505

Tel: +86-852-2607-4289

Fax: +65-6348-8096

Fax: +86-852-2607-4229

Macronix Offices : Europe

Macronix EuropeN.V.

Koningin Astridlaan 59, Bus 1 1780

Wemmel Belgium

Macronix (Hong Kong) Co., Limited,

SuZhou Office

No.5, XingHai Rd, SuZhou Industrial Park,

SuZhou China 215021

Tel: +32-2-456-8020

Tel: +86-512-62580888 Ext: 3300

Fax: +86-512-62586799

Fax: +32-2-456-8021

Macronix Offices : USA

Macronix America, Inc.

680 North McCarthy Blvd. Milpitas, CA 95035,

U.S.A.

Macronix (Hong Kong) Co., Limited,

Shenzhen Office

Room 1401 & 1404, Blcok A, TianAN Hi-Tech PLAZA Tower,

Che Gong Miao, FutianDistrict, Shenzhen PRC 518040

Tel: +86-755-83433579

Tel: +1-408-262-8887

Fax: +1-408-262-8810

Fax: +86-755-83438078

http : //www.macronix.com

MACRONIX INTERNATIONAL CO., LTD. reserves the right to change product and specifications without notice.


型号：	MX29LV640EBTI-70G
厂家：	MACRONIX INTERNATIONAL
描述：	64M-BIT [8M x 8/4M x 16] SINGLE VOLTAGE 3V 64M - BIT [ 8M ×8 / 4M ×16 ]单电压3V 闪存存储内存集成电路光电二极管
文件：	总61页 (文件大小：715K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MX29LV640EBTI-70G [Macronix]

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