ZR431F01TA - Zetex Semiconductors

ADJUSTABLE PRECISION

ZENER SHUNT REGULATOR

ISSUE 4 – SEPTEMBER 2000

ZR431

DEVICE DESCRIPTION

The ZR431 is a three terminal adjustable

shunt regulator offering excellent

temperature stability and output current

handling capability up to 100mA. The output

voltage may be set to any chosen voltage

between 2.5 and 20 volts by selection of two

external divider resistors.

The devices can be used as a replacement

for zener diodes in many applications

requiring an improvement in zener

performance.

FEATURES



Surface mount SO8, SOT223 and

SOT23 packages



TO92 package



2%, 1 % and 0.5% tolerance



Max. temperature coefficient 55 ppm/°C



Temperature compensated for operation

over the full temperature range



Programmable output voltage



A to 100mA current sink capability



Low output noise

APPLICATIONS



Shunt regulator



Series regulator



Voltage monitor



Over voltage/ under voltage protection



Switch mode power supplies

Gnd

Vref

SCHEMATIC DIAGRAM

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ZR431

ABSOLUTE MAXIMUM RATING

Cathode Voltage (VZ) 20V

Cathode Current 150mA

Operating Temperature -40 to 85°C

Storage Temperature -55 to 125°C

Recommended Operating Conditions

Min Max

Cathode Voltage Vref 20V

Cathode Current 50



A 100mA

Power Dissipation (Tamb=25°C,Tjmax=150°C)

SOT23 330mW

TO92 780mW

SOT223 2W

SO8 780mW

ELECTRICAL CHARACTERISTICS TEST CONDITIONS (Unless otherwise stated):Tamb=25°C

PARAMETER SYMBOL VALUE

UNITS CONDITIONS

MIN TYP MAX

Reference Voltage 2%

(1)0.5%

Vref 2.45

2.475

2.489

2.50

2.55

2.525

2.513

L=10mA (Fig1), VZ=Vref

Deviation of Reference Input

Voltage over Temperature

Vdev 8.0 17 mV IL=10mA, VZ=Vref

Ta=full range (Fig1)

Ratio of the change in

Reference Voltage to the

Change in Cathode

Voltage



Vref



-1.85 -2.7 mV/V VZ from Vref to 10V

IZ=10mA (Fig2)

-1.0 -2.0 mV/V VZ from 10V to 20V

IZ=10mA (Fig2)

Reference Input Current Iref 0.12 1.0



AR1=10k, R2=O/C, lL=10mA

(Fig2)

Deviation of Reference

Input Current over

Temperature



Iref 0.04 0.2



AR1=10k, R2=O/C, IL=10mA

Ta=full range (Fig2)

Minimum Cathode

Current for Regulation

IZmin 35 50



AVZ=Vref (Fig1)

Off-state Current IZoff 0.1



AVZ=20V, Vref =0V (Fig3)

Dynamic Output Impedance RZ0.75



VZ=Vref (Fig1), f=0Hz

(1) 0.5% SOT23 only.

For definitions of reference voltage temperature coefficient and dynamic output impedance see

NOTES following DC TEST CIRCUITS

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ZR431

TYPICAL CHARACTERISTICS

Cathode Current v Temperature Dynamic Impedance v Frequency

Frequency (Hz)

100

1.0

0.1

100 1k 10k 100k 1M

Dynamic Impedance (



)

Temperature (°C)

Minimum Cathode Current(



24-40 0 20 40 60-20 80

38 Vref=VZ

Reference Current v Temperature

Temperature (°C)

Reference Voltage (V)

100

-40 0 20 40 60-20 80

110

120

130

140

150

160

2.490

2.492

2.494

2.496

2.498

2.500

2.502

2.504

2.506

Reference Current (nA)

-40 0 20 40 60-20 80

Reference Voltage v Temperature

Temperature (°C)

IZ=10mA

Vref=VZ

IZ=10mA

Change in Vref v Cathode Voltage

Cathode Voltage (V)

-25

Change in Reference Output Voltage (mV)

5101520

-20

-15

-10

-5

0 IZ=10mA

Vref=VZ

10mA

1mA

SOT223

SO8/TO92

SOT23

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ZR431

TYPICAL CHARACTERISTICS

Gain v Frequency

Frequency (Hz)

Load Capacitance (F)

Stability Boundary Conditions

Time (



Pulse Response

15k

Test Circuit for Open Loop Voltage Gain

8k25



230

IZ = 10mA, TA= 25°C

Test Circuit for Stability Boundary Conditions

Input 150

10k

Vref < VZ< 20, IZ= 10mA, TA= 25°C

Input Monitor VZ

Test Circuit for Pulse Response

220

Pulse

Generator

TA= 25°C

0100 1k 10k 100k 1M

Open Loop Voltage Gain (dB)

Voltage Swing (V)

2.0

0 0.4 0.6 0.8 1.00.2

1.0

5.0

3.0 Repetitive pulse

Single pulse VZ

INPUT

STABLESTABLE

010p

100

100p 1000p 0.01



0.1



Cathode Current (mA)

4-192

APPLICATION CIRCUITS

ZR431

Vout = 1 + R1

R2 Vref

SERIES REGULATOR

V+

Vout

0.01µF

Vref

Vout = 1 + R1

R2 Vref

Vout = Vref + Vreg

MIN

OUTPUT CONTROL OF A

THREE TERMINAL FIXED REGULATOR

V+ Vout

Vref

ZSR***

In Out

Common

V+ Vout

Vout =

Vref

1 + R1

R2 Vref

HIGHER CURRENT SHUNT REGULATOR

V+

OUTPUT

INPUT

V= 2.5V

V 2V

V= V+

off

SINGLE SUPPLY COMPARATOR

WITH TEMPERATURE

COMPENSATED THRESHOLD

R2A

R1A

V+

Vref

R2B

R1B

Vref

1 + R1B

R2B Vref

OVER VOLTAGE / UNDER VOLTAGE

Low limit =

High limit = 1 + R1A

R2A Vref

Vout =

Vref

1 + R1

R2 Vref

SHUNT REGULATOR

V+ Vout

OUTPUT

4-193

Input

Fig 1 – Test Circuit for Vz=Vref

DC TEST CIRCUITS

Fig 2 – Test Circuit for Vz>Vref

Input V

zoff

Fig 3 – Test Circuit for Off

State current

ZR431

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NOTES

Deviation of reference input voltage, Vdev, is defined as the maximum variation of the reference

input voltage over the full temperature range.

The average temperature coefficient of the reference input voltage, Vref is defined as:

Vref



ppm



°C



Vdev x 1000000

Vref







The dynamic output impedance, Rz, is defined as:





When the device is programmed with two external

resistors, R1 and R2, (fig 2) , the dynamic output

impedance of the overall circuit, R’, is defined as:

R’









Vmax

Vmin

Vdev = Vmax - Vmin

ZR431

TO92 Package Suffix – C

Bottom View

CONNECTION DIAGRAMS

SO8 Package Suffix – N8

Top View

SOT223 Package Suffix – G

Top View –

Pin 4 floating or connected to pin 2

SOT23 Package Suffix – F

Top View

Part Number Package Tol.

Part Mark

ZR431C01 TO92 1.0 ZR43101

ZR431C TO92 2.0 ZR431

ZR431G01 SOT223 1.0 ZR43101

ZR431G SOT223 2.0 ZR431

ZR431F005 SOT23 0.5 43R

ZR431F01 SOT23 1.0 43B

ZR431F SOT23 2.0 43A

ZR431N801 SO8 1.0 ZR43101

ZR431N8 SO8 2.0 ZR431

ORDERING INFORMATION

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