S-817A14ANB-CUD-T2 参数 Datasheet PDF下载

SUPER-SMALL PACKAGE CMOS VOLTAGE REGULATOR

S-817 Series

2. S-817B series

Table 10

Rev.3.0

_00

Item

Output voltage

*1

Output current

*2

Symbol

V

OUT(E)

I

OUT

Conditions

V

IN

=V

OUT(S)

+2

V, I

OUT

=10

mA

V

OUT(S)

+2

V 1.1 V

≤

V

OUT(S)

≤

1.9 V

≤

V

IN

≤10

V 2.0 V

≤

V

OUT(S)

≤

2.9 V

3.0 V

≤

V

OUT(S)

≤

3.9 V

4.0 V

≤

V

OUT(S)

≤

4.9 V

5.0 V

≤

V

OUT(S)

≤

6.0 V

I

OUT

=

10

1.1 V

≤

V

OUT(S)

≤

1.4 V

mA

1.5 V

≤

V

OUT(S)

≤

1.9 V

2.0 V

≤

V

OUT(S)

≤

2.4 V

2.5 V

≤

V

OUT(S)

≤

2.9 V

3.0 V

≤

V

OUT(S)

≤

3.4 V

3.5 V

≤

V

OUT(S)

≤

3.9 V

4.0 V

≤

V

OUT(S)

≤

4.4 V

4.5 V

≤

V

OUT(S)

≤

4.9 V

5.0 V

≤

V

OUT(S)

≤

5.4 V

5.5 V

≤

V

OUT(S)

≤

6.0 V

V

OUT(S)

+

1 V

≤

V

IN

≤

10 V,

I

OUT

=

1 mA

V

OUT(S)

+

1 V

≤

V

IN

≤

10 V, I

OUT

=

1

µA

V

IN

=V

OUT(S)

+

1.1 V

≤

V

OUT(S)

≤

1.9 V,

1

µA ≤

I

OUT

≤

10 mA

2V

2.0 V

≤

V

OUT(S)

≤

2.9 V,

1

µA ≤

I

OUT

≤

20 mA

3.0 V

≤

V

OUT(S)

≤

3.9 V,

1

µA ≤

I

OUT

≤

30 mA

4.0 V

≤

V

OUT(S)

≤

4.9 V,

1

µA ≤

I

OUT

≤

40 mA

5.0 V

≤

V

OUT(S)

≤

6.0 V,

1

µA ≤

I

OUT

≤

50 mA

V

IN

=

V

OUT(S)

+

1 V, I

OUT

=

10 mA,

−40°C ≤

Ta

≤

85°C

V

IN

=

V

OUT(S)

+

2 V, no load

−

(Ta

=

25

°

C unless otherwise specified)

Measur-

Min. Typ. Max. Units ement

circuits

V

OUT(S)

V

OUT(S)

V

V

1

×

0.98

OUT(S)

×

1.02

20

−

−

mA

3

35

−

−

50

−

−

65

−

−

75

−

−

−

−

−

−

−

−

−

−

−

−

−

−

−

−

−

−

−

0.92

0.58

0.40

0.31

0.25

0.22

0.19

0.18

0.16

0.15

5

5

5

10

20

25

35

1.58

0.99

0.67

0.51

0.41

0.35

0.30

0.27

0.25

0.23

20

20

20

30

45

65

80

mV

V

1

Dropout voltage

*3

V

drop

Line regulation 1

Line regulation 2

Load regulation

∆

V

OUT1

∆

V

OUT2

∆

V

OUT3

∆

V

OUT

Output voltage

ppm

−

±100

−

*4

/°C

∆

Ta

•

V

OUT

temperature coefficient

Current consumption

I

SS

−

1.2

2.5

µA

2

Input voltage

V

IN

−

−

10

V

1

*1.

V

OUT(S)

:

Specified output voltage

V

OUT(E)

:

Effective output voltage

i.e., the output voltage when fixing I

OUT

(

=

10 mA) and inputting V

OUT(S)

+

2.0 V.

*2.

Output current at which output voltage becomes 95

%

of V

OUT(E)

after gradually increasing output current.

*3.

V

drop

=

V

IN1

−

(V

OUT(E)

×

0.98), where V

IN1

is the Input voltage at which output voltage becomes 98

%

of V

OUT(E)

after gradually decreasing input voltage.

*4.

Temperature change ratio for the output voltage [mV/°C] is calculated using the following equation.

∆

V

OUT

[

mV/

°

C

]

*1

=

V

OUT(S)

[

V

]

*2

× ∆

V

OUT

[

ppm/

°

C

]

*3

÷

1000

∆

Ta

∆

Ta

•

V

OUT

*1.

Temperature change ratio of the output voltage

*2.

Specified output voltage

*3.

Output voltage temperature coefficient

10

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