1N827 Motorola Inc, 1N827 Datasheet - Page 3

1N827

Manufacturer Part Number

1N827

Description

TEMPERATURECOMPENSATED SILICON ZENER REFERENCE DIODES 6.2 V/ 400 mW

Manufacturer

Motorola Inc

Datasheet

1.1N827.pdf (4 pages)

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NOTE 1. VOLTAGE VARIATION ( V Z ) AND TEMPERATURE COEFFICIENT

All reference diodes are characterized by the “box method.” This guarantees a maximum volt-

age variation ( V Z ) over the specified temperature range, at the specified test current (I ZT ),

verified by tests at indicated temperature points within the range. V Z is measured and re-

corded at each temperature specified. The V Z between the highest and lowest values must

not exceed the maximum V Z given. This method of indicating voltage stability is now used

for JEDEC registration as well as for military qualification. The former method of indicating

voltage stability — by means of temperature coefficient accurately reflects the voltage devi-

ation at the temperature extremes, but is not necessarily accurate within the temperature

range because reference diodes have a nonlinear temperature relationship. The temperature

coefficient, therefore, is given only as a reference.

NOTE 2.

The dynamic zener impedance, Z ZT , is derived from the 60 Hz ac voltage drop which results

when an ac current with an rms value equal to 10% of the dc zener current, I ZT , is superim-

posed on I ZT . Curves showing the variation of zener impedance with zener current for each

series are given in Figures 4 and 5.

Motorola TVS/Zener Device Data

1000

800

600

400

200

100

MORE THAN 95% OF THE UNITS ARE IN THE RANGES INDICATED BY THE CURVES.

Figure 4. 1N821 Series

1N821,A 1N823,A 1N825,A 1N827,A 1N829,A

I Z , ZENER CURRENT (mA)

–55 C

MAXIMUM ZENER IMPEDANCE versus ZENER CURRENT

8 10

100 C

25 C

60 80 100

(See Note 2)

NOTE 3.

These graphs can be used to determine the maximum voltage change of any device in the

series over any specific temperature range. For example, a temperature change from 0 to

+50 C will cause a voltage change no greater than +31 mV or – 31 mV for 1N821 or 1N821A,

as illustrated by the dashed lines in Figure 1. The boundaries given are maximum values. For

greater resolution, an expanded view of the center area in Figure 1a is shown in Figure 1b.

NOTE 4.

The maximum voltage change, V Z , Figures 2 and 3 is due entirely to the impedance of the

device. If both temperature and I ZT are varied, then the total voltage change may be obtained

by graphically adding V Z in Figure 2 or 3 to the V Z in Figure 1 for the device under consider-

ation. If the device is to be operated at some stable current other than the specified test cur-

rent, a new set of characteristics may be plotted by superimposing the data in Figure 2 or 3

on Figure 1. For a more detailed explanation see application note in later section.

NOTE 5.

Zener voltage limits at 25 C measured with the test current (I ZT ) applied with the device junc-

tion in thermal equilibrium at an ambient temperature of 25 C.

1000

800

600

400

200

100

6.2 Volt OTC 400 mW DO-35 Data Sheet

25 C

Figure 5. 1N821A Series

I Z , ZENER CURRENT (mA)

–55 C

100 C

8 10

60 80 100

8-161

1N827 Motorola Inc, 1N827 Datasheet - Page 3

1N827

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