RENESAS M5M29KB

Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
DESCRIPTION
The M5M29KB/T331AVP are 3.3V-only high speed
33,554,432-bit CMOS boot block FLASH Memories with
alternating BGO(Back Ground Operation) feature. The BGO
feature of the device allows Program or Erase operations to be
performed in one bank while the device simultaneously allows
Read operations to be performed on the other bank.
M5M29KB/T331AVP provides for Software Lock Release
function. Usually, all memory blocks are locked and can not
be programmed or erased, when WP# is low. Using Software
Lock Release function, program or erase operation can be
executed.
This BGO feature is suitable for mobile and personal
computing, and communication products.
Access time
FEATURES
Random
Page
70ns (Max.)
25ns(Max.)
VCC= 3.0 ~ 3.6V
The M5M29KB/T331AVP are fabricated by CMOS technology Supply voltage
Ta=-40 ~ 85 °C
for the peripheral circuit and DINOR IV(Divided bit-line NOR IV) Ambient temperature
architecture for the memory cell, and are available in 48pin
Package
48pin TSOP(Type-I), Lead pitch 0.5mm
TSOP(I) for lead free use.
Outer-lead finishing : Sn-Cu
APPLICATION
Digital Cellar Phone, Telecommunication,
PDA, Car Navigation System, Video Game Machine
12.0 mm
PIN CONFIGURATION (TOP VIEW)
A15
A14
A13
A12
A11
A10
A9
A8
A19
A20
WE#
RP#
NC
WP#
RY/BY#
A18
A17
A7
A6
A5
A4
A3
A2
A1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
M5M29KB/T331AVP
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
BYTE#
GND
DQ15/A-1
DQ7
DQ14
DQ6
DQ13
DQ5
DQ12
DQ4
VCC
DQ11
DQ3
DQ10
DQ2
DQ9
DQ1
DQ8
DQ0
OE#
GND
CE#
A0
Outline
48P3R-C
20.0 mm
VCC
GND
A0-A21
DQ0-DQ15
CE#
OE#
1
: VCC
: GND
: Address
: Data I/O
: Chip enable
: Output enable
WE#
WP#
RP#
BYTE#
RY/BY#
: Write enable
: Write protect
: Reset power down
: Byte enable
: Ready/Busy
NC
: Non Connection
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
32M Flash Memory Block Diagram
Vcc
GND
RY/BY#
A0 to A20
32Mbit DINOR IV
Flash Memory
CE#
OE#
WE#
WP#
RP#
BYTE#
DQ0 to DQ15
Capacitance
Symbol
Parameter
Input
A20-A0, OE#, WE#, CE#, WP#,
capacitance RP#,BYTE#
Output
COUT
DQ15-DQ0,RY/BY#
Capacitance
CIN
2
Conditions
Ta=25°C, f=1MHz,
Vin=Vout=0V
Min.
Limits
Typ.
Max.
Unit
12
pF
12
pF
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Flash Memory Part
Description
- Auto Erase
The 32M-bit DINOR IV(Divided bit line NOR IV) Flash
Memory is 3.3V-only high speed 33,554,432-bit CMOS
boot block Flash Memory. Alternating BGO(Back Ground
Operation) feature of the device allows Program or Erase
operations to be performed in one bank while the device
simultaneously allows Read operations to be performed
on the other bank. This BGO feature is suitable for
communication products and cellular phone.The Flash
Memory is fabricated by CMOS technology for the
peripheral circuits and DINOR IV architecture for the
memory cells.
Erase time
Main Block
150ms/block (typ.)
Boot Block
4K-word x2/ 8K-byte x2
Erase unit
Bank(I)
Parameter Block 4K-word x6 / 8K-byte x6
Main Block
32K-word x7 / 64K-byte x7
Bank(II)
Main Block
32K-word x8 / 64K-byte x8
Bank(III)
Main Block
32K-word x24 / 64K-byte x24
Bank(IV)
Main Block
32K-word x24 / 64K-byte x24
- Program/Erase cycles
100Kcycles
- Boot Block
Features
-Organization
2,097,152-word x 16-bit
4,194,304-byte x 8-bit
- Supply Voltage
VCC = 3.0 ~ 3.6V
- Access time
Random Access
70ns(Max.)
Random Page Read
25ns(Max.)
- Read
108mW (Max. at 5MHz)
- Page Read
36mW (Max.)
(After Automatic Power Down)
- Program/Erase
0.33µW(typ.)
126mW(Max.)
Standby
0. 33µW(typ.)
Deep Power Down mode
0. 33µW(typ.)
Bottom Boot
M***B33******
Top Boot
M***T33******
- The Other Functions
Software Command Control
Software Lock Release(while WP# is low)
Erase Suspend/Resume
Program Suspend/Resume
Status Register Read
Alternating Back Ground Program/Erase Operation
Between Bank(I), Bank(II), Bank(III) and Bank(IV)
Random Page Read
- Auto Program for Bank(I) – Bank(IV)
Program Time
Word Program
30µs/word(typ.)
Byte Program
30µs/byte(typ.)
Page Program
4ms(typ.)
Program Unit
3
Word/Byte Program
1word/ 1Byte
Page Program
128 words/ 256 bytes
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Block Diagram (32Mbit Flash Memory)
128word Page Buffer
A20
A19
A18
A17
A16
A15
X-Decoder
A14
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
A13
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
A12
A11
Address
A10
Input
A9
A8
A7
A6
A5
A4
A3
Main Block 70 32Kword
·
·
·
·
·
·
·
·
·
·
·
Bank(IV)
24blocks
·
·
·
·
·
·
·
·
·
·
·
Bank(III)
24blocks
Main Block 23 32Kword
Main Block 22 32Kword
·
·
·
Bank(II)
8blocks
Main Block 15 32Kword
Main Block 14 32Kword
·
Main Block 8 32Kword
Parameter Block 7 4Kword
Bank(I)
15blocks
·
Parameter Block 2 4Kword
Boot Block 1 4Kword
Boot Block 0 4Kword
·
·
·
·
·
A1
A0
GND
Main Block 47 32Kword
Main Block 46 32Kword
Y-Decoder
A2
VCC
Y-Gate / Sense Amp.
···························
Status / ID Register
Multiplexer
Chip
Enable
CE#
···························
Output Enable OE#
Write Enable WE#
Write
WP#
Protect
Reset
RP#
/PowerDown
BYTE
READY/BUSY
4
Command
User
Interface
Write
State
Machine
I/O Buffer
···························
BYTE#
RY/
BY#
···························
DQ15
/ A-1
DQ14
Data I/O
DQ1 DQ0
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Function of Flash Memory
Output Disable
The 32M-bit DINOR IV Flash Memory includes on-chip
program/erase control circuitry. The Write State Machine
(WSM) controls block erase and word/page program
operations. Operational modes are selected by the
commands written to the Command User Interface (CUI).
The Status Register indicates the status of the WSM and
when the WSM successfully completes the desired
program or block erase operation.
When OE# is at VIH, output from the devices is disabled.
Data input/output are in a high-impedance (High-Z) state.
A Deep Power Down mode is enabled when the RP# pin
is at GND, minimizing power consumption.
Standby
When CE# is at VIH, the device is in the standby mode
and its power consumption is reduced. Data input/output
are in a high-impedance (High-Z) state. If the memory is
deselected during block erase or program, the internal
control circuits remain active and the device consumes
normal active power until the operation completes.
Deep Power Down
Read
The 32M-bit DINOR IV Flash Memory has four read
modes, which accesses to the memory array, the Page
Read, the Device Identifier and the Status Register. The
appropriate read commands are required to be written to
the CUI. Upon initial device power up or after exit from
deep power down, the 32M-bit DINOR IV Flash Memory
automatically resets to read array mode. In the read array
mode and in the conditions are low level input to OE#,
high level input to WE# and RP#, low level input to CE#
and address signals to the address inputs (A20 - A0:
Word mode / A20-A-1: Byte mode) the data of the
addressed location to the data input/output (DQ15-DQ0:
Word mode / DQ7- DQ0: Byte mode) is output.
Write
Writes to the CUI enables reading of memory array data,
device identifiers and reading and clearing of the Status
Register. They also enable block erase and program. The
CUI is written by bringing WE# to low level and OE# is at
high level, while CE# is at low level. Address and data are
latched on the earlier rising edge of WE# and CE#.
Standard micro processor write timings are used.
Alternating Background Operation (BGO)
When RP# is at VIL, the device is in the deep power down
mode and its power consumption is substantially low.
During read modes, the memory is deselected and the data
input/output are in a high-impedance (High-Z) state. After
return from power down, the CUI is reset to Read Array,
and the Status Register is cleared to value 80H.
During block erase or program modes, RP# low will abort
either operation. Memory array data of the block being
altered become invalid.
Automatic Power Down (Auto-PD)
The Automatic Power Down minimizes the power
consumption during read mode. The device automatically
turns to this mode when any addresses or CE# isn't
changed more than 200ns after the last alternation. The
power consumption becomes the same as the stand-by
mode. During this mode, the output data is latched and can
be read out. New data is read out correctly when
addresses are changed.
BBR(Back Bank array Read)
In the 32M-bit DINOR IV Flash Memory , when one
memory address is read according to a Read Mode in the
case of the same as an access when a Read Mode
command is input, an another Bank memory data can be
read out (Random or Page Mode) by changing an another
Bank address.
The 32M-bit DINOR IV Flash Memory allows to read
array from one bank while the other bank operates in
software command write cycling or the erasing /
programming operation in the background. Array Read
operation with the other bank in BGO is performed by
changing the bank address without any additional
command. When the bank address points the bank in
software command write cycling or the erasing /
programming operation, the data is read out from the
status register. The access time with BGO is the same as
the normal read operation. BGO must be between Bank(I),
Bank(II), Bank(III) and Bank(IV).
5
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Software Command Definitions
Clear Status Register Command (50H)
The device operations are selected by writing specific
software command into the Command User Interface.
The Erase Status, Program Status and Block Status bits
are set to "1"s by the Write State Machine and can only
be reset by the Clear Status Register command of 50H.
These bits indicate various failure conditions.
Read Array Command (FFH)
The device is in Read Array mode on initial device power
up and after exit from deep power down, or by writing FFH
to the Command User Interface. After starting the internal
operation the device is set to the read status register mode
automatically.
Read Device Identifier Command (90H)
We can normally read device identifier codes when Read
Device Identifier Code Command (90H) is written to the
command latch. Following the command write, the
manufacturer code and the device code can be read from
A0 address 0H and 1H in a bank address, respectively.
Block Erase / Confirm Command (20H/D0H)
Automated block erase is initiated by writing the Block
Erase command of 20H followed by the Confirm
command of D0H. An address within the block to be
erased is required. The WSM executes iterative erase
pulse application and erase verify operation.
Read Status Register Command (70H)
Program Commands
The Status Register is read after writing the Read Status
Register command of 70H to the Command User Interface.
Also, after starting the internal operation the device is set to
the Read Status Register mode automatically.
A) Word / Byte Program (40H)
The contents of Status Register are latched on the later
falling edge of OE# or CE#. When status read is required,
OE# or CE# must be toggled every status read.
Word / Byte program is executed by a two-command
sequence. The Word/Byte program Setup command of
40H is written to the Command Interface, followed by a
second write specifying the address and data to be written.
The WSM controls the program pulse application and
verify operation.
B) Page Program for Data Blocks (41H)
Page Read Command (F3H)
The Page Read command (F3H) timing can be used by
writing the first command and CE# falls VIL or changing the
address(A20-A2) is necessary to start activating page read
mode. This command is fast random 4 words read. During
the read cycle operation it is necessary to fix CE# low and
change addresses which are defined by A0 and A1(or A-1
to A1) at random continuously.
C) Single Data Load to Page Buffer (74H)
The mode is kept until RP# is set to VIL or this chip is
powered down.
/ Page Buffer to Flash (0EH/D0H)
The first read of Page Read timing is the same as normal
read (ta(CE)). CE# should be fallen VIL. The read timing
after the first is fast read (ta(PAD)).
In the page read mode the upper address(A20-A2) is
supposed not to be clocked during read operation.
Otherwise the access time is as same as normal read.
6
Page Program allows fast programming of 128 words/
256 bytes of data. Writing of 41H initiates the page
program operation for the Data area. From 2nd cycle to
129th cycle(Word mode)/ 257th cycle(Byte mode), write
data must be serially inputted. Address A6-A0(Word
mode)/ A6-A-1(Byte mode) have to be incremented from
00H to 7FH. After completion of data loading, the WSM
controls the program pulse application and verify
operation.
Single data load to the page buffer is performed by
writing 74H followed by a second write specifying the
column address and data. Distinct data up to 128word
can be loaded to the page buffer by this two-command
sequence. On the other hand, all of the loaded data to the
page buffer is programmed simultaneously by writing
Page Buffer to Flash command of 0EH followed by the
confirm command of D0H. After completion of
programming the data on the page buffer is cleared
automatically.
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Flash to Page Buffer Command (F1H/D0H)
Power Supply Voltage
Array data load to the page buffer is performed by
writing the Flash to Page Buffer command of F1H
followed by the Confirm command of D0H. An address
within the page to be loaded is required. Then the array
data can be copied into the other pages within the same
bank by using the Page Buffer to Flash command.
When the power supply voltage is less than VLKO, Low
VCC Lock-Out voltage, the device is set to the Read-only
mode.
A delay time of 2µs is required before any device
operation is initiated. The delay time is measured from the
time Flash VCC reaches Flash VCCmin (3.0V).
During power up, RP# = GND is recommended. Falling in
Busy status is not recommended for possibility of
damaging the device.
Clear Page Buffer Command (55H/D0H)
Loaded data to the page buffer is cleared by writing the
Clear Page Buffer command of 55H followed by the
Confirm command of D0H. This command is valid for
clearing data loaded by Single Data Load to Page Buffer
command.
Memory Organization
The 32M-bit DINOR IV Flash Memory is constructed by 2
boot blocks of 4K words/ 8K bytes, 6 parameter blocks of
4K words/ 8K bytes and 7 main blocks of 32K words/ 64K
bytes in Bank(I), by 8 main blocks of 32K words/ 64K bytes
in Bank(II) and by 24 main blocks of 32K words/ 64K bytes
in Bank(III) and Bank(IV).
Data Protection
The 32M-bit DINOR IV Flash Memory has a master Write
Protect pin (WP#). When WP# is at VIH, all blocks can be
programmed or erased. When WP# is low, all blocks are in
locked mode which prevents any modifications to memory
blocks. Software Lock Release function is only command
which allows to program or erase.
Suspend/Resume Command (B0H/D0H)
Writing the Suspend command of B0H during block erase
operation interrupts the block erase operation and allows
read out from another block of memory. Writing the
Suspend command of B0H during program operation
interrupts the program operation and allows read out from
another block of memory. The Bank address is required
when writing the Suspend/Resume Command. The device
continues to output Status Register data when read, after
the Suspend command is written to it. Polling the WSM
Status and Suspend Status bits will determine when the
erase operation or program operation has been suspended.
At this point, writing of the Read Array command to the CUI
enables reading data from blocks other than that which is
suspended. When the Resume command of D0H is written
to the CUI, the WSM will continue with the erase or
program processes.
Erase All Unlocked Blocks Command (A7H/D0H)
The command sequence enable us to erase all blocks.
The command can be used by writing Setup command
A7H(1st cycle) and confirm command D0H(2nd cycle). The
sequence is not valid in case of WP#=VIL.
7
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Block Organization
32Kw ord MAIN BLOCK 34
x8 (Byte
Mode)
3F0000H3FFFFFH
x16 (Word
Mode)
1F8000H1FFFFFH
1A0000H1AFFFFH
D0000HD7FFFH
32Kw ord MAIN BLOCK 70
32Kw ord MAIN BLOCK 33
3E0000H3EFFFFH
1F0000H1F7FFFH
190000H19FFFFH
180000H18FFFFH
C8000HCFFFFH
C0000HC7FFFH
32Kw ord MAIN BLOCK 69
32Kw ord MAIN BLOCK 31
3D0000H3DFFFFH
3C0000H3CFFFFH
1E8000H1EFFFFH
1E0000H1E7FFFH
170000H17FFFFH
B8000HBFFFFH
32Kw ord MAIN BLOCK 30
3B0000H3BFFFFH
1D8000H1DFFFFH
160000H16FFFFH
B0000HB7FFFH
32Kw ord MAIN BLOCK 66
3A0000H3AFFFFH
1D0000H1D7FFFH
32Kw ord MAIN BLOCK 29
150000H15FFFFH
A8000HAFFFFH
32Kw ord MAIN BLOCK 28
32Kw ord MAIN BLOCK 65
390000H39FFFFH
1C8000H1CFFFFH
140000H14FFFFH
A0000HA7FFFH
32Kw ord MAIN BLOCK 64
380000H38FFFFH
1C0000H1C7FFFH
130000H13FFFFH
98000H9FFFFH
32Kw ord MAIN BLOCK 63
32Kw ord MAIN BLOCK 26
370000H37FFFFH
1B8000H1BFFFFH
120000H12FFFFH
90000H97FFFH
32Kw ord MAIN BLOCK 62
32Kw ord MAIN BLOCK 25
360000H36FFFFH
1B0000H1B7FFFH
110000H11FFFFH
88000H8FFFFH
32Kw ord MAIN BLOCK 61
32Kw ord MAIN BLOCK 24
350000H35FFFFH
1A8000H1AFFFFH
100000H10FFFFH
80000H87FFFH
32Kw ord MAIN BLOCK 60
32Kw ord MAIN BLOCK 23
340000H34FFFFH
1A0000H1A7FFFH
F0000HFFFFFH
78000H7FFFFH
32Kw ord MAIN BLOCK 59
32Kw ord MAIN BLOCK 22
330000H33FFFFH
198000H19FFFFH
E0000HEFFFFH
70000H77FFFH
32Kw ord MAIN BLOCK 58
32Kw ord MAIN BLOCK 21
320000H32FFFFH
190000H197FFFH
D0000HDFFFFH
68000H6FFFFH
32Kw ord MAIN BLOCK 57
32Kw ord MAIN BLOCK 20
310000H31FFFFH
188000H18FFFFH
C0000HCFFFFH
60000H67FFFH
32Kw ord MAIN BLOCK 56
300000H30FFFFH
180000H187FFFH
B0000HBFFFFH
58000H5FFFFH
32Kw ord MAIN BLOCK 55
2F0000H2FFFFFH
178000H17FFFFH
A0000HAFFFFH
50000H57FFFH
32Kw ord MAIN BLOCK 54
2E0000H2EFFFFH
170000H177FFFH
90000H9FFFFH
48000H4FFFFH
32Kw ord MAIN BLOCK 53
32Kw ord MAIN BLOCK 16
2D0000H2DFFFFH
168000H16FFFFH
80000H8FFFFH
40000H47FFFH
32Kw ord MAIN BLOCK 52
32Kw ord MAIN BLOCK 15
2C0000H2CFFFFH
160000H167FFFH
70000H7FFFFH
38000H3FFFFH
32Kw ord MAIN BLOCK 51
32Kw ord MAIN BLOCK 14
2B0000H2BFFFFH
158000H15FFFFH
60000H6FFFFH
30000H37FFFH
32Kw ord MAIN BLOCK 50
32Kw ord MAIN BLOCK 13
2A0000H2AFFFFH
150000H157FFFH
50000H5FFFFH
28000H2FFFFH
32Kw ord MAIN BLOCK 49
32Kw ord MAIN BLOCK 12
290000H29FFFFH
148000H14FFFFH
40000H4FFFFH
20000H27FFFH
32Kw ord MAIN BLOCK 48
32Kw ord MAIN BLOCK 11
280000H28FFFFH
140000H147FFFH
30000H3FFFFH
20000H2FFFFH
18000H1FFFFH
10000H17FFFH
32Kw ord MAIN BLOCK 47
270000H27FFFFH
260000H26FFFFH
138000H13FFFFH
130000H137FFFH
10000H1FFFFH
08000H0FFFFH
250000H25FFFFH
128000H12FFFFH
0E000H0FFFFH
0C000H0DFFFH
07000H07FFFH
06000H06FFFH
4Kword PARAMETER BLOCK 6
240000H24FFFFH
230000H23FFFFH
120000H127FFFH
118000H11FFFFH
0A000H0BFFFH
05000H05FFFH
4Kword PARAMETER BLOCK 5
220000H22FFFFH
110000H117FFFH
08000H09FFFH
04000H04FFFH
32Kw ord MAIN BLOCK 41
4Kword PARAMETER BLOCK 4
210000H21FFFFH
108000H10FFFFH
06000H07FFFH
03000H03FFFH
32Kw ord MAIN BLOCK 40
4Kword PARAMETER BLOCK 3
200000H20FFFFH
100000H107FFFH
04000H05FFFH
02000H02FFFH
32Kw ord MAIN BLOCK 39
4Kword PARAMETER BLOCK 2
1F0000H1FFFFFH
F8000HFFFFFH
02000H03FFFH
00000H01FFFH
01000H01FFFH
00000H00FFFH
32Kw ord MAIN BLOCK 38
1E0000H1EFFFFH
1D0000H1DFFFFH
F0000HF7FFFH
E8000HEFFFFH
A20-A-1
(Byte Mode)
A20-A0
(Word Mode)
1C0000H1CFFFFH
E0000HE7FFFH
A20-A-1
(Byte Mode)
A20-A0
(Word Mode)
32Kw ord MAIN BLOCK 32
32Kw ord MAIN BLOCK 27
32Kw ord MAIN BLOCK 18
32Kw ord MAIN BLOCK 17
BANK(II)
32Kw ord MAIN BLOCK 19
32Kw ord MAIN BLOCK 10
32Kw ord MAIN BLOCK 8
4Kword PARAMETER BLOCK 7
4Kw ord BOOT BLOCK 1
4Kw ord BOOT BLOCK 0
BANK(I)
32Kw ord MAIN BLOCK 9
32Kw ord MAIN BLOCK 68
32Kw ord MAIN BLOCK 67
32Kw ord MAIN BLOCK 46
32Kw ord MAIN BLOCK 45
32Kw ord MAIN BLOCK 44
32Kw ord MAIN BLOCK 43
32Kw ord MAIN BLOCK 42
BANK(III)
x16 (Word
Mode)
D8000HDFFFFH
BANK(IV)
x8 (Byte
Mode)
1B0000H1BFFFFH
BANK(III)
8
32M-bit DINOR(IV) Flash Memory Map (Bottom Boot)
32Kw ord MAIN BLOCK 37
32Kw ord MAIN BLOCK 36
32Kw ord MAIN BLOCK 35
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Block Organization
F0000HF7FFFH
E8000HEFFFFH
E0000HE7FFFH
D8000HDFFFFH
D0000HD7FFFH
C8000HCFFFFH
C0000HC7FFFH
B8000HBFFFFH
B0000HB7FFFH
A8000HAFFFFH
A0000HA7FFFH
130000H13FFFFH
120000H12FFFFH
110000H11FFFFH
100000H10FFFFH
F0000HFFFFFH
E0000HEFFFFH
D0000HDFFFFH
C0000HCFFFFH
B0000HBFFFFH
A0000HAFFFFH
90000H9FFFFH
80000H8FFFFH
70000H7FFFFH
60000H6FFFFH
50000H5FFFFH
40000H4FFFFH
30000H3FFFFH
20000H2FFFFH
10000H1FFFFH
00000H0FFFFH
A20-A-1 (Byte
Mode)
98000H9FFFFH
90000H97FFFH
88000H8FFFFH
80000H87FFFH
78000H7FFFFH
70000H77FFFH
68000H6FFFFH
60000H67FFFH
58000H5FFFFH
50000H57FFFH
48000H4FFFFH
40000H47FFFH
38000H3FFFFH
30000H37FFFH
28000H2FFFFH
20000H27FFFH
18000H1FFFFH
10000H17FFFH
08000H0FFFFH
00000H07FFFH
A20-A0 (Word
Mode)
32Kw ord MAIN BLOCK 34
32Kw ord MAIN BLOCK 33
32Kw ord MAIN BLOCK 32
32Kw ord MAIN BLOCK 31
32Kw ord MAIN BLOCK 30
32Kw ord MAIN BLOCK 29
32Kw ord MAIN BLOCK 28
32Kw ord MAIN BLOCK 27
32Kw ord MAIN BLOCK 26
32Kw ord MAIN BLOCK 25
32Kw ord MAIN BLOCK 24
32Kw ord MAIN BLOCK 23
32Kw ord MAIN BLOCK 22
32Kw ord MAIN BLOCK 21
32Kw ord MAIN BLOCK 20
32Kw ord MAIN BLOCK 19
32Kw ord MAIN BLOCK 18
32Kw ord MAIN BLOCK 17
32Kw ord MAIN BLOCK16
32Kw ord MAIN BLOCK 15
32Kw ord MAIN BLOCK 14
32Kw ord MAIN BLOCK 13
32Kw ord MAIN BLOCK 12
32Kw ord MAIN BLOCK 11
32Kw ord MAIN BLOCK 10
32Kw ord MAIN BLOCK 9
32Kw ord MAIN BLOCK 8
32Kw ord MAIN BLOCK 7
32Kw ord MAIN BLOCK 6
32Kw ord MAIN BLOCK 5
32Kw ord MAIN BLOCK 4
32Kw ord MAIN BLOCK 3
32Kw ord MAIN BLOCK 2
32Kw ord MAIN BLOCK 1
32Kw ord MAIN BLOCK 0
3E0000H3EFFFFH
3D0000H3DFFFFH
3C0000H3CFFFFH
3B0000H3BFFFFH
3A0000H3AFFFFH
390000H39FFFFH
380000H38FFFFH
370000H37FFFFH
1F0000H1F7FFFH
1E8000H1EFFFFH
1E0000H1E7FFFH
1D8000H1DFFFFH
1D0000H1D7FFFH
1C8000H1CFFFFH
1C0000H1C7FFFH
1B8000H1BFFFFH
360000H36FFFFH
350000H35FFFFH
340000H34FFFFH
330000H33FFFFH
320000H32FFFFH
310000H31FFFFH
300000H30FFFFH
2F0000H2FFFFFH
2E0000H2EFFFFH
2D0000H2DFFFFH
2C0000H2CFFFFH
2B0000H2BFFFFH
2A0000H2AFFFFH
290000H29FFFFH
280000H28FFFFH
270000H27FFFFH
260000H26FFFFH
250000H25FFFFH
240000H24FFFFH
A20-A-1 (Byte
Mode)
1B0000H1B7FFFH
1A8000H1AFFFFH
1A0000H1A7FFFH
198000H19FFFFH
190000H197FFFH
188000H18FFFFH
180000H187FFFH
178000H17FFFFH
170000H177FFFH
168000H16FFFFH
160000H167FFFH
158000H15FFFFH
150000H157FFFH
148000H14FFFFH
140000H147FFFH
138000H13FFFFH
130000H137FFFH
128000H12FFFFH
120000H127FFFH
A20-A0 (Word
Mode)
4Kw ord BOOT BLOCK 70
4Kw ord BOOT BLOCK 69
4Kword PARAMETER BLOCK 68
4Kword PARAMETER BLOCK 67
4Kword PARAMETER BLOCK 66
4Kword PARAMETER BLOCK 65
4Kword PARAMETER BLOCK 64
4Kword PARAMETER BLOCK 63
32Kw ord MAIN BLOCK 62
32Kw ord MAIN BLOCK 61
32Kw ord MAIN BLOCK 60
32Kw ord MAIN BLOCK 59
32Kw ord MAIN BLOCK 58
32Kw ord MAIN BLOCK 57
32Kw ord MAIN BLOCK 56
32Kw ord MAIN BLOCK 55
32Kw ord MAIN BLOCK 54
32Kw ord MAIN BLOCK 53
32Kw ord MAIN BLOCK 52
32Kw ord MAIN BLOCK 51
32Kw ord MAIN BLOCK 50
32Kw ord MAIN BLOCK 49
32Kw ord MAIN BLOCK 48
32Kw ord MAIN BLOCK 47
32Kw ord MAIN BLOCK46
32Kw ord MAIN BLOCK 45
32Kw ord MAIN BLOCK 44
32Kw ord MAIN BLOCK 43
32Kw ord MAIN BLOCK 42
32Kw ord MAIN BLOCK 41
BANK(III)
1E0000H1EFFFFH
1D0000H1DFFFFH
1C0000H1CFFFFH
1B0000H1BFFFFH
1A0000H1AFFFFH
190000H19FFFFH
180000H18FFFFH
170000H17FFFFH
160000H16FFFFH
150000H15FFFFH
140000H14FFFFH
32Kw ord MAIN BLOCK 35
x16 (Word
Mode)
1FF000H1FFFFFH
1FE000H1FEFFFH
1FD000H1FDFFFH
1FC000H1FCFFFH
1FB000H1FBFFFH
1FA000H1FAFFFH
1F9000H1F9FFFH
1F8000H1F8FFFH
BANK(II)
118000H11FFFFH
110000H117FFFH
108000H10FFFFH
100000H107FFFH
F8000HFFFFFH
x8 (Byte
Mode)
3FE000H3FFFFFH
3FC000H3FDFFFH
3FA000H3FBFFFH
3F8000H3F9FFFH
3F6000H3F7FFFH
3F4000H3F5FFFH
3F2000H3F3FFFH
3F0000H3F1FFFH
BANK(I)
230000H23FFFFH
220000H22FFFFH
210000H21FFFFH
200000H20FFFFH
1F0000H1FFFFFH
32M-bit DINOR(IV) Flash Memory Map (Top Boot)
BANK(IV)
x16 (Word
Mode)
BANK(III)
9
x8 (Byte
Mode)
32Kw ord MAIN BLOCK 40
32Kw ord MAIN BLOCK 39
32Kw ord MAIN BLOCK 38
32Kw ord MAIN BLOCK 37
32Kw ord MAIN BLOCK 36
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Bus Operation
BYTE#=VIH
Pins
CE#
OE#
WE#
RP#
DQ0-15
RY/BY#
Array
VIL
VIL
VIH
VIH
Data Output
VOH(Hi-Z)
Page
VIL
VIL
VIH
VIH
Data Output
VOH(Hi-Z)
Status Register
VIL
VIL
VIH
VIH
Status Register Data
Mode
Read
VIL
VIL
VIH
VIH
Identifier Code
X2)
VOH(Hi-Z)
VIL
VIH
VIH
VIH
High-Z
X2)
Program
VIL
VIH
VIL
VIH
Command/Data in
X2)
Erase
VIL
VIH
VIL
VIH
Command
X2)
Others
VIL
VIH
VIL
VIH
Command
X2)
VIH
X1)
X1)
VIH
High-Z
1)
1)
1)
Identifier Code
Output Disable
Write
Stand by
Deep Power Down
X
X
X
VIL
High-Z
X2)
VOH(Hi-Z)
CE#
OE#
WE#
RP#
DQ0-7
RY/BY#
BYTE#=VIL
Pins
Mode
Read
Array
VIL
VIL
VIH
VIH
Data Output
VOH(Hi-Z)
Page
VIL
VIL
VIH
VIH
Data Output
VOH(Hi-Z)
Status Register
VIL
VIL
VIH
VIH
Status Register Data
VIL
VIL
VIH
VIH
Identifier Code
X2)
VOH(Hi-Z)
VIL
VIH
VIH
VIH
High-Z
X2)
Program
VIL
VIH
VIL
VIH
Command/Data in
X2)
Erase
VIL
VIH
VIL
VIH
Command
X2)
Others
VIL
VIH
VIL
VIH
Command
X2)
VIH
X1)
X1)
VIH
High-Z
1)
1)
1)
VIL
High-Z
X2)
VOH(Hi-Z)
Identifier Code
Output Disable
Write
Stand by
Deep Power Down
X
1)
X can be VIH or VIL for control pins.
2)
X at RY/BY# is VOL or VOH (Hi-Z).
X
X
*The RY/BY# is an open drain output pin and indicates status of the internal WSM. When low, it indicates that
WSM is Busy performing an operation.
A pull-up resistor of 10K-100K Ohms is required to allow the RY/BY# signal to transition high indicating a Ready
WSM condition.
10
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Software Command Definition
Command List (WP# =VIH or VIL)
1st Bus Cycle
Command
1)
Mode Address
Read Array
Page Read
Write
Write
Data
(DQ0-15),(DQ0-7)
X
X
FFH
F3H
Write
Write
2)
Bank
Bank2)
90H
70H
Suspend
Write
Write
X
Bank2)
50H
B0H
Resume
Write
Bank
2)
D0H
Device Identifier
Read Status Register
Clear Status Register
3rd-5th Bus Cycles (Word mode)
3rd-9th Bus Cycles (Byte mode)
2nd Bus Cycle
Mode
Address
A20-A18
A0
5)
Read
SA
Read
Read
2)
Data
(DQ0-15),(DQ0-7)
RD0 5)
3)
Bank
IA
Bank2)
Mode Address
Read
SA+i6)
Data
(DQ0-15),(DQ0-7)
RDi6)
3)
ID
SRD 4)
1) In the case of Word mode(BYTE#=VIH), upper byte data (DQ15-DQ8) is ignored.
2) Bank=Bank address (Bank(I)-Bank(IV): A20-18)
3) IA=ID code address: A0=VIL (Manufacturer’s code): A0=VIH (Device code), ID=ID code
4) SRD=Status Register Data
5) SA=A20-A2: Page Address, A1, A0(A1-A-1):voluntary address / RD0=1st Page read data
6) SA+i: Page address(is equal to 1st Page Address of A20-A2), A1,A0(A1-A-1): voluntary address / RDi: 2nd Page read data
Command List (WP# =VIH)
1st Bus Cycle
Command
Mode Address
Word Program
Page Program
2)
3rd-129th Bus Cycles (Word mode)
3rd-257th Bus Cycles (Byte mode)
2nd Bus Cycle
Data 1)
(DQ0-15),(DQ0-7)
Mode
Address
40H
41H
Write
Write
WA
WA0 4)
Data 1)
(DQ0-15),(DQ0-7)
3)
WD
WD04)
5)
1)
Bank
Bank2)
Page Buffer to Flash
Block Erase/Confirm
Write
Write
2)
Bank
Bank2)
0EH
20H
Write
Write
WA
BA6)
D0H
D0H1)
Erase All Unlocked Blocks
Clear Page Buffer
Write
Write
X
X
A7H
55H
Write
Write
X
X
D0H
D0H1)
Single Data Load to Page Buffer
Write
Write
Bank
Bank2)
74H
F1H
Write
Write
WA
RA7)
Flash to Page Buffer
Data 1)
(DQ0-15),(DQ0-7)
3)
Write
Write
2)
Mode Address
Write
WAn 4)
WDn4)
1)
3)
3)
WD
D0H1)
1) In the case of Word mode(BYTE#=VIH),Upper byte data (DQ15-DQ8) is ignored.
2) Bank=Bank address (Bank(I)-Bank(IV): A20-A18)
3) WA=Write Address, WD=Write Data
4) WA0, WAn=Write Address, WD0, WDn=Write Data.
Word mode (BYTE#=VIH) : Write address and write data must be provided sequentially from 00H to 7FH for A6-A0.
Page size is 128 words (128-word x 16-bit), and also A20-A7 (block address, page address) must be valid.
Byte mode (BYTE#=VIL) : Write address and write data must be provided sequentially from 00H to FFH for A6-A-1.
Page size is 256 Bytes (256-byte x 8-bit), and also A20-A7 (block address, page address) must be valid.
5) WA=Write Address: A20-A7 (block address, page address) must be valid.
6) BA=Block Address : A20-A12[Bank(I)], A20-A15 [Bank(II), Bank(III), Bank(IV)] must be valid.
7) RA=Read Address: A20-A7 (block address, page address) must be valid.
11
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Software Command Definition
Command List (WP# =VIL)
Software lock release operation needs following consecutive 7bus cycles.Moreover, additional 127(255) bus cycles are
needed for page program operation.
Setup Command for
Software Lock Release
Word/Byte Program
Page Program
Page Buffer to Flash
Block Erase/Confirm
Clear Page Buffer
Single Data Load to Page Buffer
Flash to Page Buffer
Setup Command for
Software Lock Release
1st Bus Cycle
2nd Bus Cycle
1)
Data
Mode Address
(DQ0-15/DQ0-7)
Mode
Address
Data1)
(DQ0-15/DQ0-7)
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Bank
Bank
Bank
Bank
Bank
Bank
Bank
Block6)
Block6)
Block6)
Block6)
Block6)
Block6)
Block6)
Bank
Bank
Bank
Bank
Bank
Bank
Bank
60H
60H
60H
60H
60H
60H
60H
4th Bus Cycle
1)
Data
Mode Address
(DQ0-15/DQ0-7)
Mode
Write
Write
Write
Bank
Bank
Bank
Block#6)
Block#6)
Block#6)
Write
Write
Bank
Bank
7BH
7BH
Write
Bank
7BH
Block Erase/Confirm
Write
Bank
Block#6)
Write
Bank
7BH
Clear Page Buffer
Write
Bank
Block#6)
Write
Bank
7BH
Single Data Load to Page Buffer
Write
Write
Bank
Bank
Block#6)
6)
Block#
Write
Write
Bank
Bank
7BH
7BH
Setup Command for
Program or Erase Operations
6th Bus Cycle
7th Bus Cycle
1)
Mode Address
Write
Bank
ACH
Write
Write
Bank
Bank
ACH
ACH
Write
Write
Bank
Bank
ACH
ACH
Write
Write
Bank
Bank
ACH
ACH
5th Bus Cycle
Data1)
Address
(DQ0-15/DQ0-7)
Word/Byte Program
Page Program
Page Buffer to Flash
Flash to Page Buffer
3rd Bus Cycle
Data1)
Mode Address
(DQ0-15/DQ0-7)
Data
(DQ0-15/DQ0-7)
Mode
Address
Data
(DQ0-15/DQ0-7)
Word/Byte Program
Page Program
Page Buffer to Flash
Block Erase/Confirm
Write
Write
Write
Write
Bank
Bank
Bank
Bank
40H
41H
0EH
20H
Write
Write
Write
Write
WA2)
WA03)
4)
WA
BA5)
WD2)
WD03)
1)
D0H
D0H1)
Clear Page Buffer
Single Data Load to Page Buffer
Write
Write
X
Bank
55H
74H
Write
Write
X
WA2)
D0H1)
WD2)
Flash to Page Buffer
Write
Bank
F1H
Write
RA7)
D0H1)
8th-134th Bus Cycles(Word mode)
8th-262th Bus Cycles(Byte mode)
Mode Address
Write
Data
(DQ0-15/DQ0-7)
WAn3)
WDn3)
1) In the case of word mode(BYTE#=VIH) upper byte data (DQ15-DQ8) is ignored.
2) WA=Write Address, WD=Write Data
3) WA0, WAn=Write Address, WD0, WDn=Write Data. Write address and write data must be provided sequentially
from 00H to 7FH for A6-A0(word mode) and from 00H to FFH for A6-A-1(byte mode), respectively.
Page size is 128 words (128-word x 16-bit/ word mode) or Page size is 256 bytes (256-word x 8-bit/ byte mode),
and also A20-A7 (block address, page address) must be valid.
4) WA=Write Address: A20-A7 (block address, page address) must be valid.
5) BA=Block Address : A20-A12[Bank(I)], A20-A15 [Bank(II), Bank(III), Bank(IV)]
6) Block=Block Address: A20-A15, Block#=A20#-A15# must be valid.
Address
Block
Block#
DQ7
fixed 0
fixed 0
DQ6
fixed 0
fixed 0
DQ5
A20
A20#
DQ4
A19
A19#
DQ3
A18
A18#
DQ2
A17
A17#
DQ1
A16
A16#
DQ0
A15
A15#
7) RA=Read Address: A20-A7 (block address, page address) must be valid.
12
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Block Locking
RP#
WP#
VIL
VIH
Write Protection Provided
Bank(I)
Bank(II)
Bank(III)
Parameter/Main
Main
Main
Locked
Locked
Locked
X
Boot
Locked
VIL
Locked
Locked
Locked
Locked
VIH
Unlocked
Unlocked
Unlocked
Unlocked
Notes
Bank(IV)
Main
Locked
Locked
Deep Power Down Mode
All Blocks Locked(Valid to operate
Softw are Lock Release)
Unlocked All Blocks Unlocked
WP# pin must not be switched during performing Read / Write operations or WSM busy (WSMS=0).
Status Register
Symbol
(I/O Pin)
S.R. 7
S.R. 6
S.R. 5
S.R. 4
S.R. 3
S.R. 2
S.R. 1
S.R. 0
13
(DQ7)
(DQ6)
(DQ5)
(DQ4)
(DQ3)
(DQ2)
(DQ1)
(DQ0)
Definition
Status
Write State Machine Status
Suspend Status
Erase Status
Program Status
Block Status after Erase
Reserved
Reserved
Reserved
"1"
"0"
Ready
Suspended
Error
Error
Error
-
Bus y
Operation in Progress/Completed
Successful
Successful
Successful
-
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Device ID Code
Pins
Code
Manufacturer Code
Device Code (Top Boot)
Device Code (Bottom Boot)
A0
DQ7
DQ6
DQ5
DQ4
DQ3
DQ2
DQ1
DQ0
Hex. Data
VIL
VIH
VIH
"0"
"0"
"0"
"0"
"0"
"0"
"0"
"1"
"1"
"1"
"1"
"1"
"1"
"1"
"1"
"1"
"0"
"0"
"0"
"0"
"0"
"0"
"0"
"1"
1CH
38H
39H
In the case of word mode,The output of upper byte data (DQ15-DQ8) is “0H”.
Absolute Maximum Ratings
Symbol
Parameter
VCC
VCC Voltage
VI1
Ta
Tbs
Tstg
Iout
All Input or Output Voltage1)
Ambient Temperature
Temperature under Bias
Storage Temperature
Output Short Circuit Current
Conditions
With Respect to GND
Min.
Max.
Units
-0.2
4.6
V
-0.6
-40
-50
-65
4.6
85
95
125
100
V
°C
°C
°C
mA
1)Minimum DC voltage is –0.5V on input / output pins. During transitions, the level may undershoot to –2.0V for periods
<20ns. Maximum DC voltage on input / output pins is VCC+0.5V which, during transitions, may overshoot to VCC+1.5V
for periods <20ns.
DC electrical characteristics
Symbol
Parameter
ILI
Input Leakage Current
ILO
Output Leakage Current
ISB2
VCC Stand by Current
ISB3
ISB4
ICC1
(Ta= -40 ~85 °C and Flash VCC=3.0V~3.6V, unless otherwise noted)
VCC Deep Power Down Current
VCC Read Current for Word / byte
ICC1P VCC Page Read Current
Test Conditions
0V< VIN< VCC
0V< VOUT< VCC
VCC= 3.6V, VIN= GND/VCC, CE#= RP#= VCC
±0.3V
VCC= 3.6V, VIN= VIL/VIH, RP#= VIL
VCC= 3.6V, VIN= GND or VCC, RP#= GND±
0.3V
Vcc = 3.6V, VIN = VIL/VIH, RP# = OE# =
WE# = VIH, CE# =VIL, Iout = 0mA
Vcc = 3.6V, VIN = VIL/VIH, RP# = OE# =
WE# =VIH, CE# = VIL, Iout = 0mA
Min.
-1.0
Limits
Typ.1)
-10
Max.
+1.0
Units
µA
+10
µA
0.1
6
µA
5
25
µA
0.1
6
µA
5MHz
20
30
mA
1MHz
4
8
mA
5MHz
5
10
mA
ICC2
VCC Write Current for Word / byte
Vcc = 3.6V, VIN = VIL/VIH, RP# = OE# = VIH, CE# =
WE# = VIL
15
mA
ICC3
VCC Program Current
VCC = 3.6V, VIN = VIL/VIH, CE#= RP# = VIH
35
mA
ICC4
VCC Erase Current
VCC = 3.6V, VIN = VIL/VIH, CE#= RP# = VIH
35
mA
ICC5
VCC Suspend Current
VCC = 3.6V, VIN = VIL/VIH, CE#= RP# = VIH
200
µA
VIL
VIH
VOL
VOH1
VOH2
VLKO
Input Low Voltage
Input High Voltage
Output Low Voltage
0.4
VCC+0.5
0.45
V
V
V
V
V
V
Output High Voltage
Low VCC Lock Out Voltage2)
-0.5
2.4
IOL = 4.0mA
IOH = -2.0mA
IOH = -100uA
0.85xVCC
VCC-0.4
1.5
2.2
All currents are in RMS unless otherwise noted.
1) Typical values at Flash VCC=3.3V, Ta=25 °C.
2) To protect against initiation of write cycle during Flash VCC power up / down, a write cycle is locked out for Flash VCC less than VLKO.
If Flash VCC is less than VLKO, Write State Machine is reset to read mode. When the Write State Machine is in Busy state, if Flash
VCC is less than VLKO, the alteration of memory contents may occur.
14
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC electrical characteristics
(Ta=-40 ~85 °C and Flash VCC=3.0V~3.6V, unless otherwise noted)
Read Only Mode
Limits
Symbol
tRC
ta(AD)
ta(CE)
ta(OE)
ta(PAD)
tCEPH
tCLZ
tDF(CE)
tOLZ
tDF(OE)
tPHZ
ta(BYTE)
tBHZ
tOH
tBCD
tBAD
tOEH
tPS
tAVAV
tAVQV
tELQV
tGLQV
tELQX
tEHQZ
tGLQX
tGHQZ
tPLQZ
tFL/HQV
tFLQZ
tOH
tELFL/H
tAVFL/H
tWHGL
tPHEL
Parameter
Read Cycle Time
Address Access Time
Chip Enable Access Time
Output Enable Access Time
Page Read Access Time (after 2nd access)
CE# "H"Pulse width
Chip Enable to Output in Low-Z
Chip Enable High to Output in High-Z
Output Enable to Output in Low-Z
Output Enable to High to Output in High-Z
RP# Low to Output High-Z
BYTE# access time
BYTE# low to output high-Z
Output Hold from CE#, OE# and Address
CE# low to BYTE# high or low
Address to BYTE# high or low
OE# Hold from WE# High
RP# Recovery to CE# Low
Units
Flash VCC=3.0-3.6V
Min.
70
Typ.
Max.
70
70
30
25
30
0
25
0
25
150
70
25
0
5
5
10
150
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
-Timing measurements are made under AC waveforms for read operations.
15
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC electrical characteristics
(Ta=-40 ~85 °C and Flash VCC=3.0V~3.6V, unless otherwise noted)
Read / Write Mode (WE# control)
Symbol
tWC
tAS
tAH
tDS
tDH
tOEH
tCS
tCH
tWP
tWPH
tBS
tBH
tGHWL
tBLS
tBLH
tDAP
tDAP
tDAP
tDAE
tWHRL
tPS
tAVAV
tAVWH
tWHAX
tDVWH
tWHDX
tWHGL
tELWL
tWHEH
tWLWH
tWHWL
tFL/HWH
tWFL/H
tGHWL
tPHHWH
tQVPH
tWHRH1
tWHRH1
tWHRH1
tWHRH2
tWHRL
tPHWL
Parameter
Write Cycle Time
Address Setup Time
Address Hold Time
Data Setup Time
Data Hold Time
OE# Hold from WE# High
Chip Enable Setup Time
Chip Enable Hold Time
Write Pulse Width
Write Pulse Width High
Byte enable high or low set-up time
Byte enable high or low hold time
OE# Hold to WE# Low
Block Lock Setup to Write Enable High
Block Lock Hold from Valid SRD
Duration of Auto Program Operation(Byte Mode)
Duration of Auto Program Operation(Word Mode)
Duration of Auto Program Operation(Page Mode)
Duration of Auto Block Erase Operation
Write Enable High to RY/BY# Low
RP# Recovery to WE# Low
Limits
Flash VCC=3.0-3.6V
Min.
Typ.
Max.
70
35
0
35
0
10
0
0
35
30
50
70
0
70
0
30
300
30
300
4
80
150
600
70
150
Units
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
µs
µs
ms
ms
ns
ns
-Read timing parameters during command write operations mode are the same as during read only operation mode.
-Typical values at Flash VCC=3.3V and Ta=25 °C.
Read / Write Mode (CE# control)
Limits
Symbol
Parameter
Min.
tWC
tAS
tAH
tDS
tDH
tOEH
tWS
tWH
tCEP
tCEPH
tBS
tBH
tGHEL
tBLS
tBLH
tDAP
tDAP
tDAP
tDAE
tEHRL
tPS
tAVAV
tAVEH
tEHAX
tDVEH
tEHDX
tEHGL
tWLEL
tEHWH
tELEH
tEHEL
tFL/HEH
tEHFL/H
tGHEL
tPHHEH
tQVPH
tEHRH1
tEHRH1
tEHRH1
tEHRH2
tEHRL
tPHEL
Write Cycle Time
Address Setup Time
Address Hold Time
Data Setup Time
Data Hold Time
OE# Hold from CE# High
Write Enable Setup Time
Write Enable Hold Time
CE# Pulse Width
CE#"H" Pulse Width
Byte enable high or low set-up time
Byte enable high or low hold time
OE# Hold to CE# Low
Block Lock Setup to Chip Enable High
Block Lock Hold from Valid SRD
Duration of Auto Program Operation(Byte Mode)
Duration of Auto Program Operation(Word Mode)
Duration of Auto Program Operation(Page Mode)
Duration of Auto Block Erase Operation
CE# High to RY/BY# Low
RP# Recovery to CE# Low
Units
Flash VCC=3.0-3.6V
Typ.
Max.
70
35
0
35
0
10
0
0
35
30
50
70
70
70
0
30
30
4
150
150
300
300
80
600
70
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
µs
µs
ms
ms
ns
ns
-Timing measurements are made under AC waveforms for read operations.
-Typical values at Flash VCC=3.3V and Ta=25 °C.
16
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Program / Erase Time
Parameter
Min.
Block Erase Time
Main Block Write Time (Byte Mode)
Main Block Write Time (Word Mode)
Page Write Time
Flash to Page Buffer Time
Typ.
Max.
Units
150
2
1
4
100
600
8
4
80
150
ms
sec
sec
ms
µs
Program Suspend / Erase Suspend Time
Parameter
Min.
Typ.
Program Susupend Time
Erase Susupend Time
Max.
Unit
15
15
µs
µs
Min.
2
Typ.
Flash VCC Power Up / Down Timing
symbol
tVCS
Parameter
RP#=VIH Setup Time from Flash VCC min.
Max.
Unit
µs
During power up / down, by the noise pulses on control pins, the device has possibility of accidental erase of programming.
The device must be protected against initiation of write cycle for memory contents during power up / down. The delay time
of min. 2 µsec is always required before read operation or write operation is initiated from the time Flash VCC reaches
Flash VCC min. during power up /down. By holding RP#=VIL, the contents of memory is protected during Flash VCC
power up / down. During power up, RP# must be held VIL for min. 2µs from the time Flash VCC reaches Flash VCC min..
During power down, RP# must be held VIL until Flash VCC reaches GND. RP# doesn’t have latch mode, therefore RP#
must be held VIH during read operation or erase / program operation.
17
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Flash VCC Power up / down Timing
Read /Write Inhibit
Read /Write Inhibit
Read /Write Inhibit
3.3V
V CC
GND
RP#
CE#
WE#
tVCS
V IH
V IL
V IH
tPS
V IL
tPS
V IH
V IL
AC Waveforms for Read Operation and Test Conditions
tRC
A20 -A0 (WORD) V IH
A20 -A-1 (BYTE)
Address Valid
V IL
CE#
OE#
V IH
Input Voltage : VIL=0V, V IH=Vcc
Input Rise and Fall Times : <5ns
Reference Voltage
at timing measurement : (Vcc)/2
Output Load : 1 TTL gate +
CL(30pF)
or
ta(AD)
V IH
V IL
TEST CONDITIONS
FOR AC CHARACTERISTICS
tDF(CE)
tCEPH
V IL
ta(CE)
tOEH
tDF(OE)
V IH
WE#
V IL
V OH
DATA
1.3V
VO
High-Z
tCLZ
FFH
ta(OE)
tOLZ
tOH
V IH
RP#
High-Z
Output Valid
tPS
1N914
tPHZ
3.3kohm
DUT
V IL
CL=30pF
CL=30pF
- After inputting Read Array Command FFH, it is necessary to make CE# “H” pulse more than 30ns (tCEPH).
And after inputting Read Array Command FFH, it is also necessary to keep 30ns to recover before starting read
after WE# rises “H” in case of changing address(es) and CE#=“L”.
18
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC waveforms for Page Read Operation
Address
A20 - A2
VIH
A1 - A0(WORD)
A1 - A-1(BYTE)
VIH
Page Address Valid
VIL
Address Valid (Voluntary Address)
CE#
OE#
WE#
DATA
1st Address
VIL
VIH
VIL
VIH
2nd
ta(OE)
Nth
~
ta(OE)
tCEPH
VIL
VIH
ta(AD)
VIL
VIH
VIL
High-Z
ta(PAD)
ta(PAD)
ta(PAD)
ta(CE)
Valid
F3H
Valid
Valid
Valid
- After inputting Page Read Command F3H, it is necessary to make CE# “H” pulse more than 30ns (tCEPH).
And after inputting Page Read Command F3H, it is also necessary to keep 30ns to recover before starting read
after WE# rises “H” in case of changing address(es) and CE#=“L”.
- Once Page Read mode is valid, the mode is kept until RP# is set to VIL or the chip is powered off.
- Word mode(BYTE#=VIH):N=4, Byte mode(BYTE#=VIL):N=8
Byte AC Waveforms for Read Operation
ADDRESS
A20-A0
CE#
OE#
V IH
Address Valid
V IL
ta(AD)
V IH
V IL
tDF(CE)
V IH
tBCD
tBAD
V IL
V IH
BYTE#
V IL
DATA
D7-D0
V OH
DATA
D14-D8
D15/A-1
Address Valid
High-Z
V OL
V OH
ta(CE)
ta(OE)
tOLZ
tCLZ
tDF(OE)
tBAD
tOH
ta(BYTE)
Output Valid
tBHZ
Valid
High-Z
Valid
V OL
V IH
V IL
Valid
ta(BYTE)
ta(AD)
Address Valid
D15
A-1
When BYTE# = VIH, CE# = OE# = VIL, D15/A-1 is output status. At this time, input signal must not be applied.
19
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC Waveforms for Word / Byte Program Operation (WE# Control)
ADDRESS VIH
A20-A0 (Word) V
IL
A20-A -1(Byte)
VIH
CE#
VIL
OE#
WE#
DATA
RP#
WP#
BYTE#
RY/BY#
VIH
Bank Address
Valid
Bank Address Valid
Address Valid
tWC
tAH
tAS
tCS
Program
tCH
tWP
VIL
tWPH
ta(OE)
tOEH
VIL
tDS
High-Z
VIL
VIL
SRD
DIN
FFH
tDH
tDAP
tBLS
VIH
VIH
40H
tPS
VIH
VIL
Write Read Array Command
ta(CE)
VIH
VIH
Read Status Register
tBS
tBH
VIL
VOH
tWHRL
VOL
tBLH
AC Waveforms for Word / Byte Program Operation (CE# Control)
ADDRESS VIH
A20-A0 (Word) V
IL
A20-A -1(Byte)
VIH
CE#
VIL
OE#
WE#
DATA
RP#
WP#
BYTE#
RY/BY#
20
Bank Address Valid
Bank Address Valid
Address Valid
tAH
tAS
tWC
Program
ta(CE)
VIH
VIL
tWS
tCEP
tWH
ta(OE)
VIH
VIL
VIH
High-Z
VIL
VIH
40H
tPS
VIH
VIH
tOEH
tDS
VIL
VIL
Write Read Array Command
Read Status Register
SRD
DIN
FFH
tDH
tDAP
tBLS
tBS
tBH
VIL
VOH
VOL
tEHRL
tBLH
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC Waveforms for Page Program Operation (WE# Control)
The Other Bank
ADDRESS VIH
A20-A7
VIL
A6-A0 (Word) VIH
A6-A -1(Byte) VIL
VIH
CE#
VIL
OE#
WE#
DATA
RP#
WP#
BYTE#
RY/BY#
VIH
Bank Address Valid
Read Status Register Write Read Array Command
00H
00H
tWC
7FH
FFH
ta(CE)
tAH
tCH
tWP
01H-7EH
01H-FEH
Valid
tAS
tCS
VIL
ta(CE)
tWPH
tOEH
VIL
ta(OE)
tOEH
ta(OE) tGHWL
VIH
VIH
Address Valid
Valid
Address Valid
Bank Address Valid
tDH
High-Z
41H
VIL
DOUT
\
tDS
tPS
VIH
DIN
DIN
SRD
DIN
FFH
tDAP
VIL
tBLS
VIH
tBH
VIL
VIH
tBS
VIL
VOH
VOL
tWHRL
tBLH
AC Waveforms for Page Program Operation (CE# Control)
The Other Bank
ADDRESS VIH
A20 - A7
VIL
Bank Address Valid
00H
00H
A6-A -1(Byte) VIL
OE#
WE#
DATA
RP#
WP#
BYTE#
RY/BY#
VIH
tCEPH
7FH
FFH
ta(CE)
ta(CE)
VIL
ta(OE)
tGHEL
tOEH
tOEH
ta(OE)
VIH
VIH
Bank Address Valid
tAH
tWH
tCEP
01H-7EH
01H-FEH
Valid
tAS
tWS
VIL
tDH
High-Z
VIL
41H
tPS
VIH
VIL
DIN
DOUT
DIN
SRD
DIN
FFH
tDS
tDAP
tBLS
VIH
VIL
VIH
tBH
tBS
VIL
VOH
VOL
21
tWC
VIH
VIL
Address Valid
Read Status Register Write Read Array Command
A6-A0 (Word) VIH
CE#
Valid
Address Valid
tEHRL
tBLH
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC Waveforms for Erase Operation (WE# Control)
ADDRESS VIH
A20-A0 (Word) V
IL
A20-A -1(Byte)
VIH
CE#
VIL
OE#
WE#
DATA
RP#
WP#
BYTE#
RY/BY#
VIH
Bank Address Valid
Address Valid
Bank Address Valid
tWC
tAH
tAS
tCS
Erase
tWPH
tWP
ta(OE)
VIH
tOEH
VIL
VIH
Write Read Array command
ta(CE)
tCH
VIL
Read Status Register
tDS
High-Z
VIL
20H
VIL
FFH
tDH
tPS
VIH
SRD
D0H
tDAE
tBLS
tBLH
VIH
VIL
VIH
tBS
tBH
VIL
tWHRL
VOH
VOL
AC Waveforms for Erase Operation (CE# Control)
ADDRESS VIH
A20-A0 (Word)
V
A20-A -1(Byte) IL
VIH
CE#
VIL
OE#
WE#
DATA
RP#
WP#
BYTE#
RY/BY#
Bank Address Valid
Bank Address Valid
Address Valid
tWC
tAH
tAS
Erase
tCEPH
tWS
tCEP
tWH
ta(OE)
VIH
VIL
VIH
VIL
tOEH
tDS
High-Z
tPS
20H
Write Read Array command
ta(CE)
VIH
VIL
Read Status Register
D0H
SRD
FFH
tDH
VIH
VIL
tDAE
tBLS
tBLH
VIH
VIL
VIH
tBS
tBH
VIL
VOH
tEHRL
VOL
22
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC Waveforms for Word / Byte Program Operation with BGO (WE# Control)
Program in one bank
ADDRESS VIH
A20 - A7 VIL
Bank Address
Valid
A6-A0 (Word) VIH
OE#
WE#
DATA
RY/BY#
VIH
tAH
tAS
tWC
VIH
VIL
Address Valid
Address Valid
A6-A -1(Byte) VIL
CE#
Change Bank Address
Read Array in another bank
Read Status Register
tCS
tWP
Address
Valid
Address
Valid
Address
Valid
Program
tOEH
tCH
VIL
Address
Valid
ta(CE)
tWPH
ta(OE)
VIH
VIL
VIH
tWHRL
tDS
High-Z
40H
VIL
DIN
DOUT
DOUT
tDH
VOH
VOL
AC Waveforms for Word / Byte Program Operation with BGO (CE# Control)
Program in one bank
ADDRESS VIH
A20 - A7 VIL
Bank Address
Valid
A6-A0 (Word) VIH
OE#
WE#
DATA
RY/BY#
Change Bank Address
Read Array in another bank
Address Valid
Address Valid
A6-A -1(Byte) VIL
CE#
Read Status Register
tWC
VIH
tAH
tAS
tWS
tCEP
VIL
VIH
VIL
VOH
Address
Valid
Address
Valid
ta(CE)
VIH
VIH
Address
Valid
Program
VIL
VIL
Address
Valid
tOEH
tWH
tEHRL
tDS
High-Z
40H
ta(OE)
DIN
DOUT
DOUT
tDH
VOL
23
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC Waveforms for Page Program Operation with BGO (WE# Control)
Change Bank Address
Read Array in another bank
Program in one bank
ADDRESS VIH
A20-A7
VIL
Bank Address
Valid
Address Valid
A6-A0 (Word) VIH
A6-A -1(Byte) V
IL
CE#
OE#
WE#
DATA
RY/BY#
VIH
01H-7EH
7FH
00H
01H-FEH
FFH
tAS
tAH
tWC
VIH
VIL
00H
tCS
tWP
Address
Valid
Address
Valid
Address
Valid
ta(CE)
tOEH
tCH
VIL
Address
Valid
tWPH
ta(OE)
\
VIH
VIL
VIH
tWHRL
tDH
High-Z
VIL
41H
DIN
DIN
DIN
DOUT
DOUT
tDS
VOH
VOL
AC Waveforms for Page Program Operation with BGO (CE# Control)
Change Bank Address
Read Array in another bank
Program in one bank
ADDRESS VIH
A20 - A7
VIL
Bank Address
Valid
A6-A0 (Word) VIH
A6-A -1(Byte) VIL
F-CE#
OE#
WE#
DATA
F-RY/BY#
24
VIL
VIH
00H
01H-7EH
7FH
00H
01H - FEH
FFH
tWC
VIH
VIL
tOEH
tWH
tCEP
Address
Valid
ta(CE)
tAH
tAS
tWS
Address
Valid
Address Valid
ta(OE)
tCEPH
VIH
VIL
VIH
VIL
VOH
tEHRL
tDH
High-Z
41H
DIN
DIN
tDS
DIN
DOUT
DOUT
tDAP
VOL
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC Waveforms for Erase Operation with BGO (WE# Control)
Program in one bank
ADDRESS
V
A20-A0 (Word) IH
A20-A-1 (Byte) VIL
CE#
OE#
WE#
DATA
RY/BY#
Bank Address
Valid
VIL
VIH
tOEH
tCH
tWP
ta(CE)
tWPH
ta(OE)
VIH
VIL
VIH
tWHRL
tDS
High-Z
20H
VIL
Address
Valid
tAH
tAS
tCS
VIL
Address
Valid
Address Valid
tWC
VIH
Change Bank Address
Read Array in another bank
Read Status Register
D0H
DOUT
DOUT
tDH
VOH
VOL
AC Waveforms for Erase Operation with BGO (CE# Control)
Program in one bank
ADDRESS VIH
A20-A0 (Word)
A20-A-1 (Byte) VIL
VIH
CE#
VIL
OE#
WE#
DATA
RY/BY#
25
Bank Address
Valid
tWC
Read Status Register
VIH
tOEH
tWS
tCEP
VIL
VOH
tWH
20H
ta(CE)
ta(OE)
tEHRL
tDS
High-Z
Address
Valid
tAH
tAS
VIL
VIH
Address
Valid
Address Valid
VIH
VIL
Change Bank Address
Read Array in another bank
D0H
DOUT
DOUT
tDH
VOL
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
AC Waveforms for Suspend Operation (WE# Control)
ADDRESS VIH
A20-A0 (Word)
V
A20-A-1 (Byte) IL
VIH
CE#
VIL
OE#
WE#
DATA
RP#
WP#
RY/BY#
VIH
Bank Address Valid
Bank Address Valid
tAH
tAS
tCS
tCH
ta(CE)
tWP
VIL
Read Status Register
tOEH
VIH
VIL
VIH
Suspend Time
High-Z
S.R.6,7=1
SRD
B0H
VIL
ta(OE)
Valid
VIH
VIL
VIH
tBLH
tBLS
VIL
VOH
VOL
AC Waveforms for Suspend Operation (CE# Control)
ADDRESS VIH
A20-A0 (Word)
A20-A-1 (Byte) VIL
VIH
CE#
VIL
OE#
WE#
DATA
RP#
WP#
RY/BY#
26
Bank Address Valid
Bank Address Valid
tAH
tAS
Read Status Register
tOEH
VIH
VIL
VIH
tWS
tCEP
tWH
VIL
VIH
ta(OE)
Suspend Time
High-Z
VIL
B0H
ta(CE)
S.R.6,7=1
SRD
Valid
VIH
VIL
VIH
tBLS
tBLH
VIL
VOH
VOL
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Word / Byte Program Flow Chart
Start
Page Program Flow Chart
Start
Write 40H
Write 41H
Write Address,
Data
n=0
Status Register
Read
Write Address n,
DATA n
NO
SR.7 = 1?
YES
Write
B0H?
NO
n+1
NO
n = 7FH?
n = FFH?
YES
YES
Status Register
Read
Full Status Check
If Desired
Suspend Loop
Write D0H
Word / Byte Program
Completed
NO
SR.7 = 1?
YES
YES
NO
YES
Full Status Check
If Desired
Suspend Loop
Block Erase Flow Chart
Write D0H
Page Program
Completed
Start
Write
B0H?
YES
Write 20H
Status Register Check Flow Chart
Start
Write D0H
Block Address
YES
Command
Sequence Error
NO
Block Erase
Error
NO
Program Error
(Page Program)
NO
Block Erase Error
(Block Fail)
SR.4,5 = 1?
Status Register
Read
NO
SR.5 = 0?
NO
SR.7 = 1?
YES
Full Status Check
If Desired
Erase
Completed
Write
B0H?
YES
NO
YES
SR.4 = 0?
YES
Suspend Loop
Write D0H
YES
SR.3 = 0?
YES
Pass
(Block Erase, Program)
27
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Single Data Load to Page Buffer
Flow Chart
Suspend / Resume Flow Chart
Start
Start
Write 74H
Write B0H
Write Address,
Data
Status Register
Read
NO
Load
Finished?
Suspend
NO
S.R. 7=1?
YES
YES
Single Data Load
To Page Buffer
Completed
NO
S.R. 6=1?
Erase/ Program
Finished
YES
Write FFH
Page Buffer to Flash Flow Chart
Start
Read Array
Data
Write 0EH
Read
Finished?
NO
YES
Write D0H
Resume
Write D0H
Page Address
Operation
Restart
Status Register
Read
Clear Page Buffer Flow Chart
NO
SR.7 = 1?
YES
Full Status Check
If Desired
Write
BOH?
YES
NO
Start
Write 55H
Suspend Loop
Write D0H
Page Buffer
To Flash
Completed
28
Write D0H
YES
Clear Page Buffer
Completed
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Operation Status (WP#=VIH)
Clear
Status Register
50H
Read
Status Register
Read/Standby State
(Random Read Mode)
70H
70H
90H
Read
Device Identifier
Back Bank Read State
(Random Read)
FFH
90H
Read Array
Change Bank
Address
FFH
Read Array
(Random Read)
Others 3)
D0H
Setup State
Clear Page Buffer
Setup
74H
55H
Single Data Load
to Page Buffer
Setup
WD
F1H
D0H
41H
0EH
Flash to
Page Buffer
Page Buffer to
Flash
Setup
Setup
Other
D0H
Page Program
Setup
Wdi
I=0-127
Program &
Verify
Ready
40H
A7H
20H
Word Program
Setup
Block Erase
Setup
WD
Internal State
B0H
B0H
D0H
D0H
Read
Status Register
D0H
Erase All Unlocked
Blocks Setup
D0H
Others
Erase &
Verify
Read
Status Register
Change
Bank Address
Read State with BGO
Read Array
(Random Read)
Read State with BGO
Read Array
(Random Read)
Read
Status Register
Suspend
State
Change
Bank Address
70H
FFH
Read Array
(Random Read)
1) In case of Page Read, F3H is used instead of FFH in Operation Status (WP#=VIH).
2) Once Page Read mode is set, Page Read mode is kept until power off or RP# is set to VIL.
3) After setting up Clear Page Buffer, D0H enables to clear Page Buffer.
4) To access any bank during Erase All Unlocked Block results Status Register Read.
Although Read Status Register Command and Read Array Command can be issued under Suspend State,
output data make no sense.
29
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Operation Status (WP#=VIL)
50H
Clear
Status Register
Read
Status Register
Read/Standby State
(Random Read Mode)
70H
70H
90H
Read
Device Identifier
Back Bank Read State
FFH
90H
Read Array
(Random Read)
Change Bank
Address
WD
Change Bank
Address
Clear Page Buffer
Setup
55H
Single Data Load
to Page Buffer
Setup
Others
3)
BA#
Software Lock
Release Setup
Read Array
Setup State
Others
D0H
D0H
Others 4)
(Random Read)
Read Array
(Random Read)
FFH
7BH
74H
Page Buffer to
Flash
Setup
Setup
Other
D0H
3)
BA
Software Lock
Release Setup
60H
Software Lock
Release Setup
41H
Page Program
Setup
Wdi
I=0-127
Program &
Verify
Ready
Others
ACH Software Lock
Release Setup
Software Lock
Release Setup
0EH
F1H
Flash to
Page Buffer
Others
40H
20H
Word Program
Setup
WD
Block Erase
Setup
D0H
Internal State
B0H
B0H
D0H
D0H
Other
Erase &
Verify
Read
Status Register
Read
Status Register
Change Bank
Address
Read
Status Register
Read State with BGO
Read Array
(Random Read)
Read State with BGO
Read Array
(Random Read)
Suspend
State
70H
FFH
Change Bank
Address
Read Array
(Random Read)
1) In case of Page Read, F3H is used instead of FFH in Operation Status (WP#=VIL).
2) Once Page Read mode is set, Page Read mode is kept until power off or RP# is set to VIL.
3) BA, BA#: Block Address, Block Address# (Shown in Command List(WP#=VIL) in detail).
4) After setting up Clear Page Buffer, D0H enables to clear Page Buffer.
30
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Package Dimension
31
48P3R-C
Rev.1.0_48a_bezz
Renesas LSIs
M5M29KB/T331AVP
33,554,432-BIT (4,194,304-WORD BY 8-BIT /2,097,152-WORD BY 16-BIT)
CMOS 3.3V-ONLY, BLOCK ERASE FLASH MEMORY
Nippon Bldg.,6-2,Otemachi 2-chome,Chiyoda-ku,Tokyo,100-0004 Japan
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New publication, effective April 2003.
Specifications subject to change without notice