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1N6006

SILICON 500 mW ZENER DIODES

Microsemi Corporation 

SCOTTSDALE DIVISION

1N5985 thru 1N6031-1 DO-35

Axial-Leaded 500 mW Zener Diodes

*ELECTRICAL CHARACTERISTICS @ 30oC Lead Temperature. Lead Length 3/8”.

JEDEC

Type

Number

Nominal

Zener

Voltage

VZ @ IZT

Volts

(Note 2)

Test

Current

IZT

mA

Max. Zener Impedance

(Note 1)

ZZT @ IZT

OHMS

B,C,D A, Non-

Suffix

Suffix

ZZK @ IZK = 0.25 ma

OHMS

B,C,D A, Non-

Suffix

Suffix

Max. Reverse Leakage Current

IR

µA

B,C,D

Suffix

@

A, Non-

Suffix

VR

Volts

B,C,D A, Non-

Suffix

Suffix

Max. DC

Zener

Current

IZM

(Note 3)

Typical

Temp.

Coeff.

of Zener

Voltage

αVZ

%/oC

1N5985

2.4

1N5986

2.7

1N5987

3.0

1N5988

3.3

5.0

100

110

1800

2000

100

100

1.0

0.5

208

-0.09

5.0

100

110

1900

2200

75

100

1.0

0.5

185

-0.075

5.0

95

100

2000

2300

50

100

1.0

0.5

167

-0.07

5.0

95

100

2200

2400

25

75

1.0

0.5

152

-0.06

1N5989

3.6

1N5990

3.9

1N5991

4.3

5.0

90

95

2300

2500

15

50

1.0

0.5

139

-0.055

5.0

90

95

2400

2500

10

25

1.0

1.0

128

-0.045

5.0

88

90

2500

2500

5.0

15

1.0

1.0

116

-0.01

1N5992

4.7

5.0

70

90

2200

2500

3.0

10

1.5

1.0

106

+0.01

1N5993

5.1

1N5994

5.6

1N5995

6.2

1N5996

6.8

5.0

50

88

2050

2500

2.0

5.0

2.0

1.0

98

+0.025

5.0

25

70

1800

2200

2.0

3.0

3.0

1.5

89

+0.035

5.0

10

50

1300

2050

1.0

2.0

4.0

2.0

81

+0.04

5.0

8.0

25

750

1800

1.0

2.0

5.2

3.0

74

+0.044

1N5997

7.5

1N5998

8.2

1N5999

9.1

1N6000

10

5.0

7.0

10

600

1300

0.5

1.0

6.0

4.0

67

+0.051

5.0

7.0

15

600

750

0.5

1.0

6.5

5.2

61

+0.055

5.0

10

18

600

600

0.1

0.5

7.0

6.0

55

+0.061

5.0

15

22

600

600

0.1

0.5

8.0

6.5

50

+0.065

1N6001

11

1N6002

12

1N6003

13

1N6004

15

5.0

18

25

600

600

0.1

0.1

8.4

7.0

45

+0.068

5.0

22

32

600

600

0.1

0.1

9.1

8.0

42

+0.073

5.0

25

36

600

600

0.1

0.1

9.9

8.4

38

+0.075

5.0

32

42

600

600

0.1

0.1

11

9.1

33

+0.079

1N6005

16

1N6006

18

1N6007

20

1N6008

22

5.0

36

48

600

600

0.1

0.1

12

9.9

31

+.080

5.0

42

55

600

600

0.1

0.1

14

11

28

+0.083

5.0

48

62

600

600

0.1

0.1

15

12

25

+0.085

5.0

55

70

600

600

0.1

0.1

17

14

23

+0.087

1N6009

24

1N6010

27

1N6011

30

1N6012

33

5.0

62

78

600

600

0.1

0.1

18

15

21

+0.090

5.0

70

88

600

700

0.1

0.1

21

17

19

+0.091

5.0

78

95

600

700

0.1

0.1

23

18

17

+0.093

5.0

88

110

700

800

0.1

0.1

25

21

15

+0.094

1N6013

36

1N6014

39

1N6015

43

1N6016

47

5.0

95

130

700

900

0.1

0.1

27

23

2.0

130

170

800

1000

0.1

0.1

30

25

2.0

150

180

900

1100

0.1

0.1

33

27

2.0

170

200

1000

1300

0.1

0.1

36

30

14

+0.094

13

+0.095

12

+0.095

11

+0.096

1N6017

51

1N6018

56

1N6019

62

1N6020

68

2.0

180

225

1300

1400

0.1

0.1

39

33

2.0

200

240

1400

1600

0.1

0.1

43

36

2.0

225

265

1400

1700

0.1

0.1

47

39

2.0

240

280

1600

2000

0.1

0.1

52

43

9.8

+0.096

8.9

+0.096

8.0

+0.097

7.4

+0.097

1N6021

75

1N6022

82

1N6023

91

1N6024

100

2.0

265

300

1700

2300

0.1

0.1

56

47

2.0

280

350

2000

2600

0.1

0.1

62

52

2.0

300

400

2300

3000

0.1

0.1

69

56

1.0

500

800

2600

4000

0.1

0.1

76

62

6.7

+0.098

6.1

+0.098

5.5

+0.099

5.0

+0.110

1N6025

110

1N6026

120

1N6027

130

1N6028

150

1.0

650

950

3000

4500

0.1

0.1

84

69

1.0

800

1250

4000

5000

0.1

0.1

91

76

1.0

950

1400

4500

5500

0.1

0.1

99

84

1.0

1250

1700

5000

6000

0.1

0.1

114

91

4.5

+0.110

4.2

+0.110

3.8

+0.110

3.3

+0.110

1N6029

160

1N6030

180

1N6031

200

1.0

1400

2000

5500

7000

0.1

0.1

122

99

1.0

1700

2350

6000

8000

0.1

0.1

137

114

1.0

2000

2700

7000

9000

0.1

0.1

152

122

3.1

+0.110

2.8

+0.110

2.5

+0.110

*Indicates JEDEC Registered Data. The type number listed indicates a 20% tolerance. For 10% tolerance, add

suffix A; for 5% tolerance, add suffix B; for 2% tolerance add suffix C; for 1% tolerance, add suffix D.

NOTES:

1. Zener Impedance is derived from the 1 kHz ac voltage which results when an ac current having an rms value equal to 10% of

dc zener current (IZT or IZK) is superimposed on IZT or IZK. See MicroNote 202 for dynamic impedance variation with other

operating currents.

2. Voltage Measurements to be performed 20 seconds after application of the dc test current.

3. The maximum zener current IZM shown is for the nominal voltages. The following formula can be used to determine the worst

case current for any tolerance device:

P

IZM = VZM

Where VZM is the high end of the voltage tolerance specified and P is the rated power of the device.

Copyright  2003

11-03-2003 REV A

Microsemi

Scottsdale Division

8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503

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