VLZ4V3C/GS18_技术文档

VLZ-Series

Vishay Semiconductors

Small Signal Zener Diodes

Features

• Very sharp reverse characteristic

• Low reverse current level

• Very high stability

• Low noise

• High reliability

• Compliant to RoHS directive 2002/95/EC and in

accordance to WEEE 2002/96/EC

9612009

Applications

• Voltage stabilization

Mechanical Data

Case: QuadroMELF SOD-80

Weight: approx. 34 mg

Cathode band color: black

Packaging codes/options:

GS18/10 k per 13" reel (8 mm tape), 10 k/box

GS08/2.5 k per 7" reel (8 mm tape), 12.5 k/box

Absolute Maximum Ratings

T

= 25 °C, unless otherwise specified

amb

Parameter

Test condition

Symbol

P_tot

Value

500

Unit

mW

mA

°C

R_thJA≤ 300 K/W

Power dissipation

Z-current

I_Z

T_j

P_tot/V_Z

Junction temperature

Storage temperature range

175

T_stg

- 65 to + 175

°C

Thermal Characteristics

T

= 25 °C, unless otherwise specified

amb

Parameter

Test condition

Symbol

R_thJA

Value

500

Unit

K/W

Junction to ambient air on PC board 50 mm x 50 mm x 1.6 mm

Electrical Characteristics

T

= 25 °C, unless otherwise specified

amb

Parameter

Test condition

Symbol

V_F

Min

Typ.

Max

1.5

Unit

V

I_F= 200 mA

Forward voltage

Document Number 81759

Rev. 1.1, 17-Oct-07

www.vishay.com

1

VLZ-Series

Vishay Semiconductors

Electrical Characteristics

Zener Voltage

Dynamic Resistance

Test Current

Reverse Leakage Current

I_Rat V_R

Part-

number-

group

V_Zat I_ZT

Z_Zat I_ZT

Z_ZKat I_ZK

I_ZT

I_ZK

Part-

number

V

Ω

max .

100

80

70

60

50

40

25

20

13

10

8

Ω

mA

µA

max .

70

50

10

5

V

min.

2.33

2.43

2.54

2.69

2.85

3.01

3.16

3.32

max.

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

4.8

max.

2000

1000

900

VLZ2V4A

VLZ2V4B

VLZ2V7A

VLZ2V7B

VLZ3V0A

VLZ3V0B

VLZ3V3A

VLZ3V3B

VLZ3V6A

VLZ3V6B

VLZ3V9A

VLZ3V9B

VLZ4V3A

VLZ4V3B

VLZ4V3C

VLZ4V7A

VLZ4V7B

VLZ4V7C

VLZ5V1A

VLZ5V1B

VLZ5V1C

VLZ5V6A

VLZ5V6B

VLZ5V6C

VLZ6V2A

VLZ6V2B

VLZ6V2C

VLZ6V8A

VLZ6V8B

VLZ6V8C

VLZ7V5A

VLZ7V5B

VLZ7V5C

VLZ8V2A

VLZ8V2B

VLZ8V2C

VLZ9V1A

VLZ9V1B

VLZ9V1C

VLZ10A

20

10

1

VLZ2V4

VLZ2V7

VLZ3V0

VLZ3V3

VLZ3V6

VLZ3V9

1

3.455

3.6

1

5

1

3.74

3.89

4.04

4.17

4.3

1

3

1

3

1

3

1

VLZ4V3

VLZ4V7

VLZ5V1

VLZ5V6

VLZ6V2

VLZ6V8

VLZ7V5

VLZ8V2

VLZ9V1

1

3

1

3

1

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

9.7

1

10

6

2

900

1

2

4.93

5.07

5.2

900

1

3

2

800

1

2

800

1

2

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

9.3

800

1

2

500

1

2

500

1

2

500

1

2

300

1

3

4

300

1

3

4

300

1

3

4

150

0.5

2

4

8

150

2

4

8

150

2

4

8

120

3

6.5

6.73

6.93

7.15

7.39

7.63

7.88

8.14

8.39

8.66

8.94

9.22

9.44

9.67

9.98

10.28

8

120

3

8

120

3

8

120

7.5

0.04

8

120

8

120

8

120

8

120

8

120

9.59

9.9

8

120

VLZ10B

8

120

VLZ10

VLZ11

VLZ10C

10.2

10.44

10.71

11.05

11.38

8

120

VLZ10D

9.94

10.18

10.5

10.82

8

120

VLZ11A

10

120

VLZ11B

120

VLZ11C

120

www.vishay.com

2

Document Number 81759

Rev. 1.1, 17-Oct-07

VLZ-Series

Vishay Semiconductors

Zener Voltage

V_Zat I_ZT

Dynamic Resistance

Test Current

Reverse Leakage Current

I_Rat V_R

Part-

number-

group

Z_Zat I_ZT

Z_ZKat I_ZK

I_ZT

I_ZK

Part-

number

V

Ω

max .

12

14

16

18

23

28

30

35

45

55

65

75

Ω

mA

µA

max .

0.04

V

min.

max.

110

150

200

250

VLZ12A

VLZ12B

VLZ12C

VLZ13A

VLZ13B

VLZ13C

VLZ15A

VLZ15B

VLZ15C

VLZ16A

VLZ16B

VLZ16C

VLZ18A

VLZ18B

VLZ18C

VLZ20A

VLZ20B

VLZ20C

VLZ20D

VLZ22A

VLZ22B

VLZ22C

VLZ22D

VLZ24A

VLZ24B

VLZ24C

VLZ24D

VLZ27A

VLZ27B

VLZ27C

VLZ27D

VLZ30A

VLZ30B

VLZ30C

VLZ30D

VLZ33A

VLZ33B

VLZ33C

VLZ33D

VLZ36A

VLZ36B

VLZ36C

VLZ36D

11.13

11.44

11.74

12.11

12.55

12.99

13.44

13.89

14.35

14.8

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

17.7

10

5

0.5

10.6

10.9

11.2

11.5

11.9

12.3

12.8

13.2

13.6

14.1

14.5

14.9

15.4

16

VLZ12

VLZ13

VLZ15

VLZ16

VLZ18

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

27.7

18.33

18.96

19.59

20.22

20.72

21.2

16.5

17.1

17.7

18.3

18.7

19.1

19.6

20

VLZ20

VLZ22

VLZ24

VLZ27

VLZ30

VLZ33

VLZ36

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

32.5

5

20.4

20.9

21.5

22

5

22.4

23

5

23.7

24.3

25

5

25.6

26.3

26.9

27.6

28.2

28.8

29.4

29.9

30.5

31.2

31.7

32.3

5

28.36

29.02

29.68

30.32

30.9

5

31.49

32.14

32.79

33.4

33.11

33.79

34.49

35.13

35.77

5

34.01

5

Document Number 81759

Rev. 1.1, 17-Oct-07

www.vishay.com

3

VLZ-Series

Vishay Semiconductors

Zener Voltage

V_Zat I_ZT

Dynamic Resistance

Test Current

Reverse Leakage Current

I_Rat V_R

Part-

number-

group

Z_Zat I_ZT

Z_ZKat I_ZK

I_ZT

I_ZK

Part-

number

V

Ω

max .

85

Ω

max.

250

-

mA

µA

max .

0.04

V

min.

max.

36.47

37.19

37.85

38.52

39.29

40.11

40.8

45

VLZ39A

VLZ39B

VLZ39C

VLZ39D

VLZ39E

VLZ39F

VLZ39G

VLZ43

34.68

35.36

36

5

0.5

-

32.9

33.6

34.2

34.8

35.5

36.2

37

85

VLZ39

36.63

37.36

38.14

38.94

40

85

VLZ43

VLZ47

VLZ51

VLZ56

90

38

VLZ47

44

49

90

-

41.8

45.6

50.4

VLZ51

48

54

100

-

VLZ56

53

60

-

Typical Characteristics

T

= 25 °C, unless otherwise specified

amb

1.3

1.2

1.1

600

500

400

300

200

V_Ztn= V_Zt/V_Z(25 °C)

TK_VZ= 10 x 10^-4/K

8 x 10^-4/K

6 x 10^-4/K

4 x 10^-4/K

2 x 10^-4/K

0

1.0

0.9

- 2 x 10^-4/K

- 4 x 10^-4/K

100

0

0.8

240

200

T_amb- Ambient Temperature (°C)

0

80

120

160

- 60

60

120

180

40

95 9599

T_j- Junction Temperature (°C)

95 9602

Figure 1. Total Power Dissipation vs. Ambient Temperature

Figure 3. Typical Change of Working Voltage vs.

Junction Temperature

1000

15

10

T_j= 25 °C

100

5

I_Z= 5 mA

10

0

- 5

1

25

0

10

15

20

5

0

10

20

V_Z- Z-Voltage (V)

Figure 4. Temperature Coefficient of Vz vs. Z-Voltage

30

40

50

95 9598

V_Z- Z-Voltage (V)

95 9600

Figure 2. Typical Change of Working Voltage under Operating

Conditions at T_amb= 25°C

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4

Document Number 81759

Rev. 1.1, 17-Oct-07

VLZ-Series

Vishay Semiconductors

50

200

150

100

50

P_tot= 500 mW

T_amb= 25 °C

40

30

20

10

V_R= 2 V

T_j= 25 °C

0

25

35

0

10

15

20

15

20

25

30

5

95 9607

95 9601

V_Z- Z-Voltage (V)

Figure 5. Diode Capacitance vs. Z-Voltage

Figure 8. Z-Current vs. Z-Voltage

1000

100

10

100

10

I_Z= 1 mA

T_j= 25 °C

1

5 mA

0.1

0.01

10 mA

T_j= 25 °C

1

0.001

25

1.0

0

5

10

15

20

0

0.2

0.4

0.6

0.8

95 9606

V_Z- Z-Voltage (V)

V_F- Forward Voltage (V)

95 9605

Figure 6. Forward Current vs. Forward Voltage

Figure 9. Differential Z-Resistance vs. Z-Voltage

100

80

P_tot= 500 mW

T_amb= 25 °C

60

40

20

0

12

20

0

4

6

8

V_Z- Z-Voltage (V)

95 9604

Figure 7. Z-Current vs. Z-Voltage

Document Number 81759

Rev. 1.1, 17-Oct-07

www.vishay.com

5

VLZ-Series

Vishay Semiconductors

1000

t_p/T = 0.5

100

t_p/T = 0.2

Single Pulse

R_thJA= 300 K/W

T = T_jmax- T_amb

10

t_p/T = 0.01

t_p/T = 0.1

t_p/T = 0.02

t_p/T = 0.05

i_ZM= (- V_Z+ (V_Z²+ 4r_zjx T/Z_thp

10²

)

^1/2)/(2r_zj)

1

10^-1

10⁰

10¹

95 9603

t_p- Pulse Length (ms)

Figure 10. Thermal Response

Package Dimensions in millimeters (inches): QuadroMELF SOD-80

Cathode Identification

Glass

R3 [R0.118]

*

Glass

0.47 max. [0.019]

3.7 [0.146]

3.3 [0.130]

The gap between plug and glass can

be either on cathode or anode side

*

foot print recommendation:

2.5 [0.098] max.

1.25 [0.049] min.

20909

5 [0.197] ref.

Created - Date: 16.October.2007

Document no.:6.560-5006.01a-4

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6

Document Number 81759

Rev. 1.1, 17-Oct-07

Legal Disclaimer Notice

Vishay

Disclaimer

All product specifications and data are subject to change without notice.

Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf

(collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein

or in any other disclosure relating to any product.

Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any

information provided herein to the maximum extent permitted by law. The product specifications do not expand or

otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed

therein, which apply to these products.

No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this

document or by any conduct of Vishay.

The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless

otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such

applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting

from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding

products designed for such applications.

Product names and markings noted herein may be trademarks of their respective owners.

Document Number: 91000

Revision: 18-Jul-08

www.vishay.com

1


型号：	VLZ4V3C/GS18
厂家：	VISHAY
描述：	DIODE 4.3 V, 1 W, SILICON, UNIDIRECTIONAL VOLTAGE REGULATOR DIODE, ROHS COMPLIANT, QUADROMELF-2, Voltage Regulator Diode
文件：	总7页 (文件大小：130K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

VLZ4V3C/GS18 [VISHAY]

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