BR25H160F-2CTR [ROHM]
Serial EEPROM Series Automotive EEPROM; 串行EEPROM系列汽车EEPROM型号: | BR25H160F-2CTR |
厂家: | ROHM |
描述: | Serial EEPROM Series Automotive EEPROM |
文件: | 总35页 (文件大小:1031K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Datasheet
Serial EEPROM Series Automotive EEPROM
125℃ Operation SPI BUS EEPROM
BR25H160-2C
●General Description
BR25H160-2C is a serial EEPROM of SPI BUS interface method.
●Features
High speed clock action up to 10MHz (Max.)
Wait function by HOLDB terminal.
Part or whole of memory arrays settable as read only
memory area by program.
MSOP8, TSSOP-B8, SOP8, SOP-J8 Package
Data at shipment Memory array: FFh, status register
WPEN, BP1, BP0 : 0
More than 100 years data retention.
More than 1 million write cycles.
AEC-Q100 Qualified.
2.5V to 5.5V single power source action most
suitable
for battery use.
Page write mode useful for initial value write at
factory shipment.
●Package
For SPI bus interface (CPOL, CPHA)=(0, 0), (1, 1)
Self-timed programming cycle.
Low Supply Current
At write operation (5V)
At read operation (5V)
At standby operation (5V)
: 1.0mA (Typ.)
: 1.0mA (Typ.)
: 0.1μA (Typ.)
Address auto increment function at read operation
Prevention of write mistake
Write prohibition at power on.
MSOP8
TSSOP-B8
Write prohibition by command code (WRDI).
Write prohibition by WPB pin.
2.90mm x 4.00mm x 0.90mm
3.00mm x 6.40mm x 1.20mm
Write prohibition block setting by status registers
(BP1, BP0).
Prevention of write mistake at low voltage.
SOP8
SOP-J8
5.00mm x 6.20mm x 1.71mm
4.90mm x 6.00mm x 1.65mm
●Page write
Number of pages
32 Byte
Product number
BR25H160-2C
●BR25H160-2C
Capacity
16Kbit
Bit Format
2Kx8
Product Number
BR25H160-2C
Supply Voltage
2.5V to 5.5V
MSOP8
TSSOP-B8
SOP8
SOP-J8
●
●
●
●
○Product structure:Silicon monolithic integrated circuit ○This product is not designed protection against radioactive rays
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BR25H160-2C
●Absolute maximum ratings (Ta=25°C)
Parameter
Symbol
VCC
Limits
Unit
V
Supply Voltage
-0.3 to +6.5
380(MSOP8) *1
410(TSSOP-B8) *2
560(SOP8) *3
560(SOP-J8) *4
-65 to +150
Permissible Dissipation
Pd
mW
Storage Temperature Range
Operating Temperature Range
Terminal Voltage
Tstg
Topr
-
°C
°C
V
-40 to +125
-0.3 to VCC+0.3
・When using at Ta=25℃ or higher, 3.1mW(*1) , 3.3mW(*2) , 4.5mW (*3,*4)to be reduced per 1℃
●Memory cell characteristics (VCC=2.5V to 5.5V)
Limits
Parameter
Unit
Condition
Min.
1,000,000
500,000
300,000
100
Typ.
-
Max.
-
Ta≦85°C
Ta≦105°C
Ta≦125°C
Ta≦25°C
Ta≦105°C
Ta≦125°C
Cycles
Cycles
Cycles
Years
Years
Years
Write Cycles *5
-
-
-
-
-
-
Data Retention *5
-
-
60
50
-
-
*5: Not 100% TESTED
●Recommended Operating Ratings
Parameter
Symbol
VCC
Vin
Limits
Unit
V
Supply Voltage
Input Voltage
2.5 to 5.5
0 to VCC
●Input / output capacity (Ta=25°C, frequency=5MHz)
Parameter
Input Capacity *6
Symbol
CIN
Conditions
VIN=GND
Min
-
Max
8
Unit
pF
Output Capacity *6
COUT
VOUT=GND
-
8
*6: Not 100% TESTED
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BR25H160-2C
●DC characteristics (Unless otherwise specified, Ta=-40°C to +125°C, VCC=2.5V to 5.5V)
Limits
Parameter
Symbol
Unit Conditions
Min.
Typ.
-
Max.
VCC
+0.3
Input High Voltage
Input Low Voltage
Output Low Voltage
VIH 0.7xVCC
V
V
V
V
2.5V≦VCC≦5.5V
0.3x
VCC
VIL
-0.3
0
-
2.5V≦VCC≦5.5V
IOL=2.1mA
VOL
-
0.4
VCC
2
Output High Voltage VOH VCC-0.5
Input Leakage
-
IOH=-0.4mA
ILI
-2
-
μA VIN=0V to VCC
Current
Output Leakage
Current
ILO
-2
-
2
μA VOUT=0V to VCC, CSB=VCC
VCC=2.5V,fSCK=5MHz, tE/W=4ms
ICC1
ICC2
-
-
-
-
2.0
3.0
mA VIH/VIL=0.9VCC/0.1VCC, SO=OPEN
Byte write, Page write, Write status register
Supply Current
(WRITE)
VCC=5.5V,fSCK=5 or 10 MHz, tE/W=4ms
mA VIH/VIL=0.9VCC/0.1VCC, SO=OPEN
Byte write, Page write, Write status register
VCC=2.5V,fSCK=5MHz
ICC3
ICC4
ICC5
ISB
-
-
-
-
-
-
-
-
1.5
2.0
4.0
10
mA VIH/VIL=0.9VCC/0.1VCC, SO=OPEN
Read, Read status register
VCC=5.5V,fSCK=5MHz
mA VIH/VIL=0.9VCC/0.1VCC, SO=OPEN
Read, Read status register
Supply Current
(READ)
VCC=5.5V,fSCK=10MHz
mA VIH/VIL=0.9VCC/0.1VCC, SO=OPEN
Read, Read status register
VCC=5.5V
μA CSB=HOLDB=WPB=VCC,
SCK=SI=VCC or =GND, SO=OPEN
Standby Current
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BR25H160-2C
●AC characteristics (Ta=-40°C to +125°C, unless otherwise specified, load capacity CL1=100pF)
2.5V≦VCC≦5.5V
4.5V≦VCC≦5.5V
Parameter
Symbol
Unit
Min.
Typ.
-
-
-
-
-
-
-
-
-
-
-
Max.
Min.
-
Typ.
-
-
-
-
-
-
-
-
-
-
-
Max.
10
-
SCK Frequency
SCK High Time
SCK Low Time
CSB High Time
CSB Setup Time
CSB Hold Time
SCK Setup Time
SCK Hold Time
SI Setup Time
fSCK
tSCKWH
tSCKWL
tCS
-
85
85
85
90
85
90
90
20
30
-
5
MHz
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
-
-
-
-
-
-
-
-
-
60
40
40
40
30
30
30
30
10
10
-
-
-
tCSS
-
tCSH
-
tSCKS
tSCKH
tDIS
-
-
-
SI Hold Time
tDIH
-
Data Output Delay Time1
tPD1
40
Data Output Delay Time2
(CL2=30pF)
tPD2
-
-
50
-
-
30
ns
Output Hold Time
Output Disable Time
HOLDB Setting
Setup Time
tOH
tOZ
0
-
-
-
0
-
-
-
ns
ns
-
100
-
40
tHFS
tHFH
tHRS
tHRH
tHOZ
tHPD
0
-
-
-
-
-
-
-
-
0
-
-
-
-
-
-
-
-
-
-
40
40
ns
ns
ns
ns
ns
ns
HOLDB Setting
Hold Time
40
0
30
0
HOLDB Release
Setup Time
-
HOLDB Release
Hold Time
70
-
-
-
30
-
-
Time from HOLDB
to Output High-Z
Time from HOLDB
to Output Change
SCK Rise Time*1
SCK Fall Time*1
OUTPUT Rise Time*1
OUTPUT Fall Time*1
100
60
tRC
tFC
-
-
-
-
-
-
-
-
-
-
1
1
-
-
-
-
-
-
-
-
-
-
1
1
μs
μs
ns
ns
ms
tRO
tFO
tE/W
40
40
4
40
40
4
Write Time
*1 NOT 100% TESTED
●AC measurement conditions
Limits
Parameter
Symbol
Unit
Min.
-
Typ.
-
Max.
100
30
Input Voltage
0.8Vcc
Input/Output judgement voltage
Load Capacity 1
Load Capacity 2
Input Rise Time
Input Fall Time
Input Voltage
CL1
CL2
-
pF
pF
ns
ns
-
-
0.7Vcc
0.3Vcc
-
-
50
-
-
-
50
0.2Vcc
-
0.2VCC/0.8VCC
0.3VCC/0.7VCC
V
V
Input / Output
Judgment Voltage
-
Figure 1. Input/Output judgment voltage
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BR25H160-2C
●Serial Input / output Timing
tCSS
tCS
CSB
SCK
tSCKS
tRC
tFC
tSCKWH
tSCKWL
tDIS
tDIH
SI
High-Z
SO
Figure 2. Input timing
SI is taken into IC inside in sync with data rise edge of SCK. Input address and data from the most significant bit MSB.
tCS
tSCKH
CSB
tCSH
SCK
SI
tPD
tRO,tFO
tOZ
tOH
High-Z
SO
Figure 3. Input / Output timing
SO is output in sync with data fall edge of SCK. Data is output from the most significant bit MSB.
CSB "H"
"L"
tHFS tHFH
tHRS tHRH
SCK
SI
tDIS
n
n+1
n-1
tHOZ
Dn
tHPD
High-Z
SO
Dn+1
Dn
Dn-1
HOLDB
Figure 4. HOLD timing
●Block diagram
VOLTAGE
DETECTION
CSB
SCK
INSTRUCTION DECODE
CONTROL CLOCK
GENERATION
HIGH VOLTAGE
GENERATOR
WRITE
INHIBITION
SI
INSTRUCTION
REGISTER
STATUS REGISTER
ADDRESS
HOLDB
ADDRESS
11bit
8bit
11bit
REGISTER
DECODER
16K
EEPROM
DATA
READ/WRITE
AMP
WPB
SO
8bit
REGISTER
Figure 5. Block diagram
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BR25H160-2C
●Pin Configuration
VCC HOLDB SCK
SI
BR25H160-2C
CSB
SO
WPB
GND
Figure 6. Pin assignment diagram
●Pin Descriptions
Terminal
number
Terminal
name
Input
/Output
Function
1
CSB
SO
Input
Output
Input
-
Chip select input
2
3
4
5
6
Serial data output
Write protect input
WPB
GND
SI
Write status register command is prohibited.
All input / output reference voltage, 0V
Input
Input
Start bit, ope code, address, and serial data input
Serial clock input
SCK
Hold input
7
8
HOLDB
VCC
Input
Command communications may be suspended
temporarily (HOLD status)
-
Power source to be connected
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BR25H160-2C
●Typical Performance Curves
6
6
5
4
3
2
1
0
Ta= -40
℃
Ta= -40
℃
5
4
3
2
1
0
Ta= 25
℃
Ta= 25
℃
Ta= 125
℃
Ta= 125
℃
SPEC
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
[
]
SUPPLY VOLTAGE : VCC V
[
]
Figure 7. Input High Voltage VIH
(CSB,SCK,SI,HOLDB,WPB)
Figure 8. Input Low Voltage VIL
(CSB,SCK,SI,HOLDB,WPB)
1
3
Ta= -40
℃
2.5
Ta= 25
℃
0.8
0.6
0.4
0.2
0
Ta= 125
℃
SPEC
2
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
1.5
SPEC
1
0.5
0
-1.2
0
1
2
3
4
5
6
-1
-0.8
-0.6
-0.4
-0.2
0
OUTPUT LOW CURRENT : IOL mA
[
]
OUTPUT HIGH CURRENT : IOH mA
[
]
Figure 9. Output Low Voltage VOL, IOL (Vcc=2.5V)
Figure 10. Output High Voltage VOH, IOH (Vcc=2.5V)
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BR25H160-2C
●Typical Performance Curves‐Continued
3.0
2.5
4
3
2
1
0
SPEC
Ta= -40
℃
Ta= 25
℃
SPEC
Ta= 125
℃
2.0
Ta= -40
℃
1.5
1.0
0.5
0.0
Ta= 25
℃
SPEC
Ta= 125
℃
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC [V]
SUPPLY VOLTAGE : VCC V
[
]
Figure 11. Input Leakage Current ILI
Figure 12. Output Leakage Current ILO(SO)(Vcc=5.5V)
(CSB,SCK,SI,HOLDB,WPB)
4
3
2
1
0
2.5
Ta= -40
℃
Ta= 25
℃
SPEC
Ta= 125
℃
SPEC
2
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
SPEC
1.5
SPEC
1
0.5
0
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
SUPPLY VOLTAGE : VCC V
[
]
[
]
Figure 14. Supply Current (READ) ICC3,4
Figure 13. Supply Current (WRITE) ICC1,2
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BR25H160-2C
●Typical Performance Curves‐Continued
5
12
10
8
SPEC
Ta= -40
℃
4
3
2
1
0
Ta= 25
℃
SPEC
Ta= 125
℃
Ta= -40
℃
Ta= 25
℃
6
4
2
0
Ta= 125
℃
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
[
]
SUPPLY VOLTAGE : VCC V
[
]
Figure 15. Supply Current (READ) ICC5
Figure.16 Standby Current ISB
100
10
1
100
80
60
40
20
0
SPEC
Ta= -40
℃
SPEC
Ta= 25
℃
Ta= 125
℃
SPEC
SPEC
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
0.1
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
SUPPLY VOLTAGE : VCC V
[
]
[
]
Figure 18. SCK High Time tSCKWH
Figure 17. SCK Frequency fSCK
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BR25H160-2C
●Typical Performance Curves‐Continued
100
80
60
40
20
0
100
SPEC
SPEC
80
Ta= -40
℃
Ta= -40
℃
Ta= 25
℃
Ta= 25
℃
60
40
20
0
Ta= 125
℃
Ta= 125
℃
SPEC
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
[
]
SUPPLY VOLTAGE : VCC V
[
]
Figure 20. CSB High Time tCS
Figure 19. SCK Low Time tSCKWL
100
80
60
40
20
0
100
80
60
40
20
0
SPEC
SPEC
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
SPEC
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
[
]
SUPPLY VOLTAGE : VCC V
[ ]
Figure 22. CSB Hold Time tCSH
Figure 21. CSB Setup Time tCSS
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BR25H160-2C
●Typical Performance Curves‐Continued
50
40
50
40
30
20
10
0
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
SPEC
30
20
10
0
SPEC
SPEC
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
[
]
SUPPLY VOLTAGE : VCC V
[ ]
Figure 23. SI Setup Time tDIS
Figure 24. SI Hold Time tDIH
100
80
60
40
20
0
100
80
60
40
20
0
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
Ta= -40
℃
Ta= 25
℃
Ta= 125
℃
SPEC
SPEC
SPEC
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
[
]
SUPPLY VOLTAGE : VCC V
[
]
Figure 26. Data Output Delay Time tPD2 (CL=30pF)
Figure 25. Data Output Delay Time tPD1 (CL=100pF)
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BR25H160-2C
●Typical Performance Curves‐Continued
120
50
40
30
20
10
0
SPEC
SPEC
100
Ta= -40
℃
80
60
40
20
0
Ta= -40
℃
Ta= 25
℃
SPEC
Ta= 25
℃
Ta= 125
℃
Ta= 125
℃
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
SUPPLY VOLTAGE : VCC V
[
]
[
]
Figure 28. HOLDB Setting Hold Time tHFH
Figure 27.Output Disable Time tOZ
100
80
60
40
20
0
120
90
60
30
0
SPEC
SPEC
Ta= -40
℃
Ta= 25
℃
Ta= -40
℃
Ta= 125
℃
Ta= 25
℃
Ta= 125
℃
SPEC
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
SUPPLY VOLTAGE : VCC V
[
]
[
]
Figure 30. Time from HOLDB to Output High-Z tHOZ
Figure 29. HOLDB Release Hold Time tHRH
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BR25H160-2C
●Typical Performance Curves‐Continued
100
100
80
60
40
20
0
Ta= -40
℃
Ta= 25
℃
Ta= -40
℃
80
60
40
20
0
Ta= 125
℃
Ta= 25
℃
Ta= 125
℃
SPEC
SPEC
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
[ ]
SUPPLY VOLTAGE : VCC V
[
]
Figure 31. Time from HOLDB to Output Change tHPD
Figure 32. Output Rise Time tRO
100
80
60
40
20
0
8
6
4
2
0
Ta= -40
℃
Ta= 25
℃
Ta= -40
℃
Ta= 125
℃
Ta= 25
℃
Ta= 125
℃
SPEC
SPEC
0
1
2
3
4
5
6
0
1
2
3
4
5
6
SUPPLY VOLTAGE : VCC V
[ ]
SUPPLY VOLTAGE : VCC V
[
]
Figure 34. Write Cycle Time tE/W
Figure 33. Output Fall Time tFO
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BR25H160-2C
●Features
○Status registers
This IC has status registers. The status registers are of 8 bits and express the following parameters.
BP0 and BP1 can be set by write status register command. These 2 bits are memorized into the EEPROM, therefore are
valid even when power source is turned off.
Number of data rewrite times and data hold time are same as characteristics of the EEPROM.
WEN can be set by write enable command and write disable command. WEN becomes write disable status when power
source is turned off. R/B is for write confirmation, therefore cannot be set externally.
The value of status register can be read by read status command.
●Status registers
Product number
bit 7
bit 6
0
bit 5
0
bit 4
0
bit 3
BP1
bit 2
BP0
bit 1
bit 0
――
BR25H160-2C
WPEN
WEN
R/B
Memory
bit
Function
Contents
location
WPB pin enable / disable designation bit
WPEN EEPROM
This enables / disables the functions of WPB pin.
WPEN=0=invalid , WPEN=1=valid
This designates the write disable area of
EEPROM. Write designation areas of product
numbers are shown below.
BP1
EEPROM
BP0
EEPROM write disable block designation bit
Write and write status register write enable
This confirms prohibited status or permitted
status of the write and the write status register.
WEN Register
/ disable status confirmation bit
WEN=0=prohibited , WEN=1=permitted
――
Write cycle status (READY / BUSY) confirmation bit
This confirms READY status or BUSY status of
the write cycle.
Register
R/B
R/B=0=READY , R/B=1=BUSY
●Write disable block setting
BP1
BP0
BR25H160-2C
0
0
1
1
0
1
0
1
None
600h-7FFh
400h-7FFh
000h-7FFh
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○WPB pin
By setting WPB=LOW, write command is prohibited. As for BR25H160-2C, only when WPEN bit is set “1”, the WPB pin
functions become valid. And the write command to be disabled at this moment is WRSR. However, when write cycle is in
execution, no interruption can be made.
Product number
BR25H160-2C
WRSR
WRITE
Prohibition possible
but WPEN bit “1”
Prohibition
impossible
○HOLDB pin
By HOLDB pin, data transfer can be interrupted. When SCK=”0”, by making HOLDB from “1” into”0”, data transfer to
EEPROM is interrupted. When SCK = “0”, by making HOLDB from “0” into “1”, data transfer is restarted.
●Command mode
Command
Contents
Ope codes
WREN
WRDI
Write enable
Write disable
Read
Write enable command
Write disable command
Read command
0000
0000
0000
0000
0000
0000
0110
0100
0011
0010
0101
0001
READ
WRITE
RDSR
WRSR
Write
Write command
Read status
register
Write status
register
Status register read command
Status register write command
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●Timing Chart
1. Write enable (WREN) / disable (WRDI) cycle
WREN (WRITE ENABLE): Write enable
CSB
SCK
SI
0
1
2
3
4
5
6
7
0
0
0
0
0
1
1
0
High-Z
SO
Figure 35. Write enable command
WRDI (WRITE DISABLE): Write disable
CSB
SCK
SI
0
1
2
3
4
5
6
7
0
0
0
0
0
1
0
0
High-Z
SO
Figure 36. Write disable
○This IC has write enable status and write disable status. It is set to write enable status by write enable command, and
it is set to write disable status by write disable command. As for these commands, set CSB LOW, and then input the
respective ope codes. The respective commands accept command at the 7-th clock rise. Even with input over 7 clocks,
command becomes valid.
When to carry out write and write status register command, it is necessary to set write enable status by the write enable
command. If write or write status register command is input in the write disable status, commands are cancelled. And even in
the write enable status, once write and write status register command is executed. It gets in the write disable status. After
power on, this IC is in write disable status.
2. Read command (READ)
CSB
SCK
~
~
~~
~~
~~
~~
~~
0
1
2
3
4
5
6
7
8
13
23
24
30
~~
~~
*
0
0
0
0
0
0
1
1
*
*
A10
A1 A0
~~
SI
~~
~~
~~
Product
number
BR25H160-2C
Address
length
A10-A0
~~
~~
High-Z
D7 D6
D2 D1 D0
SO
*=Don’t Care
Figure 37. Read command
By read command, data of EEPROM can be read. As for this command, set CSB LOW, then input address after read ope
code. EEPROM starts data output of the designated address. Data output is started from SCK fall of 23 clock, and from D7 to
D0 sequentially. This IC has increment read function. After output of data for 1 byte (8bits), by continuing input of SCK, data
of the next address can be read. Increment read can read all the addresses of EEPROM. After reading data of the most
significant address, by continuing increment read, data of the most insignificant address is read.
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3. Write command (WRITE)
CSB
~~
~~
~~
~~
~~
~~
0
1
2
3
4
5
6
7
8
13
23
24
30
31
SCK
~~
~~
~~
*
*
0
0
0
0
0
0
1
0
*
A10
A1
A0
D7 D6
D2
~~
D1 D0
SI
~~
Product
number
Address
length
High-Z
~~
~~
SO
BR25H160-2C
A10-A0
*=Don't Care
Figure 38. Write command
CSB valid timing
CSB
SCK
~~
~~
~~
~~
~~
~~
30
~~
(8n+16)-8 (8n+16)-7
(8n+16)-2(8n+16)-1
8n+16
0
1
2
3
4
5
6
7
8
13
23
24
25
31
32 33
~~
n=up to 32bytes
~~
~~
~~
~~
D7
D6
D0
0
0
0
0
0
0
1
0
A1
A0
D7 D6
D1
~~
D0 D7
D6
A10
SI
*
*
~~
~~
High-Z
~~
SO
*=Don't Care
Figure 39. N Byte page write command
By write command, data of EEPROM can be written. As for this command, set CSB LOW, then input address and data
after write ope code. Then, by making CSB HIGH, the EEPROM starts writing. The write time of EEPROM requires time of
tE/W (Max 4ms). During tE/W, other than status read command is not accepted. Start CSB after taking the last data (D0),
and before the next SCK clock starts. At other timing, write command is not executed, and this write command is
cancelled. This IC has page write function, and after input of data for 1 byte (8 bits), by continuing data input without
starting CSB, data up to 32 bytes can be written for one tE/W. In page write, the insignificant 5 bit of the designated
address is incremented internally at every time when data of 1 byte is input and data is written to respective addresses.
When data of the maximum bytes or higher is input, address rolls over, and previously input data is overwritten.
Write command is executed when CSB rises between the SCK clock rising edge to recognize the 8th bits of data input and
the next SCK rising edge. At other timings the write command is not executed and cancelled (Figure.48 valid timing c). In
page write, the CSB valid timing is every 8 bits. If CSB rises at other timings page write is cancelled together with the write
command and the input data is reset.
This column addresses are
Top address of this page
32byte
*1 n=2047d=7FFh : BR25H160-2C
*2 m=63 : BR25H160-2C
page0
page 1
page 2
・
000h
020h
040h
・
001h
021h
041h
・
002h
・・・
・・・
・・・
・
01Eh
03Eh
05Eh
・
01Fh
03Fh
05Fh
・
022h
042h
・
・
・
・
・
・
・
・
・
・
・
・
・
・
・
page m-1
n-63
n-31
n-62
n-30
n-61
n-29
・・・
・・・
n-33
n-1
n-32
*1 n
page *2
m
This column addresses are
the last address of this page
Figure 40. EEPROM physical address for Page write command (32Byte)
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○Example of Page write command
No.
①
Addresses of Page0
Previous data
000h
00h
001h
01h
55h
55h
55h
00h
00h
002h
02h
-
・・・・
・・・・
・・・・
・・・・
・・・・
・・・・
・・・・
01Eh
1Eh
-
01Fh
1Fh
-
②
2 bytes input data
After No.②
AAh
AAh
AAh
FFh
FFh
③
02h
AAh
-
1Eh
AAh
-
1Fh
55h
-
④
⑤
34 byte input data
After No.④
AAh
AAh
55h
a:In case of input the data of No.② which is 2 bytes page write command for the data of No.①, EEPROM data changes
like No.③.
b:In case of input the data of No.④ which is 34 bytes page write command for the data of No.①, EEPROM data changes
like No.⑤.
c:In case of a or b, when write command is cancelled, EEPROM data keep No.①.
In page write command, when data is set to the last address of a page (e.g. address “03Fh” of page 1), the next data will be
set to the top address of the same page (e.g. address “020h” of page 1). This is why page write address increment is
available in the same page. As a reference, if of 32 bytes, page write command is executed for 2 bytes the data of the other
30 bytes without addresses will not be changed.
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4. Status register write / read command
CSB
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
SCK
bit7
WPEN
bit6
bit5
bit4
bit3
bit2
bit1
bit0
*
*
*
*
*
0
0
0
0
0
0
0
1
BP1 BP0
SI
High-Z
SO
*=Don't care
Figure 41. Status register write command
Write status register command can write status register data. The data can be written by this command are 3 bits, that is,
WPEN (bit7), BP1 (bit3) and BP0 (bit2) among 8 bits of status register. By BP1 and BP0, write disable block of EEPROM
can be set. As for this command, set CSB LOW, and input ope code of write status register, and input data. Then, by
making CSB HIGH, EEPROM starts writing. Write time requires time of tE/W as same as write. As for CSB rise, start CSB
after taking the last data bit (bit0), and before the next SCK clock starts. At other timing, command is cancelled. Write
disable block is determined by BP1 and BP0, and the block can be selected from 1/4 of memory array, 1/2, and entire
memory array. (Refer to the write disable block setting table.)
To the write disabled block, write cannot be made, and only read can be made.
*
CSB
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
SCK
SI
0
0
0
0
1
0
1
0
bit7
WPEN
bit6
bit5
bit4
bit3
bit2
bit1
WEN
bit0
R/B
High-Z
0
0
0
BP1 BP0
SO
Figure 42. Status register read command
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●At standby
○Current at standby
Set CSB “H”, and be sure to set SCK, SI, WPB, HOLDB input “L” or “H”. Do not input intermediate electric potential.
○Timing
As shown in Figure.43, at standby, when SCK is “H”, even if CSB is fallen, SI status is not read at fall edge. SI status is
read at SCK rise edge after fall of CSB. At standby and at power ON/OFF, set CSB “H” status.
Even if CSB is fallen at SCK=SI=”H”,
SI status is not read at that edge.
CSB
Command start here. SI is read.
SCK
SI
0
1
2
Figure 43. Operating timing
●WPB cancel valid area
WPB is normally fixed to “H” or “L” for use, but when WPB is controlled so as to cancel write status register command and
write command, pay attention to the following WPB valid timing.
While write or write status register command is executed, by setting WPB = “L” in cancel valid area, command can be
cancelled. The Data area (from 7clock fall to 16clock rise) becomes the cancel valid area. However, once write is started, any
input cannot be cancelled. WPB input becomes Don’t Care, and cancellation becomes invalid.
CSB
SCK
6
7
15
16
tE/W
Ope Code
Data
Data write time
Invalid
Valid
Invalid
Figure 44. WPB valid timing (WRSR)
CSB
SCK
31
32
6
7
8
23
tE/W
Data write time
Ope code
Address
Data
Invalid
Invalid
Invalid
Invalid
Figure 45. WPB valid timing (WRITE)
●HOLDB pin
By HOLDB pin, command communication can be stopped temporarily (HOLD status). The HOLDB pin carries out command
communications normally when it is HIGH. To get in HOLD status, at command communication, when SCK=LOW, set the
HOLDB pin LOW. At HOLD status, SCK and SI become Don’t Care, and SO becomes high impedance (High-Z). To release
the HOLD status, set the HOLDB pin HIGH when SCK=LOW. After that, communication can be restarted from the point
before the HOLD status. For example, when HOLD status is made after A5 address input at read, after release of HOLD
status, by starting A4 address input, read can be restarted. When in HOLD status, leave CSB LOW. When it is set
CSB=HIGH in HOLD status, the IC is reset, therefore communication after that cannot be restarted.
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●Method to cancel each command
○READ
・Method to cancel : cancel by CSB = “H”
Ope code
8 bits
Address
16 bits
Data
8 bits
Cancel available in all areas of read mode
Figure 46 READ cancel valid timing
○RDSR
・Method to cancel : cancel by CSB = “H”
Data
Ope code
8 bits
8 bits
Cancel available in all
areas of rdsr mode
Figure 47 RDSR cancel valid timing
○WRITE,PAGE WRITE
a:Ope code, address input area.
Address
16bits
Data
tE/W
d
Ope code
8bits
Cancellation is available by CSB=”H”
b:Data input area (D7 to D1 input area)
Cancellation is available by CSB=”H”
8bits
b
a
c
c:Data input area (D0 area)
When CSB is started, write starts.
After CSB rise, cancellation cannot be made by any means.
d:tE/W area.
SCK
SI
D7 D6 D5 D4 D3 D2 D1 D0
Cancellation is available by CSB = “H”. However, when
write starts (CSB is started) in the area c, cancellation
cannot be made by any means. And by inputting on
SCK clock, cancellation cannot be made. In page write
mode, there is write enable area at every 8 clocks.
c
b
Figure 48. WRITE cancel valid timing
Note 1) If VCC is made OFF during write execution, designated address data is not guaranteed, therefore
write it once again.
Note 2) If CSB is started at the same timing as that of the SCK rise, write execution / cancel becomes unstable,
therefore, it is recommended to fall in SCK = “L” area. As for SCK rise, assure timing of tCSS / tCSH or higher.
○WRSR
a:From ope code to 15 rise.
14 15
16
17
SCK
SI
Cancel by CSB =”H”.
b:From 15 clock rise to 16 clock rise (write enable area).
When CSB is started, write starts.
D1
D0
a
b
c
After CSB rise, cancellation cannot be made by any means.
c:After 16 clock rise.
tE/W
c
Ope code
8 bits
Data
8 bits
Cancel by CSB=”H”. However, when write starts (CSB is started)
in the area b, cancellation cannot be made by any means.
And, by inputting on SCK clock, cancellation cannot be made.
a
b
Figure 49. WRSR cancel valid timing
Note 1) If VCC is made OFF during write execution, designated address data is not guaranteed, therefore write it once again
Note 2) If CSB is started at the same timing as that of the SCK rise, write execution / cancel becomes unstable,
therefore, it is recommended to fall in SCK = “L” area. As for SCK rise, assure timing of tCSS / tCSH or higher.
○WREN/WRDI
a:From ope code to 7-th clock rise, cancel by CSB = “H”.
7
8
9
SCK
b:Cancellation is not available when CSB is started after 7-th clock.
Ope code
8 bits
a
b
Figure 50. WREN/WRDI cancel valid timing
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●High speed operation
In order to realize stable high speed operations, pay attention to the following input / output pin conditions.
○Input terminal pull up, pull down resistance
When to attach pull up, pull down resistance to EEPROM input terminal, select an appropriate value for the
microcontroller VOL, IOL from VIL characteristics of this IC.
○Pull up resistance
VCC-VOLM
IOLM
RPU≧
・・・①
・・・②
Microcontroller
VOLM
“L” output
IOLM
EEPROM
VILE
RPU
VOLM≦
VILE
Example) When Vcc=5V, VILE=1.5V, VOLM=0.4V, IOLM=2mA,
“L” input
from the equation ①,
5-0.4
2×10-3
・VILE :EEPROM VIL specifications
・VOLM :Microcontroller VOL specifications
・IOLM :Microcontroller IOL specifications
RPU≧
∴RPU≦
2.3[kΩ]
Figure 51. Pull up resistance
With the value of Rpu to satisfy the above equation, VOLM
becomes 0.4V or lower, and with VILE (=1.5V), the equation ② is
also satisfied.
And, in order to prevent malfunction, mistake write at power ON/OFF, be sure to make CSB pull up.
○Pull down resistance
VOHM
Microcontroller
VOHM
EEPROM
VIHE
RPD≧
・・・③
・・・④
IOHM
VOHM≧
VIHE
RPD
“H” output
“H” input
IOHM
Example) When VCC=5V, VOHM=VCC-0.5V, IOHM=0.4mA,
VIHE=VCC×0.7V, from the equation③,
5-0.5
0.4×10-3
RPD≧
Figure 52. Pull down resistance
∴RPU≧
11.3[kΩ]
Further, by amplitude VIHE, VILE of signal input to EEPROM, operation speed changes. By inputting signal of amplitude of
VCC / GND level to input, more stable high speed operations can be realized. On the contrary, when amplitude of 0.8VCC /
0.2VCC is input, operation speed becomes slow.*1
In order to realize more stable high speed operation, it is recommended to make the values of RPU, RPD as large as possible,
and make the amplitude of signal input to EEPROM close to the amplitude of VCC / GND level.
(ж1 At this moment, operating timing guaranteed value is guaranteed.)
tPD_VIL characteristics
80
70
Spec
60
50
40
30
Vcc=2.5V
20
Ta=25
℃
VIH=Vcc
CL=100pF
10
0
0
0.2
0.4
0.6
0.8
1
VIL[V]
Figure 53. VIL dependency of data output delay time tPD
○SO load capacity condition
Load capacity of SO output terminal affects upon delay characteristic of SO output. (Data output delay time, time from
HOLDB to High-Z) In order to make output delay characteristic into higher speed, make SO load capacity small. In concrete,
“Do not connect many devices to SO bus”, “Make the wire between the controller and EEPROM short”, and so forth.
○Other cautions
Make the wire length from the microcontroller to EEPROM input signal same length, in order to prevent setup / hold violation
to EEPROM, owing to difference of wire length of each input.
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●I/O equivalence circuit
○Output circuit
SO
OEint.
Figure 54. SO output equivalent circuit
○Input circuit
RESETint.
CSB
Figure 55. CSB input equivalent circuit
SCK
SI
Figure 57. SI input equivalent circuit
Figure 56. SCK input equivalent circuit
WPB
HOLDB
Figure 59. WPB input equivalent circuit
Figure 58. HOLDB input equivalent circuit
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●Power-Up/Down conditions
○At power ON/OFF, set CSB “H” (=VCC).
When CSB is “L”, this IC gets in input accept status (active). If power is turned on in this status, noises and the likes may
cause malfunction, mistake write or so. To prevent these, at power ON, set CSB “H”. (When CSB is in “H” status, all inputs
are canceled.)
Vcc
Vcc
GND
Vcc
CSB
GND
Good
Bad
example
example
Figure 60. CSB timing at power ON/OFF
(Good example) CSB terminal is pulled up to VCC.
At power OFF, take 10ms or higher before supply. If power is turned on without observing this condition, the IC internal
circuit may not be reset, which please note.
(Bad example)
CSB terminal is “L” at power ON/OFF.
In this case, CSB always becomes “L” (active status), and EEPROM may have malfunction, mistake write owing to noises
and the likes.
Even when CSB input is High-Z, the status becomes like this case, which please note.
○LVCC circuit
LVCC (VCC-Lockout) circuit prevents data rewrite action at low power, and prevents wrong write.
At LVCC voltage (Typ. =1.9V) or below, it prevent data rewrite.
○P.O.R. circuit
This IC has a POR (Power On Reset) circuit as mistake write countermeasure. After POR action, it gets in write disable
status. The POR circuit is valid only when power is ON, and does not work when power is OFF. When power is ON, if the
recommended conditions of the following tR, tOFF, and Vbot are not satisfied, it may become write enable status owing to
noises and the likes.
Recommended conditions of tR, tOFF, Vbot
tR
Vcc
tR
tOFF
Vbot
tOFF
10ms or below
100ms or below
10ms or higher
10ms or higher
0.3V or below
0.2V or below
Vbot
0
Figure 61. Rise waveform
●Noise countermeasures
○VCC noise (bypass capacitor)
When noise or surge gets in the power source line, malfunction may occur, therefore, for removing these, it is
recommended to attach a bypass capacitor (0.1μF) between IC VCC and GND. At that moment, attach it as close to IC as
possible.And, it is also recommended to attach a bypass capacitor between board VCC and GND.
○SCK noise
When the rise time (tR) of SCK is long, and a certain degree or more of noise exists, malfunction may occur owing to clock
bit displacement. To avoid this, a Schmitt trigger circuit is built in SCK input. The hysteresis width of this circuit is set about
0.2V, if noises exist at SCK input, set the noise amplitude 0.2Vp-p or below. And it is recommended to set the rise time
(tR) of SCK 100ns or below. In the case when the rise time is 100ns or higher, take sufficient noise countermeasures.
Make the clock rise, fall time as small as possible.
○WPB noise
During execution of write status register command, if there exist noises on WPB pin, mistake in recognition may occur and
forcible cancellation may result, which please note. To avoid this, a Schmitt trigger circuit is built in WPB input. In the same
manner, a Schmitt trigger circuit is built in CSB input, SI input and HOLDB input too.
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BR25H160-2C
●Operational Notes
(1) Described numeric values and data are design representative values, and the values are not guaranteed.
(2) Application circuit
Although we can recommend the application circuits contained herein with a relatively high degree of confidence, we
ask that you verify all characteristics and specifications of the circuit as well as its performance under actual conditions.
Please note that we cannot be held responsible for problems that may arise due to patent infringements or
noncompliance with any and all applicable laws and regulations.
(3) Absolute maximum ratings
Operating the IC over the absolute maximum ratings may damage the IC. The damage can either be a short circuit
between pins or an open circuit between pins. Therefore, it is important to consider circuit protection measures, such as
adding a fuse, in case the IC is operated over the absolute maximum ratings.
(4) Ground Voltage
The voltage of the ground pin must be the lowest voltage of all pins of the IC at all operating conditions. Ensure that no
pins are at a voltage below the ground pin at any time, even during transient condition.
(5) Thermal consideration
Use a thermal design that allows for a sufficient margin by taking into account the permissible power dissipation (Pd) in
actual operating conditions. Consider Pc that does not exceed Pd in actual operating conditions (Pc≥Pd).
Package Power dissipation
Power dissipation
: Pd (W)=(Tjmax-Ta)/θja
: Pc (W)=(Vcc-Vo)×Io+Vcc×Ib
Tjmax : Maximum junction temperature=150℃, Ta : Peripheral temperature[℃] ,
θja : Thermal resistance of package-ambience[℃/W], Pd : Package Power dissipation [W],
Pc : Power dissipation [W], Vcc : Input Voltage, Vo : Output Voltage, Io : Load, Ib : Bias Current
(6) Short between pins and mounting errors
Be careful when mounting the IC on printed circuit boards. The IC may be damaged if it is mounted in a wrong
orientation or if pins are shorted together. Short circuit may be caused by conductive particles caught between the pins.
(7) Operation under strong electromagnetic field
Operating the IC in the presence of a strong electromagnetic field may cause the IC to malfunction.
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BR25H160-2C
●Part Numbering
B
R
2
5
H
1
6
0
x
x
x
-
2
C
x
x
BUS type
25: SPI
Operating temperature/
Operating voltage
H: -40℃ to +125℃ / 2.5V to 5.5V
Capacity
160= 16K
Package
FVM: MSOP8
FVT: TSSOP-B8
F: SOP8
FJ: SOP-J8
Process Code
Packaging and forming specification
E2: Embossed tape and reel
TR: Embossed tape and reel (MSOP8 package only)
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●Physical Dimension Tape and Reel Information
Package Name
MSOP8
<Tape and Reel information>
Tape
Embossed carrier tape
3000pcs
Quantity
TR
Direction
of feed
The direction is the 1pin of product is at the upper right when you hold
reel on the left hand and you pull out the tape on the right hand
(
)
1pin
Direction of feed
Order quantity needs to be multiple of the minimum quantity.
Reel
∗
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Package Name
TSSOP-B8
<Tape and Reel information>
Tape
Embossed carrier tape
3000pcs
Quantity
E2
Direction
of feed
The direction is the 1pin of product is at the upper left when you hold
reel on the left hand and you pull out the tape on the right hand
(
)
Direction of feed
1pin
Reel
Order quantity needs to be multiple of the minimum quantity.
∗
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Package Name
SOP8
(Max 5.35 (include.BURR))
(UNIT : mm)
PKG : SOP8
Drawing No. : EX112-5001-1
<Tape and Reel information>
Tape
Embossed carrier tape
2500pcs
Quantity
E2
Direction
of feed
The direction is the 1pin of product is at the upper left when you hold
reel on the left hand and you pull out the tape on the right hand
(
)
Direction of feed
1pin
Reel
Order quantity needs to be multiple of the minimum quantity.
∗
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Package Name
SOP-J8
<Tape and Reel information>
Tape
Embossed carrier tape
2500pcs
Quantity
E2
Direction
of feed
The direction is the 1pin of product is at the upper left when you hold
reel on the left hand and you pull out the tape on the right hand
(
)
Direction of feed
1pin
Reel
Order quantity needs to be multiple of the minimum quantity.
∗
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BR25H160-2C
●Marking Diagrams(TOP VIEW)
TSSOP-B8(TOP VIEW)
MSOP8 (TOP VIEW)
Part Number Marking
Part Number Marking
LOT Number
H
0
1
6
LOT Number
1PIN MARK
1PIN MARK
SOP8(TOP VIEW)
SOP-J8(TOP VIEW)
Part Number Marking
LOT Number
Part Number Marking
H 1 6 0
H 1 6 0
LOT Number
1PIN MARK
1PIN MARK
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●Revision History
Date
Revision
001
Changes
21. Mar. 2013
New Release
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Notice
General Precaution
1. Before you use our Products, you are requested to carefully read this document and fully understand its contents.
ROHM shall not be in any way responsible or liable for failure, malfunction or accident arising from the use of any
ROHM’s Products against warning, caution or note contained in this document.
2. All information contained in this document is current as of the issuing date and subject to change without any prior
notice. Before purchasing or using ROHM’s Products, please confirm the latest information with a ROHM sales
representative.
Precaution on using ROHM Products
1. If you intend to use our Products in devices requiring extremely high reliability (such as medical equipment,
aircraft/spacecraft, nuclear power controllers, etc.) and whose malfunction or failure may cause loss of human life,
bodily injury or serious damage to property (“Specific Applications”), please consult with the ROHM sales
representative in advance. Unless otherwise agreed in writing by ROHM in advance, ROHM shall not be in any way
responsible or liable for any damages, expenses or losses incurred by you or third parties arising from the use of any
ROHM’s Products for Specific Applications.
2. ROHM designs and manufactures its Products subject to strict quality control system. However, semiconductor
products can fail or malfunction at a certain rate. Please be sure to implement, at your own responsibilities, adequate
safety measures including but not limited to fail-safe design against the physical injury, damage to any property, which
a failure or malfunction of our Products may cause. The following are examples of safety measures:
[a] Installation of protection circuits or other protective devices to improve system safety
[b] Installation of redundant circuits to reduce the impact of single or multiple circuit failure
3. Our Products are not designed under any special or extraordinary environments or conditions, as exemplified below.
Accordingly, ROHM shall not be in any way responsible or liable for any damages, expenses or losses arising from the
use of any ROHM’s Products under any special or extraordinary environments or conditions. If you intend to use our
Products under any special or extraordinary environments or conditions (as exemplified below), your independent
verification and confirmation of product performance, reliability, etc, prior to use, must be necessary:
[a] Use of our Products in any types of liquid, including water, oils, chemicals, and organic solvents
[b] Use of our Products outdoors or in places where the Products are exposed to direct sunlight or dust
[c] Use of our Products in places where the Products are exposed to sea wind or corrosive gases, including Cl2,
H2S, NH3, SO2, and NO2
[d] Use of our Products in places where the Products are exposed to static electricity or electromagnetic waves
[e] Use of our Products in proximity to heat-producing components, plastic cords, or other flammable items
[f] Sealing or coating our Products with resin or other coating materials
[g] Use of our Products without cleaning residue of flux (even if you use no-clean type fluxes, cleaning residue of
flux is recommended); or Washing our Products by using water or water-soluble cleaning agents for cleaning
residue after soldering
[h] Use of the Products in places subject to dew condensation
4. The Products are not subject to radiation-proof design.
5. Please verify and confirm characteristics of the final or mounted products in using the Products.
6. In particular, if a transient load (a large amount of load applied in a short period of time, such as pulse. is applied,
confirmation of performance characteristics after on-board mounting is strongly recommended. Avoid applying power
exceeding normal rated power; exceeding the power rating under steady-state loading condition may negatively affect
product performance and reliability.
7. De-rate Power Dissipation (Pd) depending on Ambient temperature (Ta). When used in sealed area, confirm the actual
ambient temperature.
8. Confirm that operation temperature is within the specified range described in the product specification.
9. ROHM shall not be in any way responsible or liable for failure induced under deviant condition from what is defined in
this document.
Notice - Rev.004
© 2013 ROHM Co., Ltd. All rights reserved.
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Precaution for Mounting / Circuit board design
1. When a highly active halogenous (chlorine, bromine, etc.) flux is used, the residue of flux may negatively affect product
performance and reliability.
2. In principle, the reflow soldering method must be used; if flow soldering method is preferred, please consult with the
ROHM representative in advance.
For details, please refer to ROHM Mounting specification
Precautions Regarding Application Examples and External Circuits
1. If change is made to the constant of an external circuit, please allow a sufficient margin considering variations of the
characteristics of the Products and external components, including transient characteristics, as well as static
characteristics.
2. You agree that application notes, reference designs, and associated data and information contained in this document
are presented only as guidance for Products use. Therefore, in case you use such information, you are solely
responsible for it and you must exercise your own independent verification and judgment in the use of such information
contained in this document. ROHM shall not be in any way responsible or liable for any damages, expenses or losses
incurred by you or third parties arising from the use of such information.
Precaution for Electrostatic
This Product is electrostatic sensitive product, which may be damaged due to electrostatic discharge. Please take proper
caution in your manufacturing process and storage so that voltage exceeding the Products maximum rating will not be
applied to Products. Please take special care under dry condition (e.g. Grounding of human body / equipment / solder iron,
isolation from charged objects, setting of Ionizer, friction prevention and temperature / humidity control).
Precaution for Storage / Transportation
1. Product performance and soldered connections may deteriorate if the Products are stored in the places where:
[a] the Products are exposed to sea winds or corrosive gases, including Cl2, H2S, NH3, SO2, and NO2
[b] the temperature or humidity exceeds those recommended by ROHM
[c] the Products are exposed to direct sunshine or condensation
[d] the Products are exposed to high Electrostatic
2. Even under ROHM recommended storage condition, solderability of products out of recommended storage time period
may be degraded. It is strongly recommended to confirm solderability before using Products of which storage time is
exceeding the recommended storage time period.
3. Store / transport cartons in the correct direction, which is indicated on a carton with a symbol. Otherwise bent leads
may occur due to excessive stress applied when dropping of a carton.
4. Use Products within the specified time after opening a humidity barrier bag. Baking is required before using Products of
which storage time is exceeding the recommended storage time period.
Precaution for Product Label
QR code printed on ROHM Products label is for ROHM’s internal use only.
Precaution for Disposition
When disposing Products please dispose them properly using an authorized industry waste company.
Precaution for Foreign Exchange and Foreign Trade act
Since our Products might fall under controlled goods prescribed by the applicable foreign exchange and foreign trade act,
please consult with ROHM representative in case of export.
Precaution Regarding Intellectual Property Rights
1. All information and data including but not limited to application example contained in this document is for reference
only. ROHM does not warrant that foregoing information or data will not infringe any intellectual property rights or any
other rights of any third party regarding such information or data. ROHM shall not be in any way responsible or liable
for infringement of any intellectual property rights or other damages arising from use of such information or data.:
2. No license, expressly or implied, is granted hereby under any intellectual property rights or other rights of ROHM or any
third parties with respect to the information contained in this document.
Notice - Rev.004
© 2013 ROHM Co., Ltd. All rights reserved.
Daattaasshheeeett
Other Precaution
1. The information contained in this document is provided on an “as is” basis and ROHM does not warrant that all
information contained in this document is accurate and/or error-free. ROHM shall not be in any way responsible or
liable for any damages, expenses or losses incurred by you or third parties resulting from inaccuracy or errors of or
concerning such information.
2. This document may not be reprinted or reproduced, in whole or in part, without prior written consent of ROHM.
3. The Products may not be disassembled, converted, modified, reproduced or otherwise changed without prior written
consent of ROHM.
4. In no event shall you use in any way whatsoever the Products and the related technical information contained in the
Products or this document for any military purposes, including but not limited to, the development of mass-destruction
weapons.
5. The proper names of companies or products described in this document are trademarks or registered trademarks of
ROHM, its affiliated companies or third parties.
Notice - Rev.004
© 2013 ROHM Co., Ltd. All rights reserved.
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