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GDZJ2.0~GDZJ56

PB FREE PRODUCT

AXIAL LEAD ZENER DIODES

VOLTAGE

2.0 to 56 Volts

POWER

500 mWatts

DO-35

Unit: inch (mm)

FEATURES

• 500mW Power Dissipation

• Ideally Suited for Automated Assembly Processes

1.02(26.0)MIN.

• Planar Die construction

.020(0.52)TYP.

MECHANICAL DATA

• Case: Molded Glass DO-35

• Terminals: Solderable per MIL-STD-202, Method 208

• Polarity: See Diagram Below

• Approx. Weight: 0.012 grams

• Mounting Position: Any

• Ordering information

Suffix : “ -35 ” to order DO-35 Package

• Packing information

- 2K per Bulk box

T/R - 10K per 13" plastic Reel

T/B - 5K per horiz. tape & Ammo box

1.02(26.0)MIN.

.165(4.2)MAX.

.079(2.0)MAX.

MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS

Parameter

Power Dissipation at Tamb = 25

Junction Temperature

Storage Temperature Range

Valid provided that leads at a distance of 10mm from case are kept at ambient temperature.

Symbol

Value

500

175

-65 to +175

Units

TOT

Parameter

Thermal Resi stance Juncti on to Ambi ent Ai r

Forward Voltage at IF = 100mA

Symbol

Mi n.

Typ.

Max.

0.3

Uni ts

K/mW

RthA

Vali d provi ded that leads at a di stance of 10mm from case are kept at ambi ent temperature.

Part Number

GDZJ 2.0

GDZJ 2.2

GDZJ 2.4

GDZJ 2.7

GDZJ 3.0

GDZJ 3.3

GDZJ 3.6

GDZJ 3.9

C LA S S

@ I

M i n. V

1.88

2.02

2.12

2.22

2.33

2.43

2.54

2.69

2.85

3.01

3.16

3.32

3.455

3.60

3.74

3.89

4.04

4.17

4.30

4.44

4.55

4.68

4.81

4.94

5.09

5.28

5.45

5.61

5.78

5.96

6.12

6.29

6.49

6.66

6.85

7.07

7.29

7.53

7.78

8.03

8.29

8.57

8.83

9.12

9.41

9.70

9.94

10.18

10.50

10.82

M a x. V

2.10

2.20

2.30

2.41

2.52

2.63

2.75

2.91

3.07

3.22

3.38

3.53

3.695

3.845

4.01

4.16

4.29

4.43

4.57

4.68

4.80

4.93

5.07

5.20

5.37

5.55

5.73

5.91

6.09

6.27

6.44

6.63

6.83

7.01

7.22

7.45

7.67

7.92

8.19

8.45

8.73

9.01

9.30

9.59

9.90

10.20

10.44

10.71

11.05

11.38

(m A )

(V )

0.5

0.7

1.0

IR ( u A )

MA X

120

100

120

100

Iz t

(mA )

(Ω)

MA X

100

110

120

100

Iz k

(mA )

0.5

(Ω)

MA X

1000

A RK ING

C OD E

Z2A0

Z2B0

Z2A2

Z2B2

Z2A4

Z2B4

Z2A7

Z2B7

Z3A0

Z3B0

Z3A3

Z3B3

Z3A6

Z3B6

Z3A9

Z3B9

Z4A3

Z4B3

Z4C3

Z4A7

GDZJ 4.3

1.0

100

1000

GDZJ 4.7

1.0

900

Z4B7

Z4C7

Z5A1

GDZJ 5.1

1.5

800

Z5B1

Z5C1

Z5A6

GDZJ 5.6

2.5

500

Z5B6

Z5C6

Z6A2

GDZJ 6.2

3.0

300

Z6B2

Z6C2

Z6A8

GDZJ 6.8

3.5

0.5

150

Z6B8

Z6C8

Z7A5

GDZJ 7.5

4.0

0.5

120

Z7B5

Z7C5

Z8A2

GDZJ 8.2

5.0

0.5

120

Z8B2

Z8C2

Z9A1

GDZJ 9.1

6.0

0.5

120

Z9B1

Z9C1

Z10A

Z10B

Z10C

Z11D

Z11A

GDZJ 10

7.0

0.2

0.5

120

GDZJ 11

8.0

0.2

0.5

120

Z11B

Z11C

Part Number

GDZJ 12

C LA S S

@ I

M i n. V

11.13

11.44

11.74

12.11

12.55

12.99

13.44

13.89

14.35

14.80

15.25

15.69

16.22

16.82

17.42

18.02

18.63

19.23

19.72

20.15

20.64

21.08

21.52

22.05

22.61

23.12

23.63

24.26

24.97

25.63

26.29

26.99

27.70

28.36

29.02

29.68

30.32

30.90

31.49

32.14

32.79

33.40

34.01

34.68

35.36

36.00

36.63

40.00

44.00

48.00

53.00

M a x. V

11.71

12.03

12.35

12.75

13.21

13.66

14.13

14.62

15.09

15.57

16.04

16.51

17.06

17.70

18.33

18.96

19.59

20.22

20.72

21.20

21.71

22.17

22.63

23.18

23.77

24.31

24.85

25.52

26.26

26.95

27.64

28.39

29.13

29.82

30.51

31.22

31.88

32.50

33.11

33.79

34.49

35.13

35.77

36.47

37.19

37.85

38.52

45.00

49.00

54.00

60.00

(m A )

(V )

9.0

IR ( u A )

MA X

0.2

Iz t

(mA )

(Ω)

MA X

Iz k

(mA )

0.5

(Ω)

MA X

110

A RK ING

OD E

Z12A

Z12B

Z12C

Z13A

GDZJ 13

0.2

0.5

110

Z13B

Z13C

Z15A

GDZJ 15

0.2

0.5

110

Z15B

Z15C

Z16A

GDZJ 16

0.2

0.5

150

Z16B

Z16C

Z18A

GDZJ 18

0.2

0.5

150

Z18B

Z18C

Z20A

Z20B

Z20C

Z20D

Z22A

Z22B

Z22C

Z22D

Z24A

Z24B

Z24C

Z24D

Z27A

Z27B

Z27C

Z27D

Z30A

Z30B

Z30C

Z30D

Z33A

Z33B

Z33C

Z33D

Z36A

Z36B

Z36C

Z36D

Z39A

Z39B

Z39C

Z39D

Z41

Z43

Z47

Z51

GDZJ 20

0.2

0.5

200

GDZJ 22

0.2

0.5

200

GDZJ 24

0.2

0.5

200

GDZJ 27

0.2

0.5

250

GDZJ 30

0.2

0.5

250

GDZJ 33

0.2

0.5

250

GDZJ 36

0.2

0.5

250

GDZJ 39

0.2

0.5

250

GDZJ 43

GDZJ 47

GDZJ 51

GDZJ 56

0.2

110

Typical Characteristics

amb

= 25

°C

unless otherwise specified)

thJA

–Therm.Resist.Junction/ Ambient ( K/W)

500

Ztn

– Relative

VoltageChange

1.3

Ztn

(25°C)

400

1.2

1.1

1.0

0.9

0.8

–60

=10 x 10

–4

300

8 x 10

–4

6 x 10

–4

4 x 10

–4

2 x 10

–4

–2 x 10

–4

–4 x 10

–4

200

100

=constant

l – Lead Length ( mm )

120

180

240

– Junction Temperature (°C )

Fig. 1 Thermal Resistance vs. Lead Length

Fig. 4 Typical Change of Working Voltage vs. Junction

Temperature

–Temperature Coefficient of V

( 10

–4

/K)

P –Total Power Dissipation ( mW)

tot

600

500

400

300

200

=5mA

100

–5

120

160

200

amb

– Ambient T

emperature(°C )

– Z-Voltage ( V )

Fig. 2 Total Power Dissipation vs. Ambient Temperature

Fig. 5 Temperature Coefficient of Vz vs. Z-Voltage

1000

– Diode Capacitance ( pF )

200

–VoltageChange mV )

(

=25°C

100

150

=2V

=25°C

100

=5mA

– Z-Voltage ( V )

Fig. 3 Typical Change of Working Voltage under Operating

Conditions at T

amb

=25°C

Fig. 6 Diode Capacitance vs. Z-Voltage

100

– Forward Current ( mA)

tot

=500mW

amb

=25°C

0.1

0.01

0.001

0.2

0.4

0.6

0.8

1.0

– Forward Voltage ( V )

– Z-Current ( mA)

– Z-Voltage ( V )

Fig. 7 Forward Current vs. Forward Voltage

Fig. 9 Z-Current vs. Z-Voltage

– Z-Current ( mA)

– Differential Z-Resistance (

Ω

)

100

1000

tot

=500mW

amb

=25°C

=1mA

100

5mA

10mA

=25°C

– Z-Voltage ( V )

Fig. 8 Z-Current vs. Z-Voltage

thp

–ThermalResistance PulseCond.(K/W)

for

Fig. 10 Differential Z-Resistance vs. Z-Voltage

1000

/T=0.5

100

/T=0.2

Single Pulse

/T=0.1

thJA

=300K/W

T=T

jmax

–T

amb

/T=0.01

/T=0.02

/T=0.05

=(–V

+(V

+4r

T/Z

thp

)

1/2

)/(2r

)

–1

– Pulse Length ( ms )

Fig. 11 Thermal Response