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High Reliability Serial EEPROMs

SPI BUS Serial EEPROMs

BR25□□□□family

BR25L010-W series, BR25L020-W series, BR25L040-W series, BR25L080-W series,

BR25L160-W series, BR25L320-W series, BR25L640-W series

Description

BR25L

-W series is a serial EEPROM of SPI BUS interface method.

Features

Page write

Number of

pages

16 Byte

BR25L010-W

32 Byte

BR25L080-W

BR25L160-W

BR25L320-W

BR25L640-W

Product

number

BR25L020-W

BR25L040-W

*1 BR25L080/160-W : SOP8, SOP-J8, SSOP-B8, TSSOP-B8

*2 BR25L320/640-W : SOP8, SOP-J8

BR25L series

Capacity

1Kbit

2Kbit

4Kbit

8Kbit

16Kbit

32Kbit

64Kbit

Bit format

128 X 8

256 X 8

512 X 8

1K X 8

2K X 8

4K X 8

8K X 8

Type

BR25L010-W

BR25L020-W

BR25L040-W

BR25L080-W

BR25L160-W

BR25L320-W

BR25L640-W

Power source

voltage

SOP8

SOP-J8

SSOP-B8

TSSOP-B8

FVT

MSOP8

FVM

TSSOP-B8J

FVJ

1.8 ~ 5.5V

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1/16

2010.07 -

Rev. B

BR25L010-W, BR25L020-W, BR25L040-W, BR25L080-W, BR25L160-W, BR25L320-W, BR25L640-W

Recommended action conditions

Unit

Technical Note

Absolute maximum ratings (Ta = 25˚C)

Parameter

Impressed voltage

Symbol

Limits

-0.3 ~

+6.5

450(SOP8)

450(SOP-J8)

Parameter

Power source voltage

Input voltage

Symbol

Vin

Limits

1.8 ~ 5.5

0 ~ V

Unit

Permissible

dissipation

300(SSOP-B8)

330(TSSOP-B8)

310(MSOP8)

Memory cell characteristics (Ta=25˚C, V

=1.8 ~ 5.5V)

Parameter

Number of data rewrite times

Data hold years

310(TSSOP-B8J)

Storage

temperature range

Operating

temperature range

Min.

1,000,000

Limits

Typ.

Max.

Unit

Times

Years

–

Tstg

Topr

Terminal voltage

–

-65 ~

+125

-40 ~

+85

-0.3 ~ V

+0.3

˚C

*1:Not 100% TESTED

Input / output capacity (Ta=25˚C, frequency=5MHz)

Parameter

Input capacity

Output capacity

Symbol Conditions

=GND

OUT

=GND

Min.

When using at Ta = 25˚C or higher, 4.5mW (*1, *2), 3.0mW (*3),

3.3mW(*4), 3.1mW (*5, *6) to be reduced per 1˚C

–

Max.

Unit

*1:Not 100% TESTED

Electrical characteristics (Unless otherwise specified, Ta =

–40

~ +85˚C, V

= 1.8 ~ 5.5V)

Parameter

"H" input voltage 1

"L" input voltage 1

"L" output voltage 1

"L" output voltage 2

"H" output voltage 1

"H" output voltage 2

Input leak current

Output leak current

Symbol

VIH1

VIL1

VOL1

VOL2

VOH1

VOH2

ILI

ILO

Min.

0.7x

-0.3

-0.5

-0.2

-1

Limits

Typ.

Max.

+0.3

0.3x

0.4

0.2

1.0

Unit

μA

1.8≤V

≤5.5V

1.8≤V

≤5.5V

IOL=2.1mA(V

=2.5V ~ 5.5V)

IOL=150μA(V

=1.8V ~ 2.5V)

IOH=-0.4mA(V

=2.5V ~ 5.5V)

IOH=-100μA(V

=1.8V ~ 2.5V)

=0 ~ V

OUT

=0 ~ V

,CS=V

=1.8V,fSCK=2MHz,tE/W=5ms

Byte write

Page write

Write status register

=2.5V,fSCK=5MHz,tE/W=5ms

Byte write

Page write

Write status register

=5.5V,fSCK=5MHz,tE/W=5ms

Byte write

Page write

Write status register

=2.5V,fSCK=5MHz

Read

Read status register

=5.5V,fSCK=5MHz

Read

Read status register

=5.5V

CS=HOLD=WP=V

,SCK=SI=V

or =GND,SO=OPEN

•

Radiation resistance design is not made.

Conditions

–

Current consumption at write

action

–

2.0

–

3.0

Current consumption at read

action

Standby current

ISB

–

1.5

–

2.0

μA

Block diagram

INSTRUCTION DECODE

CONTROL CLOCK

SCK

GENERATION

WRITE

INHIBITION

HIGH VOLTAGE

GENERATOR

VOLTAGE

DETECTION

INSTRUCTION

ADDRESS

DECODER

STATUS REGISTER

7~1 *1

3bit

HOLD

7~13bit *1

1K~64K

EEPROM

8bit

DATA

8bit

READ/WRITE

AMP

7bit : BR25L010-W

8bit : BR25L020-W

9bit : BR25L040-W

10bit : BR25L080-W

11bit : BR25L160-W

12bit : BR25L320-W

13bit : BR25L640-W

Fig.1 Block diagram

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2/16

2010.07 -

Rev. B

BR25L010-W, BR25L020-W, BR25L040-W, BR25L080-W, BR25L160-W, BR25L320-W, BR25L640-W

Pin assignment and description

HOLD

SCK

Technical Note

Terminal name Input/output

GND

SCK

Function

Power source to be connected

All input / output reference voltage, 0V

Chip select input

Serial clock input

Start bit, ope code, address, and serial data input

Serial data output

Hold input

Command communications may be suspended temporarily (HOLD status).

Write protect input

Write command is prohibited.

Write status register command is prohibited.

*1:BR25L010/020/040-W

–

Input

Output

Input

BR25L010-W

BR25L020-W

BR25L040-W

BR25L080-W

BR25L160-W

BR25L320-W

BR25L640-W

GND

HOLD

Fig. 2 Pin assignment diagram

Operating timing characteristics

(Ta = -40 ~ +85˚C, unless otherwise specified, load capacity C

100pF)

Parameter

Symbol

1.8≤V

<2.5V

2.5≤V

<5.5V

Unit

Min. Typ. Max. Min. Typ. Max.

MHz

–

200

–

200

–

200

–

200

–

200

–

200

–

200

–

150

–

Sync data input / output timing

tCS

tCSS

tSCKS

SCK

tSCKWL tSCKWH

tRC

tFC

fSCK

SCK frequency

tSCKWH

SCK high time

tSCKWL

SCK low time

tCS

CS high time

tCSS

CS setup time

tCSH

CS hold time

SCK setup time

tSCKS

SCK hold time

tSCKH

tDIS

SI setup time

tDIH

SI hold time

tPD1

Data output delay time 1

Data output delay time 2

tPD2

(CL

=30pF)

Output hold time

Output disable time

HOLD setting

setup time

HOLD setting

hold time

HOLD release

setup time

HOLD release

hold time

Time from HOLD

to output High-Z

Time from HOLD

to output change

SCK

rise time

SCK

fall time

OUTPUT

rise time

OUTPUT

fall time

Write time

tDIS tDIH

High-Z

Fig. 3 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

tCSH tSCKH

–

145

–

SCK

tOH

tOZ

tHFS

tHFH

tHRS

tHRH

tHOZ

tHPD

tRC

–

250

–

100

tPD

tOH

tRO,tFO tOZ

High-Z

–

120

140

–

250

150

100

–

100

Fig. 4 Input / output timing

SO is output in sync with data fall edge of SCK. Data is output

from the most significant bit MSB.

"H"

"L"

tHFS tHFH

tHRS tHRH

SCK

tDIS

–

n+1

tHOZ

High-Z

tHPD

n-1

HOLD

Dn+1

Dn-1

μs

Fig. 5 HOLD timing

tFC

tRO

tFO

tE/W

*1NOT 100% TESTED

AC measurement conditions

Parameter

Load capacity 1

Load capacity 2

Input rise time

Input fall time

Input voltage

Input / output judgment voltage

Symbol

Limits

Unit

Min. Typ. Max.

100

–

0.2V

/0.8V

0.3V

/0.7V

–

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3/16

2010.07 -

Rev. B

BR25L010-W, BR25L020-W, BR25L040-W, BR25L080-W, BR25L160-W, BR25L320-W, BR25L640-W

Technical Note

Characteristic data (The following characteristic data are Typ. values.)

0.8

VIH[V]

SPEC

VIL[V]

VOL[V]

Ta=85˚C

Ta=25˚C

Ta=-40˚C

0.6

Ta=85˚C

Ta=25˚C

0.4

SPEC

Ta=85˚C

Ta=25˚C

Ta=-40˚C

0.2

SPEC

[V]

IOL[mA]

Ta=-40˚C

0 0

Fig.6 "H" input voltage VIH(CS,SCK,SI,HOLD,WP)

Fig.7 "L" input voltage VIL(CS,SCK,SI,HOLD,WP)

Fig.8 "L" output voltage VOL-IOL(V

=1.8V)

2.6

Ta=-40˚C

1.8

0.8

2.4

0.6

VOH[V]

1.6

VOL[V]

VOH[V]

Ta=25˚C

Ta=85˚C

SPEC

0.4

Ta=85˚C

Ta=25˚C

2.2

Ta=25˚C

Ta=85˚C

SPEC

1.4

0.2

Ta=-40˚C

1.2

0.4

IOH[mA]

0.8

IOL[mA]

1.8

0.4

IOH[mA]

0.8

Fig.9 "H" output voltage VOH-IOH(V

=1.8V)

Fig.10 "L" output voltage VOL-IOL(V

=2.5V)

Fig.11 "H" output voltage VOH-IOH(V

=2.5V)

1.2

SPEC

1.2

SPEC

=2.5V 2mA

=5.5V 3mA

fSCK=5MHz

DATA=55h

SPEC

0.8

ILO[μA]

ILI[μA]

0.8

ICC2,3[mA]

SPEC

Ta=-40˚C

Ta=85˚C

Ta=25˚C

0.2

Ta=-40˚C

[V]

Ta=85˚C

Ta=25˚C

0.8

0.6

0.4

Ta=85˚C

Ta=25˚C

0.2

Ta=-40˚C

0.4

[V]

Fig.12 Input leak current ILI(CS,SCK,SI,WP,HOLD)

Fig.13 Output leak current ILO(SO)

Fig.14 Current consumption at WRITE operation

ICC1,2,3(WRITE,PAGE WRITE,WRSR,fSCK=5MHz)

BR25L010-W,BR25L020-W,BR25L040-W

2.5

fSCK=5MHz

DATA=55h

SPEC

ICC4,5[mA]

Vcc=2.5V 1.5mA

Vcc=5.5V 2.0mA

2.5

SPEC

Ta=25˚C

fSCK[MHz]

ISB[μA]

Ta=-40˚C

1.5

Ta=85˚C

SPEC

100

Ta=25˚C

Ta= -40˚C

1.5

SPEC

Ta=85˚C

Ta=25˚C

Ta= -40˚C

Ta=85˚C

0.5

[V]

0.1

[V]

Fig.15 Consumption current at READ operation

ICC4,5(READ,WRSR,fSK=5MHz)

Fig.16 Consumption current at standby operation ISB

Fig.17 SCK frequency fSCK

250

SPEC

200

250

SPEC

200

250

SPEC

200

tSCKWH[ns]

tSCKWL[ns]

150

tCS[ns]

150

SPEC

100

SPEC

Ta=85˚C

Ta=25˚C

100

Ta=25˚C

SPEC

Ta= -40˚C

Ta=85˚C

Ta=25˚C

Ta= -40˚C

[V]

Fig.18 tSCK high time tSCKWH

Fig.19 SCK low time tSCKWL

Fig.20 CS high time tCS

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4/16

2010.07 -

Rev. B

BR25L010-W, BR25L020-W, BR25L040-W, BR25L080-W, BR25L160-W, BR25L320-W, BR25L640-W

250

SPEC

200

250

Technical Note

SPEC

200

SPEC

150

tCSS[ns]

tCSH[ns]

tDIS[ns]

150

SPEC

100

SPEC

Ta=85˚C

Ta=25˚C

Ta=85˚C

Ta= -40˚C

-20

Ta= -40˚C Ta=25˚C

Ta=85˚C Ta=25˚C

Ta= -40˚C

-50

[V]

-40

[V]

Fig.21 CS setup time tCSS

Fig.22 CS hold time tCSH

Fig.23 SI setup time tDIS

SPEC

tDIH[ns]

tPD1[ns]

200

SPEC

150

tPD2[ns]

200

150

SPEC

Ta=85˚C

Ta= -40˚C

100

Ta=85˚C

SPEC

100

Ta=85˚C

SPEC

Ta= -40˚C

Ta=25˚C

[V]

Ta= -40˚C

Fig.24 SI hold time tDIH

Fig.25 Data output delay time tPD1(CL=100pF)

Fig.26 Data output delay time tPD2(CL=30pF)

300

140

SPEC

250

120

100

200

tHFH[ns]

tOZ[ns]

SPEC

Ta=25˚C

-20

[V]

Ta=85˚C

Ta=25˚C

Ta= -40˚C

SPEC

tHRH[ns]

150

SPEC

120

SPEC

150

SPEC

100

Ta=85˚C

Ta= -40˚C

Ta= -40˚C Ta=85˚C

Ta=25˚C

-30

[V]

Fig.27 Output disable time tOZ

Fig.28 HOLD setting hold time tHFH

Fig.29 HOLD release hold time tHRH

300

SPEC

250

160

SPEC

120

SPEC

200

tHPD[ns]

tHFH[ns]

SPEC

tRO[ns]

SPEC

Ta=85˚C

150

SPEC

100

Ta=85˚C

Ta=25˚C

Ta= -40˚C

-40

[V]

Ta=85˚C

Ta=25˚C

Ta= -40˚C

Ta=25˚C

Ta= -40˚C

[V]

Fig.30 Time from HOLD to output High-Z tHOZ

Fig.31 Time from HOLD to output change tHPD

Fig.32 Output rise time tRO

120

SPEC

tE/W[ms]

SPEC

tFO[ns]

SPEC

Ta=85˚C

Ta= -40˚C

Ta=25˚C

Ta= -40˚C

Ta=85˚C

Ta=25˚C

[V]

Fig.33 Output fall time

Fig.34 Write cycle time tE/W

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5/16

2010.07 -

Rev. B