BCX53-16@115 - NXP SEMICONDUCTORS

TLZ...

Vishay Telefunken

Rev . A1, 14-Mar-01 1 (8)

www.vishay.com

Document Number 85635

Z–Diodes

Features

Very sharp reverse characteristic

Low reverse current level

Available with tighter tolerances

Very high stability

Low noise

Silicon Epitaxial Planar

High reliability

Applications

Voltage stabilization

94 9371

Order Instruction

Type Ordering Code Remarks

TLZ2V4

TLZ2V4–GS08 Tape and Reel (2.500 pcs)

TLZ2V4

TLZ2V4–GS18 Tape and Reel (10.000 pcs)

Absolute Maximum Ratings

Tj = 25

CParameter Test Conditions Type Symbol Value Unit

Power dissipation RthJA

300K/W PV500 mW

Z–current IZPV/VZmA

Junction temperature Tj175

Storage temperature range Tstg –65...+175

Maximum Thermal Resistance

Tj = 25

Parameter Test Conditions Symbol Value Unit

Junction ambient on PC board 50 mmx50 mmx1.6 mm RthJA 500 K/W

Electrical Characteristics

Tj = 25

Parameter Test Conditions Type Symbol Min Typ Max Unit

Forward voltage IF=200mA VF1.5 V

TLZ...

Vishay Telefunken

Rev . A1, 14-Mar-012 (8)

www.vishay.com Document Number 85635

Type VZmin. VZmax. at IZZZmax. at IZZZKmax. at IZIRmax. at VR

(V) (V) (mA) (

) (mA) (

A) (V)

TLZ2V4 2.330 2.630 20 100 20 2000 1 120 1.0

TLZ2V4A 2.330 2.520 20 100 20 2000 1 120 1.0

TLZ2V4B 2.430 2.630 20 100 20 2000 1 120 1.0

TLZ2V7 2.540 2.910 20 100 20 1000 1 100 1.0

TLZ2V7A 2.540 2.750 20 100 20 1000 1 100 1.0

TLZ2V7B 2.690 2.910 20 100 20 1000 1 100 1.0

TLZ3V0 2.850 3.220 20 80 20 1000 1 50 1.0

TLZ3V0A 2.850 3.070 20 80 20 1000 1 50 1.0

TLZ3V0B 3.010 3.220 20 80 20 1000 1 50 1.0

TLZ3V3 3.160 3.530 20 70 20 1000 1 20 1.0

TLZ3V3A 3.160 3.380 20 70 20 1000 1 20 1.0

TLZ3V3B 3.320 3.530 20 70 20 1000 1 20 1.0

TLZ3V6 3.455 3.845 20 60 20 1000 1 10 1.0

TLZ3V6A 3.455 3.695 20 60 20 1000 1 10 1.0

TLZ3V6B 3.600 3.845 20 60 20 1000 1 10 1.0

TLZ3V9 3.74 4.16 20 50 20 1000 1 5 1.0

TLZ3V9A 3.74 4.01 20 50 20 1000 1 5 1.0

TLZ3V9B 3.89 4.16 20 50 20 1000 1 5 1.0

TLZ4V3 4.04 4.57 20 40 20 1000 1 5 1.0

TLZ4V3A 4.04 4.29 20 40 20 1000 1 5 1.0

TLZ4V3B 4.17 4.43 20 40 20 1000 1 5 1.0

TLZ4V3C 4.30 4.57 20 40 20 1000 1 5 1.0

TLZ4V7 4.44 4.93 20 25 20 900 1 5 1.0

TLZ4V7A 4.44 4.68 20 25 20 900 1 5 1.0

TLZ4V7B 4.55 4.80 20 25 20 900 1 5 1.0

TLZ4V7C 4.68 4.93 20 25 20 900 1 5 1.0

TLZ5V1 4.81 5.37 20 20 20 800 1 5 1.5

TLZ5V1A 4.81 5.07 20 20 20 800 1 5 1.5

TLZ5V1B 4.94 5.20 20 20 20 800 1 5 1.5

TLZ5V1C 5.09 5.37 20 20 20 800 1 5 1.5

TLZ5V6 5.28 5.91 20 13 20 500 1 5 2.5

TLZ5V6A 5.28 5.55 20 13 20 500 1 5 2.5

TLZ5V6B 5.45 5.73 20 13 20 500 1 5 2.5

TLZ5V6C 5.61 5.91 20 13 20 500 1 5 2.5

TLZ6V2 5.78 6.44 20 10 20 300 1 5 3.0

TLZ6V2A 5.78 6.09 20 10 20 300 1 5 3.0

TLZ6V2B 5.96 6.27 20 10 20 300 1 5 3.0

TLZ6V2C 6.12 6.44 20 10 20 300 1 5 3.0

TLZ6V8 6.29 7.01 20 8 20 150 0.5 2 3.5

TLZ6V8A 6.29 6.63 20 8 20 150 0.5 2 3.5

TLZ6V8B 6.49 6.83 20 8 20 150 0.5 2 3.5

TLZ6V8C 6.66 7.01 20 8 20 150 0.5 2 3.5

TLZ...

Vishay Telefunken

Rev . A1, 14-Mar-01 3 (8)

www.vishay.com

Document Number 85635

Type VZmin. VZmax. at IZZZmax. at IZZZKmax. at IZIRmax. at VR

(V) (V) (mA) (

) (mA) (

A) (V)

TLZ7V5 6.85 7.67 20 8 20 120 0.5 0.5 4.0

TLZ7V5A 6.85 7.22 20 8 20 120 0.5 0.5 4.0

TLZ7V5B 7.07 7.45 20 8 20 120 0.5 0.5 4.0

TLZ7V5C 7.29 7.67 20 8 20 120 0.5 0.5 4.0

TLZ8V2 7.53 8.45 20 8 20 120 0.5 0.5 5.0

TLZ8V2A 7.53 7.92 20 8 20 120 0.5 0.5 5.0

TLZ8V2B 7.78 8.19 20 8 20 120 0.5 0.5 5.0

TLZ8V2C 8.03 8.45 20 8 20 120 0.5 0.5 5.0

TLZ9V1 8.29 9.30 20 8 20 120 0.5 0.5 6.0

TLZ9V1A 8.29 8.73 20 8 20 120 0.5 0.5 6.0

TLZ9V1B 8.57 9.01 20 8 20 120 0.5 0.5 6.0

TLZ9V1C 8.83 9.30 20 8 20 120 0.5 0.5 6.0

TLZ10 9.12 10.44 20 8 20 120 0.5 0.2 7.0

TLZ10A 9.12 9.59 20 8 20 120 0.5 0.2 7.0

TLZ10B 9.41 9.90 20 8 20 120 0.5 0.2 7.0

TLZ10C 9.70 10.20 20 8 20 120 0.5 0.2 7.0

TLZ10D 9.94 10.44 20 8 20 120 0.5 0.2 7.0

TLZ11 10.18 11.38 10 10 10 120 0.5 0.2 8.0

TLZ11A 10.18 10.71 10 10 10 120 0.5 0.2 8.0

TLZ11B 10.50 11.05 10 10 10 120 0.5 0.2 8.0

TLZ11C 10.82 11.38 10 10 10 120 0.5 0.2 8.0

TLZ12 11.13 12.35 10 12 10 110 0.5 0.2 9.0

TLZ12A 11.13 11.71 10 12 10 110 0.5 0.2 9.0

TLZ12B 11.44 12.03 10 12 10 110 0.5 0.2 9.0

TLZ12C 11.74 12.35 10 12 10 110 0.5 0.2 9.0

TLZ13 12.11 13.66 10 14 10 110 0.5 0.2 10

TLZ13A 12.11 12.75 10 14 10 110 0.5 0.2 10

TLZ13B 12.55 13.21 10 14 10 110 0.5 0.2 10

TLZ13C 12.99 13.66 10 14 10 110 0.5 0.2 10

TLZ15 13.44 15.09 10 16 10 110 0.5 0.2 11

TLZ15A 13.44 14.13 10 16 10 110 0.5 0.2 11

TLZ15B 13.89 14.62 10 16 10 110 0.5 0.2 11

TLZ15C 14.35 15.09 10 16 10 110 0.5 0.2 11

TLZ16 14.80 16.51 10 18 10 150 0.5 0.2 12

TLZ16A 14.80 15.57 10 18 10 150 0.5 0.2 12

TLZ16B 15.25 16.04 10 18 10 150 0.5 0.2 12

TLZ16C 15.69 16.51 10 18 10 150 0.5 0.2 12

TLZ18 16.22 18.33 10 23 10 150 0.5 0.2 13

TLZ18A 16.22 17.06 10 23 10 150 0.5 0.2 13

TLZ18B 16.82 17.70 10 23 10 150 0.5 0.2 13

TLZ18C 17.42 18.33 10 23 10 150 0.5 0.2 13

TLZ20 18.02 20.72 10 28 10 200 0.5 0.2 15

TLZ20A 18.02 18.96 10 28 10 200 0.5 0.2 15

TLZ20B 18.63 19.59 10 28 10 200 0.5 0.2 15

TLZ20C 19.23 20.22 10 28 10 200 0.5 0.2 15

TLZ20D 19.72 20.72 10 28 10 200 0.5 0.2 15

TLZ...

Vishay Telefunken

Rev . A1, 14-Mar-014 (8)

www.vishay.com Document Number 85635

Type VZmin. VZmax. at IZZZmax. at IZZZKmax. at IZIRmax. at VR

(V) (V) (mA) (

) (mA) (

A) (V)

TLZ22 20.15 22.63 5 30 5 200 0.5 0.2 17

TLZ22A 20.15 21.20 5 30 5 200 0.5 0.2 17

TLZ22B 20.64 21.71 5 30 5 200 0.5 0.2 17

TLZ22C 21.08 22.17 5 30 5 200 0.5 0.2 17

TLZ22D 21.52 22.63 5 30 5 200 0.5 0.2 17

TLZ24 22.05 24.85 5 35 5 200 0.5 0.2 19

TLZ24A 22.05 23.18 5 35 5 200 0.5 0.2 19

TLZ24B 22.61 23.77 5 35 5 200 0.5 0.2 19

TLZ24C 23.12 24.31 5 35 5 200 0.5 0.2 19

TLZ24D 23.63 24.85 5 35 5 200 0.5 0.2 19

TLZ27 24.26 27.64 5 45 5 250 0.5 0.2 21

TLZ27A 24.26 25.52 5 45 5 250 0.5 0.2 21

TLZ27B 24.97 26.26 5 45 5 250 0.5 0.2 21

TLZ27C 25.63 26.95 5 45 5 250 0.5 0.2 21

TLZ27D 26.29 27.64 5 45 5 250 0.5 0.2 21

TLZ30 26.99 30.51 5 55 5 250 0.5 0.2 23

TLZ30A 26.99 28.39 5 55 5 250 0.5 0.2 23

TLZ30B 27.70 29.13 5 55 5 250 0.5 0.2 23

TLZ30C 28.36 29.82 5 55 5 250 0.5 0.2 23

TLZ30D 29.02 30.51 5 55 5 250 0.5 0.2 23

TLZ33 29.68 33.11 5 65 5 250 0.5 0.2 25

TLZ33A 29.68 31.22 5 65 5 250 0.5 0.2 25

TLZ33B 30.32 31.88 5 65 5 250 0.5 0.2 25

TLZ33C 30.90 32.50 5 65 5 250 0.5 0.2 25

TLZ33D 31.49 33.11 5 65 5 250 0.5 0.2 25

TLZ36 32.14 35.77 5 75 5 250 0.5 0.2 27

TLZ36A 32.14 33.79 5 75 5 250 0.5 0.2 27

TLZ36B 32.79 34.49 5 75 5 250 0.5 0.2 27

TLZ36C 33.40 35.13 5 75 5 250 0.5 0.2 27

TLZ36D 34.01 35.77 5 75 5 250 0.5 0.2 27

TLZ39 34.68 40.80 5 85 5 250 0.5 0.2 30

TLZ39A 34.68 36.47 5 85 5 250 0.5 0.2 30

TLZ39B 35.36 37.19 5 85 5 250 0.5 0.2 30

TLZ39C 36.00 37.85 5 85 5 250 0.5 0.2 30

TLZ39D 36.63 38.52 5 85 5 250 0.5 0.2 30

TLZ39E 37.36 39.29 5 85 5 250 0.5 0.2 30

TLZ39F 38.14 40.11 5 85 5 250 0.5 0.2 30

TLZ39G 38.94 40.80 5 85 5 250 0.5 0.2 30

TLZ43 40.00 45.00 5 90 5 – – 0.2 33

TLZ47 44.00 49.00 5 90 5 – – 0.2 36

TLZ51 48.00 54.00 5 100 5 – – 0.2 39

TLZ56 53.00 60.00 5 100 5 – – 0.2 43

TLZ...

Vishay Telefunken

Rev . A1, 14-Mar-01 5 (8)

www.vishay.com

Document Number 85635

Characteristics (Tj = 25

C unless otherwise specified)

0 40 80 120 160

100

300

400

500

600

P – Total Power Dissipation ( mW )

tot

Tamb – Ambient Temperature ( °C )

200

95 9602

200

Figure 1. Total Power Dissipation vs.

Ambient Temperature

0 5 10 15 20

100

1000

V – Voltage Change ( mV )

VZ – Z-Voltage ( V )

95 9598

IZ=5mA

Tj=25°C

Figure 2. Typical Change of Working Voltage under

Operating Conditions at Tamb=25

–60 0 60 120 180

0.8

0.9

1.0

1.1

1.2

1.3

V – Relative Voltage Change

Ztn

Tj – Junction Temperature ( °C )

240

95 9599

VZtn=VZt/VZ(25°C)

TKVZ=10

10–4/K 8

10–4/K

–4

10–4/K

–2

10–4/K

Figure 3. Typical Change of Working Voltage vs.

Junction Temperature

0102030

–5

TK – Temperature Coefficient of V ( 10 /K

)

VZ – Z-Voltage ( V )

95 9600

Z–4

IZ=5mA

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

0 5 10 15

100

150

200

C – Diode Capacitance ( pF )

VZ – Z-Voltage ( V )

95 9601

Tj=25°C

VR=2V

Figure 5. Diode Capacitance vs. Z–Voltage

0 0.2 0.4 0.6 0.8

0.001

0.01

0.1

100

1.0

95 9605

I – Forward Current ( mA )

VF – Forward Voltage ( V )

Tj=25°C

Figure 6. Forward Current vs. Forward Voltage

TLZ...

Vishay Telefunken

Rev . A1, 14-Mar-016 (8)

www.vishay.com Document Number 85635

04 81216

95 9604

100

I – Z-Current ( mA )

VZ – Z-Voltage ( V )

Ptot=500mW

Tamb=25°C

Figure 7. Z–Current vs. Z–Voltage

15 20 25 30

I – Z-Current ( mA )

VZ – Z-Voltage ( V )

95 9607

Ptot=500mW

Tamb=25°C

Figure 8. Z–Current vs. Z–Voltage

0 5 10 15 20

100

1000

r – Differential Z-Resistance ( )

VZ – Z-Voltage ( V )

95 9606

Tj=25°C

IZ=1mA

5mA

10mA

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

100

1000

Z – Thermal Resistance for Pulse Cond. (K/W)

thp

tp – Pulse Length ( ms )95 9603

10–1 100101102

tp/T=0.5

tp/T=0.2

tp/T=0.1

tp/T=0.05

tp/T=0.02 tp/T=0.01

Single Pulse RthJA=300K/W

T=Tjmax–Tamb

iZM=(–VZ+(VZ2+4rzj



T/Zthp)1/2)/(2rzj)

Figure 10. Thermal Response

TLZ...

Vishay Telefunken

Rev . A1, 14-Mar-01 7 (8)

www.vishay.com

Document Number 85635

Dimensions in mm

96 12070

TLZ...

Vishay Telefunken

Rev . A1, 14-Mar-018 (8)

www.vishay.com Document Number 85635

Ozone Depleting Substances Policy Statement

It is the policy of V ishay Semiconductor GmbH to

1. Meet all present and future national and international statutory requirements.

2. Regularly and continuously improve the performance of our products, processes, distribution and operating

systems with respect to their impact on the health and safety of our employees and the public, as well as their

impact on the environment.

It is particular concern to control or eliminate releases of those substances into the atmosphere which are known as

ozone depleting substances (ODSs).

The Montreal Protocol (1987) and its London Amendments (1990) intend to severely restrict the use of ODSs and

forbid their use within the next ten years. V arious national and international initiatives are pressing for an earlier ban

on these substances.

Vishay Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use of

ODSs listed in the following documents.

1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively

2. Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the Environmental

Protection Agency (EPA) in the USA

3. Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C (transitional substances) respectively.

Vishay Semiconductor GmbH can certify that our semiconductors are not manufactured with ozone depleting

substances and do not contain such substances.

We reserve the right to make changes to improve technical design and may do so without further notice.

Parameters can vary in different applications. All operating parameters must be validated for each customer application

by the customer. Should the buyer use Vishay-Telefunken products for any unintended or unauthorized application, the

buyer shall indemnify Vishay-Telefunken against all claims, costs, damages, and expenses, arising out of, directly or

indirectly, any claim of personal damage, injury or death associated with such unintended or unauthorized use.

Vishay Semiconductor GmbH, P.O.B. 3535, D-74025 Heilbronn, Germany

Telephone: 49 (0)7131 67 2831, Fax number: 49 (0)7131 67 2423