S-93C76AFM-TF-U

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39

3-WIRE SERIAL E

2

PROM

Rev.7.0

_00

S-93C76A

Seiko Instruments Inc.

19

1. 7 Current consumption (WRITE) I

CC2

vs. ambient temperature Ta

1. 8 Current consumption (WRITE) I

CC2

vs. ambient temperature Ta

Ta (°C)

1.0

0.5

V

CC

= 5.5 V

0

−40

0 85

I

CC2

(mA)

I

CC2

(mA)

Ta (°C)

1.0

0.5

V

CC

= 3.3 V

0

−

40

0 85

1. 9 Current consumption (WRITE) I

CC2

vs. ambient temperature Ta

1. 10 Current consumption (WRITE) I

CC2

vs. power supply voltage V

CC

Ta (°C)

1.0

0.5

V

CC

= 2.7 V

0

−40

0 85

I

CC2

(mA)

1.0

0.5

0

2 3 4 5 6 7

Ta = 25°C

V

CC

(V)

I

CC2

(mA)

1. 11 Current consumption in standby mode I

SB

vs. ambient temperature Ta

1. 12 Current consumption in standby mode I

SB

vs. power supply voltage V

CC

Ta (°C)

1.0

0.5

V

CC

= 5.5 V

CS = GND

0

−40

0 85

I

SB

(μA)

I

SB

(μA)

1.0

0.5

0

2 3 4 5 6 7

Ta = 25°C

CS = GND

V

CC

(V)

3-WIRE SERIAL E

2

PROM

S-93C76A

Rev.7.0

_00

Seiko Instruments Inc.

20

1. 13 Input leakage current I

LI

vs. ambient temperature Ta

1. 14 Input leakage current I

LI

vs. ambient temperature Ta

1.0

0.5

V

CC

= 5.5 V

CS, SK, DI,

TEST = 0 V

0

−40

0 85

I

LI

(μA)

Ta (°C)

Ta (°C)

1.0

0.5

0

−

40

0 85

V

CC

= 5.5 V

CS, SK, DI,

TEST = 5.5 V

I

LI

(μA)

1. 15 Output leakage current I

LO

vs. ambient temperature Ta

1. 16 Output leakage current I

LO

vs. ambient temperature Ta

Ta (°C)

1.0

0.5

V

CC

= 5.5 V

DO = 0 V

0

−40 0 85

I

LO

(μA)

Ta (°C)

1.0

0.5

V

CC

= 5.5 V

DO = 5.5 V

0

−

40

0 85

I

LO

(μA)

1. 17 High-level output voltage V

OH

vs. ambient temperature Ta

1. 18 High-level output voltage V

OH

vs. ambient temperature Ta

Ta (°C)

4.6

4.4

V

CC

= 4.5 V

I

OH

= −400 μA

−40

0 85

V

OH

(V)

4.2

Ta (°C)

2.7

2.6

V

CC

= 2.7 V

I

OH

= −100 μA

−

40

0 85

V

OH

(V)

2.5

3-WIRE SERIAL E

2

PROM

Rev.7.0

_00

S-93C76A

Seiko Instruments Inc.

21

1. 19 High-level output voltage V

OH

vs. ambient temperature Ta

1. 20 High-level output voltage V

OH

vs. ambient temperature Ta

Ta (°C)

2.5

2.4

V

CC

= 2.5 V

I

OH

= −100 μA

−40 0 85

V

OH

(V)

2.3

Ta (°C)

1.9

1.8

V

CC

= 1.8 V

I

OH

= −10 μA

−

40

0 85

V

OH

(V)

1.7

1. 21 Low-level output voltage V

OL

vs. ambient temperature Ta

1. 22 Low-level output voltage V

OL

vs. ambient temperature Ta

Ta (°C)

0.3

0.2

V

CC

= 4.5 V

I

OL

= 2.1 mA

−40

0 85

V

OL

(V)

0.1

Ta (°C)

0.03

0.02

V

CC

= 1.8 V

I

OL

= 100 μA

−

40

0 85

V

OL

(V)

0.01

1. 23 High-level output current I

OH

vs. ambient temperature Ta

1. 24 High-level output current I

OH

vs. ambient temperature Ta

Ta (°C)

−20.0

−10.0

V

CC

= 4.5 V

V

OH

= 2.4 V

0

−40

0 85

I

OH

(mA)

Ta (°C)

−

2

−

1

V

CC

= 2.7 V

V

OH

= 2.4 V

0

−

40

0 85

I

OH

(mA)

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39

S-93C76AFM-TF-U

Mfr. #:

Buy S-93C76AFM-TF-U

Manufacturer:

ABLIC

Description:

EEPROM MICROWIRE EEPROM

Lifecycle:

New from this manufacturer.

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