MITSUBISHI M6MGT162S2BVP

MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
DESCRIPTION
FEATURES
• Access time
The MITSUBISHI M6MGB/T162S2BVP is a Stacked Multi
Flash Memory
90ns ( Max.)
Chip Package (S-MCP) that contents 16M-bits flash memory
SRAM
85ns (Max.)
and 2M-bits Static RAM in a 48-pin TSOP (TYPE-I).
• Supply voltage
Vcc=2.7 ~ 3.6V
•
Ambient
temperature
16M-bits Flash memory is a 1048576 words, 3.3V-only, and
W version
Ta=-20 ~ 85°C
high performance non-volatile memory fabricated by CMOS
•
Package
:
48-pin
TSOP
(Type-I)
,
0.4mm
lead pitch
technology for the peripheral circuit and DINOR(DIvided
bit-line NOR) architecture for the memory cell.
2M-bits SRAM is a 262144bytes unsynchronous SRAM
fabricated by silicon-gate CMOS technology.
APPLICATION
M6MGB/T162S2BVP is suitable for the application of the
mobile-communication-system to reduce both the mount
space and weight .
Mobile communication products
10.0 mm
PIN CONFIGURATION (TOP VIEW)
A15
A14
A13
A12
A11
A10
A9
A8
A19
S-CE
WE#
F-RP#
F-WP#
S-VCC
F-RY/BY#
A18
A17
A7
A6
A5
A4
A3
A2
A1
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
A16
DQ15
GND
S-A-1
DQ7
DQ14
DQ6
DQ13
DQ5
DQ12
DQ4
F-VCC
DQ11
DQ3
DQ10
DQ2
DQ9
DQ1
DQ8
DQ0
OE#
GND
F-CE#
A0
14.0 mm
F-VCC
S-VCC
GND
S-A-1
A0-A16
A17-A19
DQ0-DQ15
F-CE#
S-CE
OE#
WE#
F-WP#
F-RP#
F-RY/BY#
1
NC:Non Connection
:Vcc for Flash
:Vcc for SRAM
:GND for Flash/SRAM
:Address for SRAM
:Flash/SRAM common Address
:Address for Flash
:Data I/O
:Flash Chip Enable
:SRAM Chip Enable
:Flash/SRAM Output Enable
:Flash/SRAM Write Enable
:Flash Write Protect
:Flash Reset Power Down
:Flash Ready /Busy
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
BLOCK DIAGRAM
16Mb Flash Memory
128 WORD PAGE BUFFER
Main Block
Bank(II)
32KW
F-VCC (3.3V)
28
X-DECODER
GND (0V)
Main Block
Parameter Block7
Parameter Block6
Parameter Block5
Parameter Block4
Parameter Block3
Parameter Block2
Parameter Block1
Boot Block
Bank(I)
ADDRESS
INPUTS
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
32KW
16KW
16KW
16KW
16KW
16KW
16KW
16KW
16KW
Y-GATE / SENSE AMP.
Y-DECODER
STATUS / ID REGISTER
MULTIPLEXER
CHIP ENABLE INPUT
OUTPUT ENABLE INPUT
WRITE ENABLE INPUT
WRITE PROTECT INPUT
RESET/POWER DOWN INPUT
READY/BUSY OUTPUT
F-CE#
OE#
WE#
F-WP#
F-RP#
CUI
WSM
INPUT/OUTPUT
BUFFERS
F-RY/BY#
DQ15 DQ14DQ13 DQ12
2Mb SRAM
DQ3DQ2DQ1DQ0
DATA INPUTS/OUTPUTS
A16
CLOCK
GENERATOR
S-CE
WE#
OUTPUT BUFFER
SENSE AMP.
262144 WORD x
8 BITS
DATAINPUT
BUFFER
A15
ROW DECODER
A0
ADDRESS INPUT BUFFER
S-A-1
DQ 0
DQ 7
S-VCC
GND
OE#
2
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
1. Flash Memory
DESCRIPTION
The Flash Memory of M6MGB/T162S2BVP is 3.3V-only high speed 16,777,216-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. This BGO feature is suitable for mobile and
personal computing, and communication products. The Flash Memory of M6MGB/T162S2BVP is fabricated by CMOS technology for the
peripheral circuits and DINOR(Divided bit line NOR) architecture for the memory cells.
FEATURES
Organization
.................................1048,576 word x 16bit
............................. VCC = 2.7~3.6V
Supply voltage ................................
Access time
.............................. 90ns (Max)
Power Dissipation
................................. 54 mW (Max. at 5MHz)
Read
(After Automatic Power saving) .......... 0.33mW (typ.)
Program/Erase .................................126 mW (Max.)
................................. 0.33mW (typ.)
Standby
Deep power down mode ....................... 0.33mW (typ.)
Auto program for Bank(I)
................................. 4ms (typ.)
Program Time
Program Unit
.........................1word
(Byte Program)
(Page Program) ......................... 128word
Auto program for Bank(II)
................................. 4ms (typ.)
Program Time
................................. 128word
Program Unit
Auto Erase
................................. 40 ms (typ.)
Erase time
Erase Unit
Bank(I) Boot Block ..................... 16Kword x 1
..............
Parameter Block
16Kword x 7
...................... 32Kword x 28
Bank(II) Main Block
Program/Erase cycles
3
Boot Block
M6MGB162S2BVP ........................ Bottom Boot
M6MGT162S2BVP ........................ Top Boot
Other Functions
Soft Ware Command Control
Selective Block Lock
Erase Suspend/Resume
Program Suspend/Resume
Status Register Read
Alternating Back Ground Program/Erase Operation
Between Bank(I) and Bank(II)
.........................................
100Kcycles
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
FUNCTION
The Flash Memory of M6MGB/T162S2BVP includes on-chip
program/erase control circuitry. The Write State Machine (WSM)
controls block erase and byte/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.
A Deep Powerdown mode is enabled when the F-RP# pin is at
GND, minimizing power consumption.
Read
The Flash Memory of M6MGB/T162S2BVP has three read modes,
which accesses to the memory array, the Device Identifier and the
Status Register. The appropriate read command are required to
be written to the CUI. Upon initial device powerup or after exit
from deep powerdown, the Flash Memory automatically resets to
read array mode. In the read array mode, low level input to F-CE#
and OE#, high level input to WE# and F-RP#, and address signals
to the address inputs (A19-A0) output the data of the addressed
location to the data input/output ( D15-D0).
Deep Power-Down
When F-RP# is at VIL, the device is in the deep powerdown
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 powerdown, the CUI is reset to Read Array , and
the Status Register is cleared to value 80H.
During block erase or program modes, F-RP# low will abort
either operation. Memory array data of the block being altered
become invalid.
Automatic Power-Saving (APS)
The Automatic Power-Saving minimizes the power
consumption during read mode. The device automatically
turns to this mode when any addresses or F-CE# isn't
changed more than 200ns after the last alternation. The
power consumption becomes the same as the stand-by
mode. While in this mode, the output data is latched and can
be read out. New data is read out correctly when addresses
are changed.
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, while F-CE# is at low level and OE# is
at high level. Address and data are latched on the earlier rising
edge of WE# and F-CE#. Standard micro-processor write timings
are used.
Alternating Background Operation (BGO)
The Flash Memory of M6MGB/T162S2BVP 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. Read array 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.
Output Disable
When OE# is at VIH, output from the devices is disabled. Data
input/output are in a high-impedance(High-Z) state.
Standby
When F-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 consume normal active power
until the operation completes.
4
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
SOFTWARE COMMAND DEFINITIONS
The device operations are selected by writing specific software
command into the Command User Interface.
Read Array Command (FFH)
The device is in Read Array mode on initial device power up and
after exit from deep powerdown, 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)
It 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 address 0000H and 0001H,
respectively.
Read Status Register Command (70H)
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.
The contents of Status Register are latched on the later falling
edge of OE# or F-CE#. So F-CE# or OE# must be toggled every
status read.
Clear Status Register Command (50H)
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 indicates various
failure conditions.
C)Single Data Load to Page Buffer (74H)
/ Page Buffer to Flash (0EH/D0H)
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 programed simultaneously
by writing Page Buffer to Flash command of 0EH followed by the
confirm command of D0H. After completion of programing the
data on the page buffer is cleared automatically.
This command is valid for only Bank(I) alike Word Program.
Clear Page Buffer Command (55H)
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.
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.
DATA PROTECTION
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.
Program Commands
A)Word/Byte Program (40H)
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. The Word/Byte Program
Command is Valid for only Bank(I).
B)Page Program for Data Blocks (41H)
Page Program for Bank(I) and Bank(II) allows fast programming of
128words/256bytes of data. Writing of 41H initiates the page
program operation for the Data area. From 2nd cycle to 129th
cycle, write data must be serially inputted. Address A6-A0 have to
be incremented from 00H to 7FH. After completion of data loading,
the WSM controls the program pulse application and verify
operation.
5
The Flash Memory of M6MGB/T162S2BVP provides selectable
block locking of memory blocks. Each block has an associated
nonvolatile lock-bit which determines the lock status of the block.
In addition, the Flash Memory has a master Write Protect pin
(F-WP#) which prevents any modifications to memory blocks
whose lock-bits are set to "0", when F-WP# is low. When F-WP#
is high, all blocks can be programmed or erased regardless of
the state of the lock-bits, and the lock-bits are cleared to "1" by
erase. See the BLOCK LOCKING table on P.9 for details.
Power Supply Voltage
When the power supply voltage (F-VCC) is less than VLKO, Low
V CC Lock-Out voltage, the device is set to the Read-only mode.
Regarding DC electrical characteristics of VLKO, see P.10.
A delay time of 2 us is required before any device operation is
initiated. The delay time is measured from the time F-Vcc reaches
F-Vccmin (2.7V).
During power up, F-RP#=GND is recommended. Falling in Busy
status is not recommended for possibility of damaging the device.
MEMORY ORGANIZATION
The Flash Memory of M6MGB/T162S2BVP has one 16Kword boot
block, seven 16Kword parameter blocks, for Bank(I) and
twenty-eight 32Kword main blocks for Bank(II). A block is erased
independently of other blocks in the array.
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
MEMORY ORGANIZATION
F0000H-F7FFFH
32Kword MAIN BLOCK 34
F8000H-FBFFFH 16Kword PARAMETER BLOCK 34
E8000H-EFFFFH
32Kword MAIN BLOCK 33
F4000H-F7FFFH 16Kword PARAMETER BLOCK 33
E0000H-E7FFFH
32Kword MAIN BLOCK 32
F0000H-F3FFFH 16Kword PARAMETER BLOCK 32
D8000H-DFFFFH
32Kword MAIN BLOCK 31
EC000H-EFFFFH 16Kword PARAMETER BLOCK 31
D0000H-D7FFFH
32Kword MAIN BLOCK 30
E8000H-EBFFFH 16Kword PARAMETER BLOCK 30
C8000H-CFFFFH
32Kword MAIN BLOCK 29
E4000H-E7FFFH 16Kword PARAMETER BLOCK 29
C0000H-C7FFFH
32Kword MAIN BLOCK 28
E0000H-E3FFFH 16Kword PARAMETER BLOCK 28
B8000H-BFFFFH
32Kword MAIN BLOCK 27
D8000H-DFFFFH
32Kword MAIN BLOCK 27
B0000H-B7FFFH
32Kword MAIN BLOCK 26
D0000H-D7FFFH
32Kword MAIN BLOCK 26
A8000H-AFFFFH
32Kword MAIN BLOCK 25
C8000H-CFFFFH
32Kword MAIN BLOCK 25
A0000H-A7FFFH
32Kword MAIN BLOCK 24
C0000H-C7FFFH
32Kword MAIN BLOCK 24
98000H-9FFFFH
32Kword MAIN BLOCK 23
B8000H-BFFFFH
32Kword MAIN BLOCK 23
90000H-97FFFH
32Kword MAIN BLOCK 22
B0000H-B7FFFH
32Kword MAIN BLOCK 22
88000H-8FFFFH
32Kword MAIN BLOCK 21
A8000H-AFFFFH
32Kword MAIN BLOCK 21
32Kword MAIN BLOCK 20
78000H-7FFFFH
32Kword MAIN BLOCK 19
98000H-9FFFFH
32Kword MAIN BLOCK 19
70000H-77FFFH
32Kword MAIN BLOCK 18
90000H-97FFFH
32Kword MAIN BLOCK 18
68000H-6FFFFH
32Kword MAIN BLOCK 17
88000H-8FFFFH
32Kword MAIN BLOCK 17
60000H-67FFFH
32Kword MAIN BLOCK 16
80000H-87FFFH
32Kword MAIN BLOCK 16
58000H-5FFFFH
32Kword MAIN BLOCK 15
78000H-7FFFFH
32Kword MAIN BLOCK 15
50000H-57FFFH
32Kword MAIN BLOCK 14
70000H-77FFFH
32Kword MAIN BLOCK 14
48000H-4FFFFH
32Kword MAIN BLOCK 13
68000H-6FFFFH
32Kword MAIN BLOCK 13
40000H-47FFFH
32Kword MAIN BLOCK 12
60000H-67FFFH
32Kword MAIN BLOCK 12
38000H-3FFFFH
32Kword MAIN BLOCK 11
58000H-5FFFFH
32Kword MAIN BLOCK 11
30000H-37FFFH
32Kword MAIN BLOCK 10
50000H-57FFFH
32Kword MAIN BLOCK 10
28000H-2FFFFH
32Kword MAIN BLOCK 9
48000H-4FFFFH
32Kword MAIN BLOCK 9
20000H-27FFFH
32Kword MAIN BLOCK 8
40000H-47FFFH
32Kword MAIN BLOCK 8
1C000H-1FFFFH
16Kword PARAMETER BLOCK 7
38000H-3FFFFH
32Kword MAIN BLOCK 7
18000H-1BFFFH
16Kword PARAMETER BLOCK 6
30000H-37FFFH
32Kword MAIN BLOCK 6
14000H-17FFFH
16Kword PARAMETER BLOCK 5
28000H-2FFFFH
32Kword MAIN BLOCK 5
10000H-13FFFH
16Kword PARAMETER BLOCK 4
20000H-27FFFH
32Kword MAIN BLOCK 4
0C000H-0FFFFH
16Kword PARAMETER BLOCK 3
18000H-1FFFFH
32Kword MAIN BLOCK 3
08000H-0BFFFH
16Kword PARAMETER BLOCK 2
10000H-17FFFH
32Kword MAIN BLOCK 2
04000H-07FFFH
16Kword PARAMETER BLOCK 1
08000H-0FFFFH
32Kword MAIN BLOCK 1
00000H-07FFFH
32Kword MAIN BLOCK 0
16Kword BOOT BLOCK 0
BANK(II)
32Kword MAIN BLOCK 20
A0000H-A7FFFH
BANK(I)
80000H-87FFFH
BANK(I)
FC000H-FFFFFH
BANK(II)
32Kword MAIN BLOCK 35
00000H-03FFFH
A19-A0
A19-A0
Flash Memory of M6MGB162S2BVP
Memory Map
6
16Kword BOOT BLOCK 35
F8000H-FFFFFH
Flash Memory of M6MGT162S2BVP
Memory Map
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
BUS OPERATIONS
Bus Operations for Word-Wide Mode
Mode
Pins
Array
Status Register
Lock Bit Status
Identifier Code
Output disable
Stand by
Program
Write
Erase
Others
Deep Power Down
Read
F-CE#
VIL
VIL
VIL
VIL
VIL
VIH
VIL
VIL
VIL
X
OE#
VIL
VIL
VIL
VIL
VIH
X 2)
VIH
VIH
VIH
X
WE#
F-RP#
DQ0-15
F-RY/BY#
VIH
VIH
VIH
VIH
VIH
X
VIL
VIL
VIL
X
VIH
VIH
VIH
VIH
VIH
VIH
VIH
VIH
VIH
VIL
Data out
Status Register Data
Lock Bit Data (DQ6)
Identifier Code
Hi-Z
Hi-Z
Command/Data in
Command
Command
Hi-Z
VOH (Hi-Z)
X 1)
X
VOH (Hi-Z)
X
X
X
X
X
VOH (Hi-Z)
1) X at F-RY/BY# is VOL or VOH(Hi-Z).
*The F-RY/BY# is an open drain output pin and indicates status of the internal WSM. When low,it indicates that the WSM is Busy performing an operation.
A pull-up resistor of 10K-100K Ohms is required to allow the F-RY/BY# signal to transition high indicating a Ready WSM condition.
2) X can be VIH or VIL for control pins.
7
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
SOFTWARE COMMAND DEFINITION
Command List
2nd bus cycle
1st bus cycle
Command
Read Array
Device Identifier
Read Status Register
Clear Status Register
Clear Page Buffer
Word Program 5)
Page Program 7)
Single Data Load to Page Buffer 5)
Page Buffer to Flash 5)
Block Erase / Confirm
Suspend
Resume
Read Lock Bit Status
Lock Bit Program / Confirm
Erase All Unlocked Blocks
Mode
Address
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
X
X
Bank3)
X
X
Bank(I) 5)
Bank
Bank(I) 5)
Bank(I) 5)
Bank
Bank
Bank
X
Bank
X
Write
Write
Data
(DQ15-0)
FFH
90H
70H
50H
55H
40H
41H
74H
0EH
20H
B0H
D0H
71H
77H
A7H
Mode
Address
3rd ~129th bus cycles (Word Mode)
Data
Read
IA 2)
Read
Bank
ID 2)
SRD4)
Write
Write
Write
Write
Write
Write
X
WA 6)
WA0 7)
WA
WA 8)
BA 9)
D0H 1)
WD 6)
WD0 7)
WD
D0H 1)
D0H 1)
Read
Write
Write
BA
BA
X
Mode
Address
Write
WAn 7)
(DQ15-0)
Data
(DQ15-0)
WDn 7)
DQ6 10)
D0H 1)
D0H 1)
1) In the word-wide version, upper byte data (DQ8-DQ15) is ignored.
2) IA=ID Code Address : A0=VIL (Manufacturer's Code) : A0=VIH (Device Code), ID=ID Code
3) Bank = Bank Address (Bank(I) or Bank(II)) : A19-A17.
4) SRD = Status Register Data
5) Word Program, Single Data Load and Page Buffer to Flash Command is valid for only Bank(I).
6) WA = Write Address,WD = Write Data
7) WA0,WAn=Write Address, WD0,WDn=Write Data.
Word Mode : Write Address and Write Data must be provided sequentially from 00H to 7FH for A6-A0. Page size is 128word (128word x 16bit).
and also A19-A7(Block Address, Page Address) must be valid.
8) WA = Write Address : Upper page address, A19-A7(Block Address, Page Address) must be valid.
9) BA = Block Address : BA = Block Address : A19-A14(Bank1) A19-A15(Bank2)
10) DQ6 provides Block Lock Status, DQ6 = 1 : Block Unlock, DQ6 = 0 : Block Locked.
8
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
BLOCK LOCKING
Lock
Bit
F-RP# F-WP# (Internally)
VIL
X
VIL
VIH
VIH
X
0
1
X
Write Protection Provided
BANK(I)
BANK(II)
Note
Lock Bit
Boot
Parameter
Data
Locked
Locked
Locked
Locked Deep Power Down Mode
Locked
Locked
Locked
Locked
Locked
Locked Unlocked Unlocked
Unlocked Unlocked Unlocked Unlocked All Blocks Unlocked
1) DQ6 provides Lock Status of each block after writing the Read Lock Status command (71H).
F-WP# pins must not be switched during performing Erase / Write operations or WSM Busy (WSMS = 0).
2) Erase/Write command for locked blocks is aborted. At this time read mode is not array read mode but status read mode and
00B0H is read. Please issue Clear Status Register command plus Read Array command to change the mode from status read mode
to array read mode.
STATUS REGISTER
Symbol
SR.7
SR.6
SR.5
SR.4
SR.3
SR.2
SR.1
SR.0
(DQ7)
(DQ6)
(DQ5)
(DQ4)
(DQ3)
(DQ2)
(DQ1)
(DQ0)
Status
Write State Machine Status
Suspend Status
Erase Status
Program Status
Block Status after Program
Reserved
Reserved
Reserved
Definition
"1"
Ready
Suspended
Error
Error
Error
-
"0"
Busy
Operation in Progress / Completed
Successful
Successful
Successful
-
*The F-RY/BY# is an open drain output pin and indicates status of the internal WSM. When low,it indicates that the WSM is Busy performing an operation.
A pull-up resistor of 10K-100K Ohms is required to allow the F-RY/BY# signal to transition high indicating a Ready WSM condition.
*DQ3 indicates the block status after the page programming, word programming and page buffer to flash. When DQ3 is "1", the page has the over-programed
cell . If over-program occurs, the device is block fail. However if DQ3 is "1", please try the block erase to the block. The block may revive.
9
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
DEVICE IDENTIFIER CODE
Pins
A0
DQ7
DQ6
DQ5
DQ4
DQ3
DQ2
DQ1
DQ0
Hex. Data
Manufacturer Code
VIL
0
0
0
1
1
1
0
0
1CH
Device Code (-T162S2BVP)
VIH
1
0
1
0
0
0
0
0
A0H
Device Code (-B162S2BVP)
VIH
1
0
1
0
0
0
0
1
A1H
Code
The upper data(D15-8) is "0".
ABSOLUTE MAXIMUM RATINGS
Symbol
F-Vcc
VI1
Parameter
Flash Vcc voltage
All input or output voltage 1)
Conditions
Min
Max
Unit
With respect to Ground
-0.2
-0.6
4.6
4.6
V
V
Ta
Ambient temperature
-20
85
°C
Tbs
Temperature under bias
-50
95
°C
Tstg
I OUT
Storage temperature
Output short circuit current
-65
125
100
°C
mA
1) Minimum DC voltage is -0.5V on input/output pins. During transitions, this level may undershoot to -2.0V for periods <20ns. Maximum DC voltage
on input/output pins is F-VCC+0.5V which, during transitions, may overshoot to F-VCC+1.5V for periods <20ns.
CAPACITANCE
Parameter
Symbol
CIN
COUT
Test conditions
Input capacitance (Address, Control Pins)
Output capacitance
Limits
Typ
Min
Ta = 25°C, f = 1MHz, Vin = Vout = 0V
Max
8
12
Unit
pF
pF
Note: The value of common pins to Flash Memory is the sum of Flash Memory and SRAM.
DC ELECTRICAL CHARACTERISTICS (Ta = -20~ 85°C, F-Vcc = 2.7V ~ 3.6V, unless otherwise noted)
Symbol
Parameter
ILI
ILO
ISB1
Input leakage current
Output leakage current
F-VCC standby current
ISB2
ISB3
F-VCC deep powerdown current
ISB4
ICC1
F-VCC read current for Word or Byte
ICC2
F-VCC Write current for Word or Byte
ICC3
ICC4
ICC5
VIL
VIH
VOL
VOH1
VOH2
VLKO
F-VCC program current
F-VCC erase current
F-VCC suspend current
Input low voltage
Input high voltage
Output low voltage
Output high voltage
Low VCC Lock-Out voltage 2)
Test conditions
Limits
Typ1)
Min
Unit
F-VCC = 3.6V, VIN=VIL/VIH, F-CE# = F-RP# =F-WP# = VIH
50
Max
±2.0
±11
200
F-VCC = 3.6V, VIN=GND or F-VCC,
F-CE# = F-RP# = F-WP# = F-VCC±0.3V
0.1
5
mA
5
15
mA
0.1
8
2
5
15
4
mA
0V£VIN£F-VCC
0V£VOUT£F-VCC
F-VCC = 3.6V, VIN=VIL/VIH, F-RP# = VIL
F-VCC = 3.6V, VIN=GND or VCC, F-RP# =GND±0.3V
F-VCC = 3.6V, VIN=VIL/VIH, F-CE# = VIL,
F-RP#=OE#=VIH, IOUT = 0mA
5MHz
1MHz
F-VCC = 3.6V,VIN=VIL/VIH, F-CE# =WE#= VIL,
F-RP#=OE#=VIH
F-VCC = 3.6V, VIN=VIL/VIH, F-CE# = F-RP# =F-WP# = VIH
F-VCC = 3.6V, VIN=VIL/VIH, F-CE# = F-RP# =F-WP# = VIH
F-VCC = 3.6V, VIN=VIL/VIH, F-CE# = F-RP# =F-WP# = VIH
– 0.5
2.0
IOL = 4.0mA
IOH = –2.0mA
IOH = –100mA
mA
15
mA
35
35
200
0.8
mA
mA
mA
V
V
V
V
V
V
F-Vcc+0.5
0.45
0.85(F-Vcc)
F-Vcc–0.4
1.5
mA
mA
mA
2.2
All currents are in RMS unless otherwise noted.
1) Typical values at F-Vcc=3.3V, Ta=25°C
2) To protect against initiation of write cycle during Vcc power-up/ down, a write cycle is locked out for Vcc less than VLKO.
If Vcc is less than VLKO, Write State Machine is reset to read mode. When the Write State Machine is in Busy state, if Vcc is less than VLKO, the alteration of memory contents
may occur.
10
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC ELECTRICAL CHARACTERISTICS (Ta = -20 ~85°C, F-Vcc = 2.7V ~3.6V)
Read-Only Mode
Limits
Symbol
F-Vcc=2.7-3.6V
Parameter
tRC
tAVAV
ta (AD)
ta (CE)
ta (OE)
tCLZ
tDF(CE)
tOLZ
tDF(OE)
tPHZ
tAVQV
tELQV
tGLQV
tELQX
tEHQZ
tGLQX
tGHQZ
tPLQZ
tOH
tOH
tPS
tPHEL
Read cycle time
Address access time
Chip enable access time
Output enable access time
Chip enable to output in low-Z
Chip enable high to output in high Z
Output enable to output in low-Z
Output enable high to output in high Z
F-RP# low to output high-Z
Output hold from F-CE#, OE#, addresses
F-RP# recovery to F-CE# low
Unit
90ns
Min
90
Typ
Max
25
ns
ns
ns
ns
ns
ns
ns
ns
150
ns
90
90
30
0
25
0
0
ns
150
ns
Timing measurements are made under AC waveforms for read operations.
AC ELECTRICAL CHARACTERISTICS (Ta = -20 ~85°C, F-Vcc = 2.7V ~3.6V)
Write Mode (F-WE# control)
Symbol
tWC
tAS
tAH
tDS
tDH
tOEH
Parameter
tRE
tCS
tCH
tWP
tWPH
tGHWL
tBLS
tBLH
tAVAV
tAVWH
tWHAX
tDVWH
tWHDX
tWHGL
tELWL
tWHEH
Write cycle time
Address set-up time
Address hold time
Data set-up time
Data hold time
OE# hold from WE# high
Latency between Read and Write FFH or 71H
Chip enable set-up time
Chip enable hold time
tWLWH
tWHWL
tGHWL
tPHHWH
tQVPH
Write pulse width
Write pulse width high
OE# hold to WE# Low
Block Lock set-up to write enable high
Block Lockhold from valid SRD
tDAP
tDAE
tWHRL
tPS
tWHRH1
tWHRH2
tWHRL
tPHWL
Duration of auto-program operation
Duration of auto-block erase operation
Write enable high to F-RY/BY# low
F-RP# high recovery to write enable low
Min
90
50
0
50
0
Limits
F-Vcc=2.7-3.6V
90ns
Typ
Max
ns
ns
ns
ns
ns
ns
ns
10
30
0
0
60
30
0
90
0
150
Unit
ns
ns
ns
ns
ns
ns
ns
4
80
40
600
90
ms
ms
ns
ns
Read timing parameters during command write operations mode are the same as during read-only operations mode.
Typical values at F-Vcc=3.3V, Ta=25°C
11
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC ELECTRICAL CHARACTERISTICS (Ta = -20 ~ 85°C, F-Vcc = 2.7V ~ 3.6V)
Write Mode (F-CE# control)
Parameter
Symbol
tWC
tAS
tAH
tDS
tDH
tOEH
tRE
tWS
tWH
tCEP
tCEPH
tGHEL
tBLS
tBLH
tAVAV
tAVWH
tEHAX
tDVWH
tEHDX
tEHGL
tWLEL
tEHWH
tELEH
tEHEL
tGHEL
tPHHEH
tQVPH
Write cycle time
Address set-up time
Address hold time
Data set-up time
Data hold time
OE# hold from F-CE# high
Latency between Read and Write FFH or 71H
Write enable set-up time
Write enable hold time
F-CE# pulse width
F-CE# pulse width high
OE# hold to F-CE# Low
Block Lock set-up to write enable high
Block Lockhold from valid SRD
Duration of auto-program operation
tDAP tEHRH1
tDAE tEHRH2 Duration of auto-block erase operation
tEHRL tEHRL F-CE# high to F-RY/BY# low
tPS
tPHWL F-RP# high recovery to write enable low
Min
90
50
0
50
0
Limits
F-Vcc=2.7-3.6V
90ns
Typ
Max
Unit
ns
ns
ns
ns
ns
ns
ns
10
30
0
0
60
30
90
90
0
ns
ns
ns
ns
ns
ns
ns
4
80
40
600
90
ms
ms
ns
ns
150
Read timing parameters during command write operation mode are the same as during read-only operation mode.
Typical values at F-Vcc=3.3V, Ta=25°C
Erase and Program Performance
Min
Parameter
Block Erase Time
Main Block Write Time (Page Mode)
Page Write Time
Typ
Max
Unit
40
1.0
4
600
1.8
80
ms
sec
ms
Typ
Max
Unit
15
15
ms
ms
Max
Unit
Program Suspend Latency / Erase Suspend Time
Min
Parameter
Program Suspend Latency
Erase Suspend Time
Please see page 20.
Vcc Power Up / Down Timing
Symbol
tVCS
Parameter
F-RP# =VIH set-up time from Vccmin
Min
2
Typ
ms
Please see page 13.
During power up/down, by the noise pulses on control pins, the device has possibility of accidental erasure or programming.
The device must be protected against initiation of write cycle for memory contents during power up/down.
The delay time of min.2msec is always required before read operation or write operation is initiated from the time F-Vcc reaches F-Vccmin
during power up/down.
By holding F-RP# VIL, the contents of memory is protected during F-Vcc power up/down.
During power up, F-RP# must be held VIL for min.2ms from the time F-Vcc reaches F-Vccmin.
During power down, F-RP# must be held VIL until Vcc reaches GND.
F-RP# doesn't have latch mode ,therefore F-RP# must be held VIH during read operation or erase/program operation.
12
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
Vcc POWER UP / DOWN TIMING
Read /Write Inhibit
Read /Write Inhibit
F-VCC
Read /Write Inhibit
3.3V
GND
tVCS
F-RP#
F-CE#
VIH
VIL
VIH
VIL
WE#
tPS
tPS
VIH
VIL
AC WAVEFORMS FOR READ OPERATION AND TEST CONDITIONS
TEST CONDITIONS
FOR AC CHARACTERISTICS
VIH
ADDRESSES
ADDRESS VALID
VIL
VIH
F-CE#
Input voltage : VIL = 0V, VIH = 3.0V
Input rise and fall times : £5ns
Reference voltage
at timing measurement : 1.5V
tRC
ta (AD)
VIL
tRE
tDF(CE)
ta (CE)
VIH
OE#
VIL
Output load : 1TTL gate +
CL(30pF)
or
tDF(OE)
tOEH
VIH
WE#
ta (OE)
VIL
tOH
tOLZ
VOH
DATA
tCLZ
HIGH-Z
VOL
OUTPUT VALID
tPS
1N914
tPHZ
VIH
F-RP#
1.3V
HIGH-Z
3.3kW
DUT
VIL
CL =30pF
AC WAVEFORMS FOR WRITE FFH or 71H AND READ OPERATION
VIH
ADDRESSES
ADDRESS VALID
VIL
F-CE#
tRC
VIH
ta (AD)
VIL
OE#
ta (CE)
VIL
WE#
tRE
tDF(OE)
VIH
ta (OE)
VIL
DATA
VOH HIGH-Z
FFH or 71H
Valid
VOL
tPS
F-RP#
tDF(CE)
VIH
VIH
tOH
tOLZ
tCLZ
OUTPUT VALID
HIGH-Z
tPHZ
VIL
In the case of use F-CE# is Low fixed, it is allowed to define a timming specification of tRE
from rising edge of WE# to falling edge of OE#, and valid data is read after spec of tRE+ta(CE).
(This is only for FFH,71H program and read)
13
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC WAVEFORMS FOR PAGE PROGRAM OPERATION (WE# control)
The other bank
address
F-A19~F-A17, VIH
A16~A7
BANK ADDRESS
VALID
VIL
VALID
VALID
00H
VALID
PROGRAM
READ STATUS
WRITE READ
REGISTER ARRAY COMMAND
ADDRESS VALID
BANK ADDRESS VALID
VIH
A6 ~A0
VIL
tWC
F-CE#
tCS
OE#
ta(CE)
ta(CE)
tCH
ta(OE)
tWPH
VIH
tWP
VIH
tDAP
tDH
tDS
41H
tOEH
tGHWL
ta(OE)
tOEH
VIL
DATA
7FH
VIH
VIL
WE#
tAH
tAS
VIH
VIL
01H~7EH
DOUT
DIN
DIN
F-RY/BY#
SRD
DIN
VIL
FFH
tWHRL
VOH
VOL
tPS
F-RP#
VIH
VIL
F-WP#
tBLH
tBLS
VIH
VIL
AC WAVEFORMS FOR PAGE PROGRAM OPERATION (F-CE# control)
F-A19~F-A17, VIH
A16~A7
VIL
The other bank
address
BANK ADDRESS
VALID
VALID
VALID
00H
VALID
VIH
A6 ~A0
VIL
tWC
F-CE#
OE#
tOEH
tWH
7FH
ta(CE)
ta(OE)
tOEH
tGHEL
tDAP
VIH
tDH
tDS
VIH
41H
DIN
VIL
F-RY/BY#
01H~7EH
BANK ADDRESS VALID
tCEP
VIL
DATA
ADDRESS VALID
ta(OE)
VIH
tWS
READ STATUS
WRITE READ
REGISTER ARRAY COMMAND
tAH ta(CE)
tCEPH
VIL
WE#
tAS
VIH
VIL
PROGRAM
DOUT
DIN
DIN
SRD
FFH
tEHRL
VOH
VOL
tPS
F-RP#
VIH
VIL
VIH
F-WP#
14
tBLS
tBLH
VIL
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC WAVEFORMS FOR WORD PROGRAM OPERATION (WE# control) (to only BANK(I))
PROGRAM
VIH
ADDR
VIL
F-CE#
tWC
tAS
tCS
ta(CE)
ta(OE)
tWP
VIL
WE#
tAH
tCH
VIH
WRITE READ
ARRAY COMMAND
BANK(I) ADDRESS VALID
VIH
VIL
OE#
READ STATUS
REGISTER
ADDRESS
VALID
BANK ADDRESS
VALID
tOEH
tWPH
VIH
VIL
tDS
VIH
40H
DATA
DIN
SRD
FFH
VIL
tDH
VIH
F-RY/BY#
tWHRL
VIL
tPS
VIH
F-RP#
F-WP#
tDAP
VIL
tBLS
tBLH
VIH
VIL
AC WAVEFORMS FOR WORD PROGRAM OPERATION (F-CE# control)
VIH
ADDR
VIL
F-CE#
PROGRAM
BANK ADDRESS
VALID
ADDRESS
VALID
tWC
tAS
(to only BANK(I))
READ STATUS
REGISTER
WRITE READ
ARRAY COMMAND
BANK(I) ADDRESS VALID
tAH
ta(CE)
VIH
VIL
OE#
VIL
WE#
ta(OE)
VIH
tCEP
tWS
tOEH
tWH
VIH
VIL
tDS
VIH
40H
DATA
DIN
SRD
FFH
VIL
tDH
VIH
F-RY/BY#
VIL
VIH
F-RP#
F-WP#
VIL
tEHRL
tPS
tDAP
tBLS
tBLH
VIH
VIL
15
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC WAVEFORMS FOR ERASE OPERATIONS (WE# control)
ERASE
VIH
BANK ADDRESS
VALID
ADDRESSES
VIL
tWC
tAH
tAS
ta(CE)
VIL
tCS
tCH
ta(OE)
VIH
OE#
VIL
tOEH
tWPH
tDAE
VIH
WE#
VIL
tWP
F-RY/BY#
tDH
tDS
VIH
DATA
WRITE READ
ARRAY COMMAND
BANK ADDRESS VALID
ADDRESS VALID
VIH
F-CE#
READ STATUS
REGISTER
20H
SRD
D0H
VIL
FFH
tWHRL
VOH
VOL
tPS
F-RP#
VIH
tBLS
VIL
F-WP#
tBLH
VIH
VIL
AC WAVEFORMS FOR ERASE OPERATIONS (F-CE# control)
VIH
ADDRESSES
VIL
ERASE
BANK ADDRESS
VALID
ADDRESS VALID
tWC
tAH
tAS
ta(CE)
VIL
tCEPH
tCEP
ta(OE)
VIH
OE#
tOEH
VIL
tWS
VIL
F-RY/BY#
tDH
tDS
VIH
DATA
tDAE
tWH
VIH
WE#
WRITE READ
ARRAY COMMAND
BANK ADDRESS VALID
VIH
F-CE#
READ STATUS
REGISTER
20H
VIL
SRD
D0H
FFH
tEHRL
VOH
VOL
tPS
F-RP#
VIH
VIL
F-WP#
16
tBLS
tBLH
VIH
VIL
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC WAVEFORMS FOR PAGE PROGRAM OPERATION WITH BGO (WE# control)
Change Bank Address
ARRAY READ FROM THE OTHER BANK
WITH BGO
PROGRAM DATA TO ONE BANK
A19~A7
VIH
BANK ADDRESS
VALID
VIL
ADDRESS VALID
VALID
VALID
VALID
VALID
VIH
A6 ~A0
F-CE#
tWC
tAS
tCS
ta(CE)
tCH
VIH
ta(OE)
tOEH
tWP
tWPH
VIL
WE#
7FH
tAH
VIH
VIL
OE#
01H~7EH
00H
VIL
VIH
VIL
tDS
VIH
DATA
41H
DIN
DIN
DIN
SRD
VIL
DOUT
tWHRL
tDH
VIH
DOUT
F-RY/BY#
VIL
AC WAVEFORMS FOR PAGE PROGRAM OPERATION WITH BGO (F-CE# control)
Change Bank Address
PROGRAM DATA TO ONE BANK
A19~A7
VIH
BANK ADDRESS
VALID
VIL
ARRAY READ FROM THE OTHER BANK
WITH BGO
ADDRESS VALID
VALID
VALID
VALID
VALID
VIH
A6 ~A0
F-CE#
tWC
VIH
VIL
WE#
tAS
7FH
ta(CE)
tAH
VIH
tCEPH
VIL
OE#
01H~7EH
00H
VIL
ta(OE)
tCEP
tOEH
tWS
tCH
VIH
VIL
DATA
tDS
VIH
41H
DIN
DIN
DIN
SRD
DOUT
DOUT
VIL
VIH
tDH
tEHRL
F-RY/BY#
VIL
17
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC WAVEFORMS FOR WORD PROGRAM OPERATION WITH BGO (WE# control)
Change Bank Address
READ STATUS
REGISTER
PROGRAM DATA TO
BANK(I)
VIH
BANK ADDRESS
VALID
A19~A7
VIL
ADDRESS VALID
ARRAY READ FROM BANK(II) WITH BGO
VALID
VALID
VALID
VALID
VIH
A6 ~A0
VALID
VIL
tWC
tAH
tAS
ta(CE)
VIH
F-CE#
VIL
tCS
tCH
VIH
OE#
tOEH
tWP
tWPH
VIL
VIH
WE#
ta(OE)
VIL
tDS
VIH
40H
DATA
DIN
SRD
DOUT
DOUT
VIL
tDH
VIH
F-RY/BY#
VIL
tWHRL
AC WAVEFORMS FOR WORD PROGRAM OPERATION WITH BGO (F-CE# control)
A19~A7
VIH
VIL
PROGRAM DATA TO
BANK(I)
BANK ADDRESS
VALID
READ STATUS
REGISTER
ADDRESS VALID
Change Bank Address
ARRAY READ FROM BANK(II) WITH BGO
VALID
VALID
VALID
VALID
VIH
A6 ~A0
F-CE#
VALID
VIL
tWC
VIH
VIL
WE#
ta(CE)
tCEPH
VIL
OE#
tAS
VIH
tCEP
tWS
ta(OE)
tOEH
tCH
VIH
VIL
tDS
VIH
40H
DATA
DIN
SRD
DOUT
DOUT
VIL
VIH
tDH
F-RY/BY#
VIL
tEHRL
18
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC WAVEFORMS FOR BLOCK ERASE OPERATION WITH BGO (WE# control)
Change Bank Address
BLOCK ERASE IN
ONE BANK
VIH
BANK ADDRESS
VALID
ADDRESSES
VIL
ADDRESS VALID
tWC
F-CE#
tCS
VALID
VALID
ta(OE)
tOEH
tWP
tWPH
VIH
ARRAY READ FROM THE OTHER
BANK WITH BGO
ta(CE)
tCH
VIH
VIL
WE#
tAH
tAS
VIH
VIL
OE#
READ STATUS
REGISTER
VIL
tDS
VIH
DATA
20H
D0H
SRD
DOUT
DOUT
VIL
tDH
VIH
F-RY/BY#
VIL
tWHRL
AC WAVEFORMS FOR BLOCK ERASE OPERATION WITH BGO (F-CE# control)
Change Bank Address
BLOCK ERASE IN
ONE BANK
VIH
ADDRESSES
VIL
F-CE#
tWC
OE#
VIH
VIL
WE#
ADDRESS VALID
tAS
tAH
VIH
tCEPH
VIL
READ DATA FROM THE OTHER BANK
WITH BGO
READ STATUS
REGISTER
BANK ADDRESS
VALID
tCEP
VALID
VALID
ta(CE)
ta(OE)
tOEH
tWS
tCH
VIH
VIL
tDS
VIH
DATA
20H
SRD
D0H
DOUT
DOUT
VIL
VIH
tDH
F-RY/BY#
VIL
tEHRL
19
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC WAVEFORMS FOR SUSPEND OPERATION (WE# control)
READ STATUS
REGISTER
VIH
ADDRESSES
VIL
BANK ADDRESS VALID
tAS
tAH
VIH
F-CE#
BANK ADDRESS VALID
ta(CE)
VIL
tCS
tCH
ta(OE)
VIH
OE#
tOEH
VIL
Program Suspend Latency
VIH
WE#
VIL
tWP
S.R.6,7=1
VIH
DATA
F-RY/BY#
F-RP#
VALID SRD
B0H
VIL
VOH
VOL
VIH
tBLS
VIL
tBLH
VIH
F-WP#
VIL
AC WAVEFORMS FOR SUSPEND OPERATION (F-CE# control)
READ STATUS
REGISTER
VIH
ADDRESSES
BANK ADDRESS VALID
BANK ADDRESS VALID
VIL
tAS
tAH
VIH
F-CE#
ta(CE)
tCEP
VIL
ta(OE)
VIH
OE#
VIH
WE#
tOEH
VIL
Program Suspend Latency
tWS
tWH
VIL
S.R.6,7=1
VIH
DATA
F-RY/BY#
F-RP#
B0H
VALID SRD
VIL
VOH
VOL
VIH
VIL
tBLS
tBLH
VIH
F-WP#
20
VIL
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
FULL STATUS CHECK PROCEDURE
LOCK BIT PROGRAM FLOW CHART
STATUS REGISTER
READ
SR.4 =1
and
SR.5 =1
?
NO
START
WRITE 77H
COMMAND SEQUENCE ERROR
YES
WRITE D0H
BLOCK ADDRESS
SR.5 = 0 ?
BLOCK ERASE ERROR
NO
SR.7 = 1 ?
NO
YES
YES
PROGRAM ERROR
(PAGE, LOCK BIT)
SR.4 = 0 ?
NO
LOCK BIT PROGRAM
FAILED
SR.4 = 0 ?
NO
YES
YES
PROGRAM ERROR
(BLOCK)
SR.3 = 0 ?
NO
LOCK BIT PROGRAM
SUCCESSFUL
YES
SUCCESSFUL
(BLOCK ERASE, PROGRAM)
BYTE PROGRAM FLOW CHART
PAGE PROGRAM FLOW CHART
START
START
WRITE 40H
WRITE 41H
n=0
WRITE
ADDRESS , DATA
SR.7 = 1 ?
n = n+1
WRITE
ADDRESS n, DATA n
STATUS REGISTER
READ
NO
WRITE B0H ?
NO
n = FFH ?
or
n = 7FH ?
NO
YES
YES
FULL STATUS CHECK
IF DESIRED
PAGE PROGRAM
COMPLETED
YES
STATUS REGISTER
READ
SUSPEND LOOP
WRITE D0H
YES
SR.7 = 1 ?
NO
* Word program is admitted to only BANK(I).
YES
FULL STATUS CHECK
IF DESIRED
PAGE PROGRAM
COMPLETED
21
WRITE B0H ?
NO
YES
SUSPEND LOOP
WRITE D0H
YES
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
SUSPEND / RESUME FLOW CHART
CLEAR PAGE BUFFER
START
START
SUSPEND
WRITE B0H
WRITE 55H
STATUS REGISTER
READ
WRITE D0H
SR.7 = 1?
NO
PAGE BUFFER CLEAR
COMPLETED
YES
SR.6 =1?
PROGRAM / ERASE
COMPLETED
NO
SINGLE DATA LOAD TO PAGE BUFFER
YES
WRITE FFH
START
WRITE 74H
READ ARRAY DATA
WRITE
ADDRESS , DATA
DONE
READING ?
NO
YES
DONE
LOADING?
NO
RESUME
WRITE D0H
OPERATION
RESUMED
YES
SINGLE DATA LOAD
TO PAGE BUFFER
COMPLETED
* The bank address is required when writing this command. Also, there is
no need to suspend the erase or program operation when reading data
from the other bank. Please use BGO function.
BLOCK ERASE FLOW CHART
PAGE BUFFER TO FLASH
START
START
WRITE 20H
WRITE 0EH
WRITE D0H
BLOCK ADDRESS
WRITE D0H
PAGE ADDRESS
STATUS REGISTER
READ
STATUS REGISTER
READ
NO
NO
SR.7 = 1 ?
WRITE B0H ?
NO
YES
FULL STATUS CHECK
IF DESIRED
SUSPEND LOOP
SR.7 = 1 ?
YES
FULL STATUS CHECK
IF DESIRED
WRITE D0H
PAGE BUFFER TO FLASH
COMPLETED
22
YES
BLOCK ERASE
COMPLETED
WRITE B0H ?
NO
YES
SUSPEND LOOP
WRITE D0H
YES
Sep.1999 , Rev.2.0
Clear
Status Register
Read
Status Register
50H
70H
70H
90H
71H
70H
Read
Device Identifier
90H
Read
Lock Status
71H
71H
90H
FFH
FFH
FFH
Read Array
Setup State
Clear
Page Buffer
Setup
D0H
55H
WD
0EH
74H
Single Data Load
to Page Buffer
Setup
Page Buffer to Flash
Setup
41H
Page Program
Setup
D0H
OTHER
40H
Internal State
Lock Bit Program
Setup
Byte Program
Setup
WDi
i=0-127
WD
20H
77H
D0H
B0H
D0H
Suspend State
Read Array
(From The Other Bank)
Change Bank
Address
70H
FFH
Read Array
70H
MITSUBISHI LSIs
Sep.1999 , Rev.2.0
Read State with BGO
Read
Status Register
M6MGB/T162S2BVP
B0H
OTHER
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
Read
Status Register
D0H
Erase All Unlocked
Blocks Setup
OTHER
D0H
Erase &
Verify
Read
Status Register
Change Bank
Address
Block Erase
Setup
D0H
OTHER
Program &
Verify
Ready
A7H
OPERATION STATUS and EFFECTIVE COMMAND
23
Read/Standby State
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
2. SRAM
The SRAM of M6MGB/T162S2BVP is organized as
262,144-word by 8-bit. These devices operate on a single
+2.7~3.6V powersupply, and are directly TTL compatible to
both input and output. Its fully static circuit needs no clocks
and no refresh, and makes it useful.
The operation mode are determined by a combination of
the device control inputs , S-CE , WE# and OE#. Each mode
is summarized in the function table.
A write operation is executed whenever the low level WE#
overlaps with the high level S-CE. The address
(S-A-1~A16:byte mode) must be set up before the write cycle
and must be stable during the entire cycle.
A read operation is executed by setting WE# at a high level
and OE# at a low level while S-CE are in an active
state(S-CE=H).
When setting S-CE at a low level,the chips are in a
non-selectable mode in which both reading and writing are
disabled. In this mode, the output stage is in ahigh-impedance
state, allowing OR-tie with other chips and memory expansion
by S-CE.
The power supply current is reduced as low as 0.3mA(25
C,typical), and the memory data can be held at +2V
powersupply, enabling battery back-up operation during power
failure or power-down operation in the non-selected mode.
FUNCTION TABLE
24
S-CE
WE#
OE#
Mode
DQ0~7
Icc
L
X
X
Non selection
High-Z
Standby
H
L
X
Write
H
H
L
Read
H
H
H
Din
Active
Dout
Active
High-Z
Active
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
ABSOLUTE MAXIMUM RATINGS
Symbol
S-Vcc
VI
VO
Pd
Ta
Tstg
Parameter
Supply voltage
Input voltage
Conditions
With respect to GND
Output voltage
With respect to GND
Ratings
With respect to GND
Power dissipation
Ta=25 C
Operating
temperature
W-version
Units
-0.5* ~ +4.6
-0.5* ~ S-Vcc + 0.5
0 ~ S-Vcc
700
Storage temperature
V
mW
- 20 ~ +85
C
- 65 ~ +150
C
* -3.0V in case of AC (Pulse width<
= 30ns)
DC ELECTRICAL CHARACTERISTICS
Symbol
( S-Vcc=2.7 ~ 3.6V, unless otherwise noted)
Limits
Parameter
Conditions
Min
VIH
High-level input voltage
VIL
VOH1
VOH2
VOL
II
Low-level input voltage
High-level output voltage 1 IOH= -0.5mA
Low-level output voltage
Input leakage current
IOL=2mA
VI =0 ~ S-Vcc
IO
Output leakage current
S-CE=VIL or OE#=VIH, VI/O=0 ~ S-Vcc
Icc1
Active supply current
( AC,MOS level )
S-CE =S-Vcc-0.2V
>
other inputs <
= 0.2V or = S-Vcc-0.2V
Output - open (duty 100%)
f= 10MHz
f= 1MHz
Icc2
Active supply current
( AC,TTL level )
S-CE=VIH
other pins =VIH or VIL
Output - open (duty 100%)
f= 10MHz
f= 1MHz
2.0
-0.3 *
2.4
Icc4 Stand by supply current
( AC,TTL level )
CI
CO
Input capacitance
Output capacitance
V
S-CE <
= 0.2V
Other inputs=0~S-Vcc
-W
-
45
5
60
15
60
15
30
-
+40 ~ +70 C
-
-
+25 ~ +40 C
-
1
5
- 20 ~ +25 C
-
0.3
2
-
-
0.5
S-CE=VIL
Other inputs= 0 ~ S-Vcc
10
mA
mA
mA
mA
* -3.0V in case of AC (Pulse width<
= 30ns)
(S-Vcc=2.7 ~ 3.6V, unless otherwise noted)
CAPACITANCE
Parameter
0.6
45
5
Note 1: Direction for current flowing into IC is indicated as positive (no mark)
Note 2: Typical value is for S-Vcc=3.0V and Ta=25 C
Symbol
S-Vcc+0.3V
0.4
±1
±1
<
Stand by supply current
( AC,MOS level )
Units
S-Vcc-0.5V
High-level output voltage 2 IOH= -0.05mA
+70 ~ +85 C
Icc3
Max
Typ
Limits
Conditions
VI=GND, VI=25mVrms, f=1MHz
VO=GND,VO=25mVrms, f=1MHz
Min
Typ
Max
8
10
Units
pF
Note: The value of common pins to SRAM is the sum of Flash Memory and SRAM.
25
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
AC ELECTRICAL CHARACTERISTICS
(S-Vcc=2.7 ~ 3.6V, unless otherwise noted)
(1) TEST CONDITIONS
Supply voltage
Input pulse
Input rise time and fall time
Reference level
Output loads
2.7V~3.6V
VIH=2.2V,VIL=0.4V
5ns
1TTL
DQ
CL
VOH=VOL=1.5V
Transition is measured ±500mV from
steady state voltage.(for ten,tdis)
Including scope and
jig capacitance
Fig.1,CL=30pF
CL=5pF (for ten,tdis)
Fig.1 Output load
(2) READ CYCLE
Limits
Parameter
Symbol
tCR
ta(A)
ta(CE)
ta(OE)
tdis(CE)
tdis(OE)
ten(CE)
ten(OE)
tV(A)
Read cycle time
Address access time
Chip select access time
Output enable access time
Output disable time after S-CE low
Output disable time after OE# high
Output enable time after S-CE high
Output enable time after OE# low
Data valid time after address
SRAM
Min
85
Units
Max
85
85
45
30
30
10
5
10
ns
ns
ns
ns
ns
ns
ns
ns
ns
(3) WRITE CYCLE
Limits
Symbol
tCW
tw(W)
tsu(A)
tsu(A-WH)
tsu(CE)
tsu(D)
th(D)
trec(W)
tdis(W)
tdis(OE)
ten(W)
ten(OE)
26
SRAM
Parameter
Write cycle time
Write pulse width
Address setup time
Address setup time with respect to WE#
Chip select setup time
Data setup time
Data hold time
Write recovery time
Output disable time from WE# low
Output disable time from OE# high
Output enable time from WE# high
Output enable time from OE# low
Min
85
60
0
70
70
35
0
0
Units
Max
30
30
5
5
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
(4)TIMING DIAGRAMS
Read cycle
tCR
S-A-1~A16
ta(A)
S-CE
tv (A)
ta(CE)
tdis (CE)
(Note3)
(Note3)
ta (OE)
OE#
(Note3)
ten (OE)
tdis (OE)
(Note3)
WE# = "H" level
ten (CE)
DQ0~7
VALID DATA
Write cycle ( WE# control mode )
tCW
S-A-1~A16
tsu (CE)
S-CE
tsu (A-WH)
(Note3)
(Note3)
OE#
tsu (A)
tw (W)
trec (W)
tdis (W)
WE#
ten(OE)
tdis(OE)
DQ0~7
ten (W)
DATA IN
STABLE
tsu (D)
27
th (D)
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
Write cycle (S-CE control mode)
tCW
S-A-1~A16
tsu (A)
tsu (CE)
trec (W)
S-CE
(Note4)
WE#
(Note3)
DQ0~7
tsu (D)
th (D)
(Note3)
DATA IN
STABLE
Note 3: Hatching indicates the state is "don't care".
Note 4: When the falling edge of WE# is simultaneously or priorto the rising edge of S-CE,
the outputs are maintained in the high impedance state.
Note 5: Don't apply inverted phase signal externally when DQ pin is in output mode.
28
Sep.1999 , Rev.2.0
MITSUBISHI LSIs
M6MGB/T162S2BVP
16,777,216-BIT (1,048,576 -WORD BY 16-BIT ) CMOS
3.3V-ONLY FLASH MEMORY &
2,097,152-BIT (262,144-WORD BY 8-BIT) CMOS SRAM
Stacked-MCP (Multi Chip Package)
POWER DOWN CHARACTERISTICS
(1) ELECTRICAL CHARACTERISTICS
Symbol
Test conditions
Parameter
Min
S-Vcc (PD) Power down supply voltage
Icc (PD)
S-Vcc=3.0V
Power down
supply current
Max
S-CE = 0.2V
other inputs=0~3V
-W
Units
V
2.0
0.2
24
Chip select input S-CE
>
VI (S-CE)
Limits
Typ
+70 ~ +85 C
-
-
+40 ~ +70 C
-
-
+25 ~ +40 C
-
-20 ~ +25 C
-
V
mA
mA
1
8
3
mA
0.3
1
mA
Typical value is for Ta=25 C
(2) TIMING REQUIREMINTS
Limits
Symbol
Parameter
tsu (PD)
trec (PD)
Power down set up time
Test conditions
Min
Typ
Units
ns
0
5
Power down recovery time
Max
ms
(3) TIMING DIAGRAM
S-CE control mode
S-Vcc
2.7V
2.7V
S-CE
0.2V
0.2V
29
>
tsu (PD)
S-CE =0.2V
trec (PD)
Sep.1999 , Rev.2.0