LM169BH National Semiconductor, LM169BH Datasheet - Page 3

LM169BH

Manufacturer Part Number

LM169BH

Description

Precision Voltage Reference

Manufacturer

National Semiconductor

Datasheet

1.LM169BH.pdf (14 pages)

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Electrical Characteristics LM369D

Note 1 Unless otherwise noted these conditions apply T

TYPE apply over the rated operating temperature range

Note 2 Tested limits are guaranteed and 100% tested in production

Note 3 Design Limits are guaranteed (but not 100% production tested) over the indicated temperature and supply voltage ranges These limits are not to be used

to calculate outgoing quality levels

Note 4 The LM169 has a Class B output and will exhibit transients at the crossover point This point occurs when the device is required to sink approximately 1 0

mA In some applications it may be advantageous to pre-load the output to either V

Note 5 Thermal regulation is defined as the change in the output voltage at a time T after a step change of power dissipation of 100 mW

Note 6 Temperature Coefficient of V

Temperature Range (see graphs) There is no guarantee that the Specified Temperatures are exactly at the minimum or maximum deviation

Note 7 In metal can (H)

Note 8 Absolute Maximum Ratings indicate limits beyond which damage to the device may occur DC and AC electrical specifications are not guaranteed beyond

the Rated Operating Conditions

Note 9 Regulation is measured at constant temperature using pulse testing with a low duty cycle Changes in output voltage due to heating effects are covered

under the specifications for Thermal Regulation and Tempco Load Regulation is measured at a point on the output pin 1 8 below the bottom of the package

Note 10 Consult factory for availability of devices with Guaranteed Long-term Stability

Note 11 Consult factory for availability of devices with tighter Accuracy and Tempco Specifications

Note 12 In Sinking mode connect 0 1 F tantalum capacitor from output to ground

Note 13 A military RETS electrical test specification is available on request

LM369D

(Note 6)

Line Regulation

Load Regulation

Sourcing

Sinking (Note 12)

(Note 4 Note 9)

Thermal Regulation

Sourcing

Sinking (Note 12)

(Note 5)

Supply Current

Short Circuit

Current

Noise Voltage

Long-Term

Stability

(Non-Cumulative)

Temperature

Hysteresis of V

Output Shift

Per 1 A at Pin 5

out

Supply Current

Parameter

Nominal

Error

Tempco

out

J-C

is 75 C W and

13V

0 to 10 mA

0 to

After Load

is Applied)

13V

10 Hz to 1 kHz

0 1 Hz to 10 Hz

(10 Hz to 10 kHz

1000 Hours

(Measured at

OUT

min s

j k

filter

25 C)

Conditions

10 msec

is defined as the worst-case

max

10 mA

25 C

IN s

J-A

0 1 F)

j s

is 150 C W In plastic DIP

30V

max

e a

25 C 13V

Typical

(Note 1)

1500

10 000

0 06

0 7

2 4

4 0

1 5

out

measured at Specified Temperatures divided by the total span of the Specified

in s

J-A

is 160 C W In S0-8

17V 0

or to ground to avoid this crossover point

(Notes 2 13)

load s

Tested

Limits

2800

0 16

2 0

1000

10 0

160

6 0

1 0 mA C

J-A

is 180 C W in TO-226

(Note 3)

200 pF Specifications in BOLDFACED

Design

Limit

2 4

0 3

J-A

is 160 C W

ppm 100 mW

ppm mA

mA max

ppm C

Noted)

mA min

Unless

ppm V

Units

(Max

ppm

V rms

ppm

V p-p

LM169BH National Semiconductor, LM169BH Datasheet - Page 3

LM169BH

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