NIKO L431NA, L431M5A, L431M3A, L431VA Datasheet

NIKO-SEM

2.5V Low-Voltage Adjustable
Precision Shunt Regulator

GENERAL DESCRIPTION

FEATURES

L431

The L431 is a three-terminal adjustable shunt
regulator utilizing an accurate 2.5V band-gap
reference. The output voltage can be set to any
value between 2.5V (V

) to 29V with two

REF

external resistors as shown in the typical
application circuit. The device exhibit a wide
operating current range of 0.4 to 100 mA with a
typical dynamic impedance of 0.25Ω. The cha-

racteristics of these reference make it exce­llent replacements for zener diodes in many
applications such as digital voltmeters, power
supplies, and op amp circuitry. The 2.5V volt
reference makes it convenient to obtain a
stable reference from 5.0V logic supplies.
The L431 shunt regulator is available in three
voltage tolerances (0.5%, 1.0% and 2%) and
three package options (TO-92, SOT-23-3,
SOT-23-5 and SOIC-8).

SYMBOL & BLOCK DIAGRAM

z Internal amplifier with 70 mA capability
z Programmable output voltage to 29V
z 0.25Ωtypical output impedance

z Pin to pin compatible with TL431, LM431

, SC431 & AS431

z Trimmed band-gap design 0.5%, 1.0%

and 2% with three package options

z Low cost solution

APPLICATIONS

z Linear regulator controller
z Precision voltage reference
z Switching power supplies
z Battery operating equipment
z Instrumentation
z PCs, Computer disk drives

Reference (R)

Cathode (K)

Anode (A)

SYMBOL

Reference

(R) (K)

+

-

2.5 Vref

Anode (A)

FUNCTIONAL BLOCK DIAGRAM

Cathod

1

JAN-08-Y02

NIKO-SEM

2.5V Low-Voltage Adjustable

L431

Precision Shunt Regulator

ABSOLUTE MAXIMUM RATINGS

PARAMETER VALUE

Cathode-Anode Reverse Breakdown Voltage - VKA 30V
Anode-Cathode Forward Current - IAK 70 mA
Reference Input Current - I
Storage Temperature Range - T
Junction Temperature - TJ 150 °C
Lead Temperature (Soldering, 10 Seconds) - TL 300 °C

Continuous Power at 25 °C - P
TO-92
SOIC-8
SOT-23

10 mA

REF

-65 to +150 °C

STG

D

700 mW
650 mW
200 mW

RECOMMENDED CONDITIONS TYPICAL THERMAL RESISTANCES

Parameter Rating Package

Cathode Voltage (VKA) V

to 29V TO-92 160 °C/W 80 °C/W 6.3 mW/°C

REF

θJA θJC

Cathode Current (IK) 10 mA SOIC-8 175 °C/W 45 °C/W 5.7 mW/°C

SOT-23 575 °C/W 150 °C/W 1.7 mW/°C

Typ. Derating

ELECTRICAL SPECIFICATIONS

(Ambient temperature must be derated base on power dissipation and package thermal characteristics. The conditions are: VKA = V

= 10 mA unless otherwise stated)

I

K

PARAMETER TEST CONDITIONS MIN TYP MAX

Reference Voltage

TA = 25 °C, L431 (0.5%) 2.482 2.495 2.507
TA = 25 °C, L431 (1%) 2.470 2.495 2.520

UNITS

V

TA = 25 °C, L431 (2%) 2.445 2.495 2.550

∆V

Cathode Voltage

with Temp. 0.07 0.2

REF

V

REF

to

REF

to 10V -2.7 -1.0 Ration of Change in V

10V to 30V -2.0 -0.4 0.3
Reference Input Current 0.7 4
I

Temp. Deviation Over Temp. 0.4 1.2

REF

Min. IK for Regulation 0.4 1
Off State Leakage V
Dynamic Output Impedance

= 0V, VKA = 30V 0.04 250

REF

f ≤ 1KHz, IK = 1 to 70 mA

0.25 0.5

mV/°C

mV/V

µA
µA

mA

nA

Ω

and

REF

TEST

CIRCUIT

1

1

2

2
2
1
3
1

2

JAN-08-Y02

NIKO-SEM

TEST CIRCUITS

2.5V Low-Voltage Adjustable

L431

Precision Shunt Regulator

V

IN

I

REF

V

I

K

KA

IN

R1

V

REF

R2

- TEST CIRCUIT 1 -

KA

(V

)V

REF

=

- TEST CIRCUIT 2 -

Stability Boundary Condition For Shunt Regulation

VS. Cathode Current and Load Capacitance

I

KA

REF

VV

VV

KA

IN

I

K

I

KA

K (OFF)

- TEST CIRCUIT 3 -

>(V

V

)

REF

(OFF STATE CURRENT)

Test Circuit for Vka > Vref

12

150

Ik

R1

1023 4 56

The areas under the curves represent conditions that may

cause the device to oscillate. For curves B, C and D, R

V

BATT were adjusted to establish the initial VKA and IKA

conditions with C

to determine the ranges of stability.

L = 0. VBATT and CL then were adjusted

1 and

3

1

L431

2 3

R2

10K

CLVBATT

Test Circuit for Vka = Vref

150

12

Ik

1

CL

L431

2 3

JAN-08-Y02

e

NIKO-SEM

Small-Signal Gain and Phase Shift

VS. Frequency

2.5V Low-Voltage Adjustable

Precision Shunt Regulator

Test Circuit for Small Signal Gain and Phas

15K

L431

OUT

232

Ik

Cathode Current

VS. Cathode Voltage

1

12

10uF

8.25K

2 3

12

L431

GND

Cathode Current

VS. Cathode Voltage

Reference Impedance

VS. Junction Temperature

)

Ω

(

z

r

4

Ratio of Delta Reference Voltage to Delta Cathode Voltage

VS. Junction Temperature

)
V

/
V

m

ΔVz = 3V to 30V

­(

z
V

Δ

/
f
e

r
V

Δ

JAN-08-Y02