XC31BPN20AMR 参数 Datasheet PDF下载

XC31B

Series

■Electrical Characteristics

XC31BPN20A V

OUT

(T)

1)

=2.0V

PARAMETER

Input Voltage

Output Voltage

Detectable Temperature Range

Output Voltage

Temperature Coefficient

Temperature Sensitivity

Liniarity Margin Error

Load Stability

Supply Current 1

Supply Current 2

CE "High" Level Voltage

CE "Low" Level Voltage

T

D3)

T

SE

T

L4)

△V

OUT

I

SS

1

I

SS

2

V

CEH

V

CEL

I

OUT

=100µA, V

IN

=4.0V

-30℃≤Ta≤80℃

-30℃≤Ta≤80℃

-30℃≤Ta≤80℃

V

IN

=4.0V

1µA≤IOUT≤100µA

V

IN

=V

CE

=4.0V, Ta=25℃

V

IN

=4.0V, V

CE

=V

SS

, Ta=25℃

1.5

0.3

SYMBOL

V

IN

V

OUT

I

OUT

=100

µA

2)

, V

IN

=4.0V, Ta=25℃

1.94

-30

-3400

-6.8

-3900

-7.8

1

2.0

7

17

0.1

CONDITIONS

MIN

TYP

-

2.0

MAX

10

2.06

+80

-4400

-8.8

3.5

UNITS

V

V

℃

ppm/℃

mV/℃

%

mV

µA

µA

V

V

XC31BPN40A V

OUT

(T)

1)

=4.0V

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

-

MAX

10

4.12

+80

UNITS

V

V

℃

ppm/℃

mV/℃

%

mV

Input Voltage

Output Voltage

Detectable Temperature Range

Output Voltage

Temperature Coefficient

Temperature Sensitivity

V

IN

V

OUT

I

OUT

=100µA

2)

, V

IN

=6.0V,Ta=25℃

3.88

-30

T

D3)

T

SE

T

L4)

△V

OUT

I

SS

1

I

SS

2

V

CEH

V

CEL

I

OUT

=100µA, V

IN

=6.0V

-30℃≤Ta≤80℃

-30℃≤Ta≤80℃

-30℃≤Ta≤80℃

V

IN

=6.0V

1µA≤IOUT≤100µA

V

IN

=V

CE

=6.0V, Ta=25℃

V

IN

=6.0V, V

CE

=V

SS

, Ta=25℃

1.5

-3400

-13.6

2.0

-3900

-15.6

1

3.0

8

-4400

-17.6

3.5

9

Liniarity Margin Error

Load Stability

Supply Current 1

Supply Current 2

CE "High" Level Voltage

CE "Low" Level Voltage

18

0.1

µA

µA

V

0.3

V

Note:

1) V

OUT

(T)=Specified Output Voltage at 25°C.

2) Should output current exceed 100µA, output voltage drop will increase.

If this IC is to be used in applications where such currents are required, please use a buffer on the output.

3) Output voltage temperature coefficient T

D

is defined as

△V

OUT

T

D

＝

△Ta・V

OUT

4) Liniarity margin error is calculated as follows,

Tse・△Ta

where e

max

= maximum error.

The maximum error is the maximum difference between the actual measured value and the value on an approximated straight line.

T

L

＝

e

max

■Directions for use

GNotes

on Use

1. When the load capacitance CL is too large, oscillation may occur on the output signal.

2. Output signal overshoot will occur when the power (V

IN

) is switched on or when the power drastically flucturates. The chip enable (CE)

function is effective for helping to avoid overshoot and also in saving consumption current.

638