TL431ACUN_技术文档

AIC431/TL431A/TL431

Adjustable Precision Shunt Regulators

FEATURES

DESCRIPTION

n

The AIC431/TL431A/TL431 are 3-terminal ad-

justable precision shunt regulators with guar-

anteed temperature stability over the applica-

ble extended commercial temperature range.

The output voltage may be set at any level

greater than 2.495V (V_REF) up to 30V merely

by selecting two external resistors that act as

l Unconditionally Stable.

l Precision Reference Voltage.

AIC431 :2.495V ±0.5%

TL431A :2.495V ±1.0%

TL431

:2.495V ±1.6%

l Sink Current Capability: 200mA.

l Minimum Cathode Current for Regulation: 250mA.

a voltage divider network. These devices have

a typical output impedance of 0.08W. Active

output circuitry provides a very sharp turn-on

characteristics, making these devices excel-

lent improved replacements for zener diodes

in many applications.

l Equivalent Full-Range Temperature Coefficient:

50 ppm/°C.

l Fast Turn-On Response.

l Low Dynamic Output Impedance: 0.08W.

l Adjustable Output Voltage.

l Low Output Noise.

l Space Saving SOT-89, SOT-23, TO-92 and SO8

The precise ±0.5% reference voltage toler-

ance of the AIC431 makes it possible in

many applications to avoid the use of a vari-

able resistor, consequently saving cost and

eliminating drift and reliability problems asso-

ciated with it.

packages.

TYPICAL APPLICATION CIRCUIT

n

VIN

VOUT

+

R1

R2

AIC431

V_OUT=(1+R1/R2)V_REF

Precision Regulator

Analog Integrations Corporation 4F, 9, Industry E. 9th Rd, Science Based Industrial Park, Hsinchu Taiwan, ROC

DS-431-06 May 31, 01 TEL: 886-3-5772500 FAX: 886-3-5772510

www.analog.com.tw

1

AIC431/TL431A/TL431

ORDERING INFORMATION

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AIC431 CX

TL431A CX

TL431 CX

ORDER NUMBER

PIN CONFIGURATION

TOP VIEW

AIC431CS

TL431ACS

TL431CS

(SO-8)

1

REF

CATHOD

ANODE

NC

8

7

6

5

PACKAGING TYPE

S: SMALL OUTLINE

U: SOT-23

ANODE

NC

2

3

4

X: SOT-89

Z: TO-92

3

FRONT VIEW

1: CATHODE

2: VREF

AIC431CUN

TL431ACUN

TL431CUN

(SOT-23)

3: ANODE

1

2

3

FRONT VIEW

1: VREF

2: CATHODE

3: ANODE

AIC431CUS

TL431ACUS

TL431CUS

(SOT-23)

1

2

FRONT VIEW

1: VREF

2: ANODE

AIC431CX

TL431ACX

TL431CX

(SOT-89)

3: CATHODE

1

2

3

FRONT VIEW

1: VREF

2: ANODE

AIC431CZ

TL431ACZ

TL431CZ

(TO-92)

1

3: CATHODE

2

3

ABSOLUTE MAXIMUM RATINGS

n

Cathode Voltage ........……………...............……………..………...............................30V

Continuous Cathode Current ...................………….……...................... -10mA ~ 250mA

Reference Input Current Range .......…………........……..........…………………… 10mA

Operating Temperature Range .......………….........……….........……………. -40°C ~ 85°C

Lead Temperature .......…………..................………………..………………………. 260°C

Storage Temperature .......…………..................……………..…………….. -65°C ~ 150°C

Power Dissipation (Notes 1, 2)

SOT-89 Package .........…………...... 0.80W

TO-92 Package ….......…………....... 0.78W

Note 1: T

= 150°C.

Note 2: Ratings apply to ambient temperature at 25°C.

J, max

2

AIC431/TL431A/TL431

TEST CIRCUITS

n

IN

I_L

V_Z

IN

I_L

R1

AIC431

I_REF

V_Z

I_REF

I_Z

R2

V_REF

AIC431

Note: V_Z=V_REF(1+R1/R2)+I_REFxR1

Fig. 1 Test Circuit for V_Z=V_REF

Fig. 2 Test circuit for V_Z>V_REF

IN

VZ

AIC431

IZ(OFF)

Fig. 3 Test circuit for off-state Current

ELECTRICAL CHARACTERISTICS (Ta=25°C, unless otherwise specified.)

n

SYMBOL

PARAMETER

TEST CONDITIONS

MIN.

TYP.

MAX.

UNIT

V_Z=V_REF

,

AIC431

2.482

2.495

2.508

IL =10mA (Fig. 1)

TL431A

TL431

2.470

2.455

2.495

2.520

2.535

Reference Voltage

V_REF

V

Deviation of Reference

Input Voltage Over

Temperature (Note 3)

V_Z= V_REF, I_L=10mA,

V_DEV

9.0

20

mV

Ta = 0°C~ +85°C (Fig. 1)

Ratio of the Change in Refer-

ence Voltage to

the Change in Cathode volt-

age

I_Z=10mA

(Fig. 2)

DV_Z=10V-V_REF

DV_Z=30V-10V

-0.5

-0.35

0.8

-2.0

-1.5

3.5

mV/V

mA

DV_REF

DV_Z

Reference Input Current

R1 =10KW, R2=¥ ,

I_L=10mA (Fig. 2)

I_REF

3

AIC431/TL431A/TL431

Deviation of Reference Input

Current over Temperature

R1 =10KW, R2=¥ ,

I_L=10mA

a I_REF

0.3

1.2

mA

Ta =-20°C ~ +85°C (Fig. 2)

4

AIC431/TL431A/TL431

ELECTRICAL CHARACTERISTICS (Continued)

n

SYMBOL

PARAMETER

TEST CONDITIONS

V_Z=V_REF(Fig. 1)

MIN.

TYP.

MAX.

UNIT

Minimum Cathode current for

Regulation

I_Z(MIN)

0.25

0.5

mA

Off-State Current

V_Z=20V, V_REF=0V (Fig. 3)

I_Z(OFF)

R_Z

0.1

1.0

0.3

mA

Dynamic Output Impedance

V_Z=V_REF

0.08

W

(Note 4)

Frequency= 0Hz (Fig. 1)

Where:

T₂- T₁=full temperature change.

V_MAX

a V_REFcan be positive or negative depending on

whether the slope is positive or negative.

Example: V_DEV= 9.0mV, V_REF= 2495mV,

T₂- T₁= 70°C, slope is negative.

VDEV = VMAX-VMIN

V_MIN

9.0mV

6

é

ê

ë

ù

ú

û

10

2495mV

aVREF =

= - 50ppm/°C

70°C

T₁

T₂

TEMPERATURE

Note 4. The dynamic output impedance, R , is de-

fined as:

Note 3. Deviation of reference input voltage, V_DEV, is de-

fined as the maximum variation of the reference input

voltage over the full temperature range.

z

DVZ

R_Z=

DIZ

The average temperature coefficient of the reference in-

put voltage, a V_REFis defined as:

When the device is programmed with two external re-

sistors, R1 and R2, (see Fig. 2), the dynamic output

impedance of the overall circuit, is defined as:

é

ù

é

ù

VMAX- VMIN

VREF(at 25°C)

T2 - T1

VDEV

VREF(at25°C)

T2 - T1

6

±

10

±

10

ú

ê

ú

ê

DVz

DIz

R1

R2

ppm

ë

û

ë

û

rz =

@ Rz

[

1+

]

DVREF

=

°C

TYPICAL PERFORMANCE CHARACTERISTICS

n

Cathode Current vs Cathode Voltage

Reference Voltage vs Temperature

1000

800

600

400

200

0

2.58

2.56

2.54

2.52

2.50

2.48

2.46

2.44

2.42

2.40

V_Z=V_REF

I_Z=10mA

°

T_A=25 C

I_Z(MIN)

V_REF=2.535V

V_REF=2.495V

-200

-400

-600

V_REF=2.455V

-1.0

-0.5

0.0

0.5

1.0

1.5

2.0

2.5

3.0

-40

-20

0

20

40

60

80

100

120

Cathode Voltage (V)

°

Temperature ( C)

5

AIC431/TL431A/TL431

TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

n

Dynamic Impedance vs Temperature

Reference Input Current vs Temperature

0.28

0.24

0.20

0.16

0.12

0.08

0.04

0.00

1.20

1.15

1.10

1.05

1.00

0.95

0.90

0.85

0.80

0.75

0.70

W

R1=10K

V_Z=V_REF

R2=¥

I_Z=10mA

I_Z=1mA to100mA

F <1KHz

-40

-20

0

20

40

60

80

100

120

-40

-20

0

20

40

60

80

100

120

°

Temperature ( C)

°

Temperature ( C)

Off-State Cathode Current vs Temperature

Change in Reference Voltage vs Cathode Voltage

0

-1

-2

-3

-4

-5

-6

2.5

2.0

1.5

1.0

0.5

0.0

I_Z=10mA

V_REF=0V

V_Z=30V

T_A=25°C

0

5

10

15

20

25

30

35

40

-40

-20

0

20

40

60

80

100

120

°

Temperature ( C)

Cathode Voltage (V)

Small Signal Voltage Amplification vs Frequency

I_Z=10mA

80

70

60

50

40

30

20

10

0

Output

°

TA=25 C

R1

10K

R

m

47 F

250

Av

+

C_IN

AIC431

V_IN

V1

-10

10

100

1k

10k

100k

1M

10M

Frequency (Hz)

Test Circuit For Frequency Response

6

AIC431/TL431A/TL431

TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

n

Pulse Response

RB

Input

220

OUTPUT

AIC431

Pulse

Generator

f=100kHz

RA

50

Output

Test Circuit For Pulse Respnose

Stability Boundary Conditions

100

80

60

40

20

0

VZ

V_Z=V_REF

Stable

R

150

AIC431

C_L

VIN

Stable

1E-4

1E-3

0.01

0.1

1

10

m

Load Capacitance ( F)

The areas between the curves represent condition that

may cause the device oscillate

Test Circuit for Stability Boundary Conditions

Dynamic impedance vs. Frequency

10

Iz=10mA

°

TA=25 C

R1

Output

50

1

AIC431

+

R2

50

AC

3V

+

0.1

GND

1K

10K

100K

1M

Frequency(Hz)

7

AIC431/TL431A/TL431

n

SYMBOL

BLOCK DIAGRAM

n

CATHODE (C)

REF (R)

+

REF (R)

-

AIC431

2.495V

ANODE (A)

APPLICATION EXAMPLES

V

IN

V

IN

R1B

R

R1A

AIC431

R2A

AIC431

+

R2B

ON

C

OFF

LED on when Low Limit<V_IN< High Limit

V

IN

Low Limit @ V_REF(1+R1B/R2B)

Delay=R x C x

ln (

)

V

IN- VREF

High Limit @ V_REF(1+R1A/R2A)

Fig. 4 Voltage Monitor

Fig. 5Delay Timer

V_IN

I_OUT

I

OUT

R

CL

V

IN

AIC431

R S

AIC431

I_OUT=V_REF/ R_CL

Fig. 6 Current Limiter or Current Source

I_OUT=V_REF/R_S

Fig. 7 Constant-Current Sink

8

AIC431/TL431A/TL431

APPLICATION EXAMPLES (Continued)

n

V_OUT

FUSE

V

V_IN

V

OUT

IN

R1

AIC431

R2

V_OUT@ (1+R1/R2) x V_REF

V_LIMIT@ (1+R1/R2) x V_REF

Fig 8. Higher-Current Shunt Regulator

Fig 9. Crow Bar

V

IN

R1B

R1A

AIC431

Output ON when

Low Limit <V < High Limit

IN

+

AIC431

V

BE

R2A

R2B

Low Limit@ V_REF( 1+ R1B/ R2B )+ V_BE

High Limit @ V_REF( 1+ R1A/ R2A )

Fig 10. Over-Voltage/Under-Voltage Protection Circuit

9

AIC431/TL431A/TL431

PHYSICAL DIMENSIONS

n

l 8 LEAD PLASTIC SO (unit: mm)

D

SYMBOL

MIN

1.35

0.10

0.33

0.19

4.80

3.80

MAX

1.75

0.25

0.51

0.25

5.00

4.00

A

A1

B

H

E

C

D

E

e

1.27(TYP)

A

H

L

5.80

0.40

6.20

1.27

C

B

L

l SOT-23 (unit: mm)

C

SYMBOL

MIN

MAX

1.30

0.10

0.90

0.50

0.25

3.10

1.80

D

A

A1

A2

b

1.00

—

L

0.70

0.35

0.10

2.70

1.40

E

H

C

q

1

e

D

E

A

e

1.90 (TYP)

A2

H

2.60

0.37

1°

3.00

—

A1

L

b

θ1

9°

l SOT-23 MARKING

Part No.

Marking

AC1N

AC2N

AC3N

Part No.

AIC431CUS

TL431CUS

Marking

AIC431CUN

TL431CUN

TL431ACUN

AC1S

AC2S

AC3S

TL431ACUS

10

AIC431/TL431A/TL431

PHYSICAL DIMENSIONS (Continued)

n

l SOT-89 (unit: mm)

A

D

SYMBOL

MIN

1.40

0.36

0.35

4.40

1.62

2.29

MAX

1.60

0.48

0.44

4.60

1.83

2.60

D1

A

B

C

D

D1

E

H

E

L

e

1.50 (TYP.)

3.00 (TYP.)

B

e

e1

H

L

e1

3.94

0.89

4.25

1.20

l SOT-89 MARKING

Part No.

Marking

AC01B

AC02B

AC03B

AIC431CX

TL431CX

TL431ACX

l TO-92 (unit: mm)

SYMBOL

MIN

4.32

MAX

5.33

E

L

A

C

D

E

C

0.38 (TYP.)

e1

4.40

3.17

5.20

4.20

D

e1

L

1.27 (TYP.)

12.7

-

11


型号：	TL431ACUN
厂家：	ANALOG INTERGRATIONS CORPORATION
描述：	Adjustable Precision Shunt Regulators 可调式精密并联稳压器稳压器
文件：	总11页 (文件大小：193K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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