TS431_1 Datasheet, PDF(2/13 Page) Taiwan Semiconductor Company, Ltd

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TS431_1 Datasheet, PDF (2/13 Pages) Taiwan Semiconductor Company, Ltd – Adjustable Precision Shunt Regulator

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TS431

Adjustable Precision Shunt Regulator

Recommend Operating Condition

Parameter

Cathode Voltage (Note 1)

Continuous Cathode Current Range

Symbol

VKA

Limit

Ref ~ 36

1 ~ 100

Unit

Recommend Operating Condition

Parameter

Symbol

Test Conditions

Min Typ Max Unit

Reference voltage

TS431

TS431A

TS431B

VREF

VKA =VREF, IK =10mA (Figure 1)

Ta=25oC

2.446

2.550

2.470 2.495 2.520 V

2.483

2.507

Deviation of reference input

voltage

â VREF

VKA = VREF, IK =10mA (Figure 1)

Ta= full range

Radio of change in Vref to

change in cathode Voltage

Reference Input current

âVREF

/âVKA

IREF

IKA =10mA, VKA = 10V to VREF

VKA = 36V to 10V (Figure 2)

R1=10KÎ©, R2= â , IKA =10mA

Ta= full range (Figure 2)

-1.4

-1.0

-2.7

-2.0

mV/V

0.7

4.0

Deviation of reference input

current, over temp.

âIREF

R1=10KÎ©, R2= â , IKA =10mA

Ta= full range (Figure 2)

0.4

1.2

VREF =0V (Figure 3), VKA =36V

1.0

Off-state Cathode Current

IKA (off)

VREF =0V (Figure 3), VKA =36V

TJ=-25ÂºC~125ÂºC

(Value is defined by design)

Dynamic Output Impedance

Minimum operating cathode

current

| ZKA |

IKA (min)

f<1KHz, VKA = VREF

IKA =1mA to 100mA (Figure 1)

VKA = VREF (Figure 1)

0.22 0.5

Î©

0.4

0.6

* The deviation parameters âVREF and âIREF are defined as difference between the maximum value and minimum value

obtained over the full operating ambient temperature range that applied.

* The average temperature coefficient of the

reference input voltage, Î±VREF is defined as:

Where: T2-T1 = full temperature change.

Î±VREF can be positive or negative depending on whether the slope is positive or negative.

Example: Maximum VREF=2.496V at 30oC, minimum VREF =2.492V at 0oC, VREF =2.495V at 25oC, ÎT=70oC

Î±VREF | = [4mV / 2495mV] * 106 / 70oC â 23ppm/oC

Because minimum VREF occurs at the lower temperature, the coefficient is positive.

* The dynamic impedance ZKA is defined as:

| ZKA | = ÎVKA / ÎIKA

* When the device operating with two external resistors, R1 and R2, (refer to Figure 2) the total dynamic impedance of

the circuit is given by:

| ZKA | = Îv / Îi | â ZKA | * ( 1 + R1 / R2)

2/13

Version: F07

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