LT1461-2.5 查看數據表（PDF） - Linear Technology

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LT1461-2.5

Micropower Precision Low Dropout Series Voltage Reference Voltage Reference

Linear Technology 

LT1461-2.5

APPLICATIONS INFORMATION

The typical performance hysteresis curves are for parts

mounted in a socket and represents the performance of

the parts alone. What is more interesting are parts IR sol-

dered onto a PC board. If the PC board is then temperature

cycled several times from – 40°C to 85°C, the resulting

hysteresis curve is shown in Figure 8. This graph shows

the influence of the PC board stress on the reference.

When the LT1461 is soldered onto a PC board, the output

shifts due to thermal hysteresis. Figure 9 shows the effect

of soldering 40 pieces onto a PC board using standard IR

reflow techniques. The average output voltage shift is

–110ppm. Remeasurement of these parts after 12 days

shows the outputs typically shift back 45ppm toward their

initial value. This second shift is due to the relaxation of

stress incurred during soldering.

The LT1461 is capable of dissipating high power, i.e.,

17.5V • 50mA = 875mW. The SO-8 package has a thermal

resistance of 190°C/W and this dissipation causes a

166°C internal rise producing a junction temperature of

TJ = 25°C + 166°C = 191°C. What will actually occur is the

thermal shutdown will limit the junction temperature to

around 150°C. This high temperature excursion will cause

the output to shift due to thermal hysteresis. Under these

conditions, a typical output shift is –135ppm, although

this number can be higher. This high dissipation can cause

the 25°C output accuracy to exceed its specified limit. For

best accuracy and precision, the LT1461 junction tem-

perature should not exceed 125°C.

12

11

WORST-CASE HYSTERESIS

ON 35 UNITS

10

9

85°C TO 25°C

8

7

6

5

4

3

2

1

0

– 200 –160 –120 – 80 – 40

0

40

HYSTERESIS (ppm)

– 40°C TO 25°C

80 120 160 200

1461 F08

Figure 8. – 40°C to 85°C Hysteresis of 35 Parts Soldered Onto a PC Board

10

12

10

8

6

4

2

0

–300 –200 –100 0 100 200 300

OUTPUT VOLTAGE SHIFT (ppm)

1461 F09

Figure 9. Typical Distribution of Output Voltage Shift After Soldering Onto PC Board

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