LT1019IN8-4.5 Linear Technology, LT1019IN8-4.5 Datasheet - Page 6

LT1019IN8-4.5

Manufacturer Part Number

LT1019IN8-4.5

Description

IC PREC REF 4.5V .2% TOL 8-DIP

Manufacturer

Linear Technology

Datasheet

1.LT1019CN8-5PBF.pdf (12 pages)

Specifications of LT1019IN8-4.5

Reference Type

Series, Shunt

Voltage - Output

4.5V

Tolerance

±0.2%

Temperature Coefficient

20ppm/°C

Voltage - Input

6 ~ 40 V

Number Of Channels

Current - Quiescent

1.2mA

Current - Output

10mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Through Hole

Package / Case

8-DIP (0.300", 7.62mm)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Current - Cathode

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APPLICATIO S I FOR ATIO

TYPICAL PERFOR

LT1019

BLOCK DIAGRA

Line and Load Regulation

Line regulation on the LT1019 is nearly perfect. A 10V

change in input voltage causes a typical output shift of less

than 5ppm. Load regulation (sourcing current) is nearly as

good. A 5mA change in load current shifts output voltage

by only 100µV. These are electrical effects, measured with

low duty cycle pulses to eliminate heating effects. In real

world applications, the thermal effects of load and line

changes must be considered.

0.70

0.90

0.85

0.80

0.75

0.65

0.60

0.55

0.50

0.45

0.40

–50

Temp Pin Voltage

–25

JUNCTION TEMPERATURE (°C)

U U

LT1019 • TPC10

100

LT1019-4.5, LT1019-5,

LT1019-2.5 = 10k

125

TRIM

LT1019-10 = 5k

80k

–10

–30

140

120

100

–20

HARA TERISTICS

Line Regulation

LT1019-2.5

OUT

= 25°C

1.188V

INPUT VOLTAGE (V)

LT1019-2.5 = 11k

LT1019-4.5 = 13.9k

LT1019-5 = 16k

LT1019-10 = 37.1k

Two separate thermal effects are evident in monolithic

circuits. One is a gradient effect, where power dissipation

on the die creates temperature gradients. These gradients

can cause output voltage shifts even if the overall tempera-

ture coefficient of the reference is zero . The LT1019, unlike

previous references, specifies thermal regulation caused

by die temperature gradients.The specification is

0.5ppm/mW. To calculate the effect on output voltage,

simply multiply the change in device power dissipation by

–

LT1019-5

LT1019-10

LT1019 • TPC11

LT1019 • BD

0.0001

0.001

0.01

GND

0.1

OUT

*LT1019-4.5/LT1019-5/LT1019-10 ARE STABLE

LT1019-2.5* Stability with

Output Capacitance

WITH ALL LOAD CAPACITANCE.

SINK CURRENT

OUTPUT CURRENT (mA)

REGION OF POSSIBLE

INSTABILITY

SOURCE CURRENT

1019 G12

1019fd

LT1019IN8-4.5 Linear Technology, LT1019IN8-4.5 Datasheet - Page 6

LT1019IN8-4.5

Specifications of LT1019IN8-4.5

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