NTE5174A thru NTE5232A

Zener Diode, 10 Watt

±5% Tolerance

Features:

-Zener Voltage 3.9V to 200V

-DO4 Stud Mount Package

Absolute Maximum Ratings:

Forward Voltage (IF = 2A), VF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.5V

DC Power Dissipation, PD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10W

Derate Above 50°C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80mW/°C

Operating Junction Temperature Range, Topr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –65° to +175°C

Storage Temperature Range, Tstg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –65° to +175°C

 

Electrical Characteristics: (TC = +30°C, unless otherwise specified)

 

NTE Type Number (Note 1)

Nominal
Zener Voltage Vz @ Izt
(Note 2)

 

Zener Test
Current (Izt)
Maximum Dynamic Impedance
(Note 3)
Maximum DC Zener
Current* (Izm)
(Note 4)

 

Typical
Temperature Coefficient
avz

 

Maximum
Leakage Current I
R @ VR

Zzt @ Izt

 

Zzk @ 1mA (Izk)

 

Volts mA Ohms Ohms mA %/°C ΅A Volts

NTE5174A
$14.36

3.9

640

2.0

400

2380

–.046

100

0.5

NTE5175A
$14.36

4.3

580

1.5

400

2130

–.033

100

0.5

NTE5176A
$14.36

4.7

530

1.2

500

1940

–.015

50

1.0

NTE5177A
$14.36

5.1

490

1.1

550

1780

±.010

10

1.0

NTE5178A
$14.36

5.6

445

1.0

600

1620

+.030

10

1.0

NTE5179A
$14.36

6.0

425

1.0

675

1540

+.035

10

1.5

NTE5180A
$14.36

6.2

405

1.1

750

1460

+.049

10

2.0

NTE5181A
$14.36

6.8

370

1.2

500

1330

+.040

10

2.0

NTE5182A
$14.36

7.5

335

1.3

250

1180

.045

100

5.7

NTE5183A
$14.36

8.2

305

1.5

250

1040

.048

50

6.2

* Stud Temperature = +75°C

Electrical Characteristics (Cont’d): (TC = +30°C, unless otherwise specified)

 

NTE Type Number (Note 1)

Nominal
Zener Voltage Vz @ Izt
(Note 2)

 

Zener Test
Current (Izt)
Maximum Dynamic Impedance
(Note 3)
Maximum DC Zener
Current* (Izm)
(Note 4)

 

Typical
Temperature Coefficient
avz

 

Maximum
Leakage Current I
R @ VR

Zzt @ Izt

 

Zzk @ 1mA (Izk)

 

Volts mA Ohms Ohms mA %/°C ΅A Volts

NTE5184A
$14.36

8.7

290

1.7

250

1000

.049

37

6.6

NTE5185A
$14.36

9.1

275

2

250

720

.051

25

6.9

NTE5186A
$14.36

10

250

3

250

860

.055

25

7.6

NTE5187A
$14.36

11

230

3

250

780

.060

10

8.4

NTE5188A
$14.36

12

210

3

250

720

.065

10

9.1

NTE5189A
$14.36

13

190

3

250

660

.065

10

9.9

NTE5190A
$14.36

14

180

3

250

600

.070

10

10.5

NTE5191A
$14.36

15

170

3

250

560

.070

10

11.4

NTE5192A
$14.36

16

155

4

250

530

.070

10

12.2

NTE5193A
$14.36

17

145

4

250

500

.075

10

13.0

NTE5194A
$14.36

18

140

4

250

460

.075

10

13.7

NTE5195A
$14.36

19

130

4

250

440

.075

10

14.0

NTE5196A
$14.36

20

125

4

250

420

.075

10

15.2

NTE5197A
$14.36

22

115

5

250

380

.080

10

16.7

NTE5198A
$14.36

24

105

5

250

350

.080

10

18.2

NTE5199A
$14.36

25

100

6

250

310

.080

10

18.2

NTE5200A
$14.36

27

95

7

250

300

.085

10

20.6

NTE5201A
$14.36

28

90

7.5

275

290

.085

10

21.7

NTE5202A
$14.36

30

85

8

300

280

.085

10

22.8

NTE5203A
$14.36

33

75

9

300

260

.085

10

25.1

NTE5204A
$14.36

36

70

10

300

230

.085

10

27.4

NTE5205A
$14.36

39

65

11

300

210

.090

10

29.7

NTE5206A
$14.36

43

60

12

400

195

.090

10

32.7

NTE5207A
$14.36

45

55

13

400

185

.090

10

33.0

NTE5208A
$14.36

47

55

14

400

175

.090

10

35.8

NTE5209A
$14.36

50

50

15

500

165

.090

10

36.0

NTE5210A
$14.36

51

50

15

500

160

.090

10

38.8

NTE5211A
$14.36

52

50

15

500

160

.090

10

39.0

NTE5212A
$14.36

56

45

16

500

150

.090

10

42.6

NTE5213A
$14.36

60

43

16

550

140

.090

10

44.8

NTE5214A
$14.36

62

40

17

600

130

.090

10

47.1

* Stud Temperature = +75°C

Electrical Characteristics (Cont’d): (TC = +30°C, unless otherwise specified)

 

NTE Type Number (Note 1)

Nominal
Zener Voltage Vz @ Izt
(Note 2)

 

Zener Test
Current (Izt)
Maximum Dynamic Impedance
(Note 3)
Maximum DC Zener
Current* (Izm)
(Note 4)

 

Typical
Temperature Coefficient
avz

 

Maximum
Leakage Current I
R @ VR

Zzt @ Izt

 

Zzk @ 1mA (Izk)

 

Volts mA Ohms Ohms mA %/°C ΅A Volts

NTE5215A
$14.36

68

37

18

600

120

.090

10

51.7

NTE5216A
$14.36

75

33

22

600

110

.090

10

56.0

NTE5217A
$14.36

82

30

25

700

100

.090

10

62.2

NTE5218A
$14.36

87

29

30

750

93

.090

10

65.7

NTE5219A
$14.36

91

28

35

800

85

.090

10

69.2

NTE5220A
$14.36

100

25

40

900

80

.090

10

76.0

NTE5221A
$14.36

105

25

45

1000

75

.095

10

76.0

NTE5222A
$14.36

110

23

55

1100

72

.095

10

83.6

NTE5223A
$14.36

120

20

75

1200

67

.095

10

91.2

NTE5224A
$14.36

130

19

100

1300

62

.095

10

98.8

NTE5225A
$14.36

140

18

125

1400

58

.095

10

100.0

NTE5226A
$14.36

150

17

175

1500

54

.095

10

114.0

NTE5227A
$14.36

160

16

200

1600

50

.095

10

121.6

NTE5228A
$14.36

170

15

225

1675

48

.095

10

128.3

NTE5229A
$14.36

175

14

250

1750

46

.095

10

135.0

NTE5230A
$14.36

180

14

260

1850

45

.095

10

136.8

NTE5231A
$14.36

190

13

280

1925

43

.097

10

144.4

NTE5232A
$14.36

200

12

300

2000

40

.100

10

152.0

* Stud Temperature = +75°C

Note 1. The NTE type 10W Zener Diodes listed have Anode (Standard Polarity) connected to stud.

Add suffix letter “K” to the device number for Cathode (Reverse Polarity) connected to stud

(i. e. NTE5174AK).

Note 2. The electrical characteristics are measured after allowing the device to stabilize for 90 seconds

with +30°C base temperature.

Note 3. The zener impedance (Zzt) is derived from the 60Hz AC voltage, which results when an AC

current having an RMS value equal to 10% of the DC zener current (IZT or IZK) is superimposed

on IZT or IZK. When making zener impedance measurements at the IZK test point, it

may be necessary to insert a 60Hz band pass filter between the diode and voltmeter to avoid

errors resulting from low level noise signals.

Note 4. These values of IZM may be exceeded in the case of individual diodes. The values shown

are calculated for the worst case which is a unit of ±5% tolerance at the high voltage and of

its tolerance range. Allowance has also been made for the rise in zener voltage above VZT,

which results from zener impedance and the increase in junction temperature as power dissipation

approaches 10 watts.