VISHAY TLZ5V6C

TLZ...
Vishay Semiconductors
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
Order Instruction
Type
TLZ2V4
Ordering Code
Remarks
TLZ2V4–GS08
Tape and Reel (2.500 pcs)
TLZ2V4–GS18
Tape and Reel (10.000 pcs)
Absolute Maximum Ratings
Tj = 25C
Parameter
Test Conditions
Type
Symbol
Value
Unit
PV
500
mW
Z–current
IZ
PV/VZ
mA
Junction temperature
Tj
175
°C
Tstg
–65...+175
°C
RthJA300K/W
Power dissipation
Storage temperature range
Maximum Thermal Resistance
Tj = 25C
Parameter
Junction ambient
Test Conditions
on PC board 50 mmx50 mmx1.6 mm
Symbol
Value
Unit
RthJA
500
K/W
Electrical Characteristics
Tj = 25C
Parameter
Forward voltage
Document Number 85635
Rev. A4, 08-JAug-02
Test Conditions
IF=200mA
Type
Symbol
VF
Min
Typ
Max
Unit
1.5
V
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1 (9)
TLZ...
Vishay Semiconductors
Type
TLZ2V4
VZmin VZmax.
at IZ
ZZmax
at IZ
ZZKmax.
at IZ
IRmax.
at
VR
IRmax2)
at
VR2)
(V)
(V)
(mA)
()
(mA)
()
(mA)
(A)
(V)
(A)
(V)
Body
Marking
2.330
2.630
20
100
20
2000
1
120
1.0
70
0.8
2V4
TLZ2V4A 2.330
2.520
20
100
20
2000
1
120
1.0
70
0.8
2A4
TLZ2V4B 2.430
2.630
20
100
20
2000
1
120
1.0
70
0.8
2B4
TLZ2V7
2.540
2.910
20
100
20
1000
1
100
1.0
70
0.8
2V7
TLZ2V7A 2.540
2.750
20
100
20
1000
1
100
1.0
70
0.8
2A7
TLZ2V7B 2.690
2.910
20
100
20
1000
1
100
1.0
70
0.8
2B7
TLZ3V0
2.850
3.220
20
80
20
1000
1
50
1.0
70
0.8
3V0
TLZ3V0A 2.850
3.070
20
80
20
1000
1
50
1.0
70
0.8
3A0
TLZ3V0B 3.010
3.220
20
80
20
1000
1
50
1.0
20
0.8
3B0
TLZ3V3
3.160
3.530
20
70
20
1000
1
20
1.0
20
0.8
3V3
TLZ3V3A 3.160
3.380
20
70
20
1000
1
20
1.0
20
0.8
3A3
TLZ3V3B 3.320
3.530
20
70
20
1000
1
20
1.0
20
0.8
3B3
TLZ3V6
3.455
3.845
20
60
20
1000
1
10
1.0
6
0.8
3V6
TLZ3V6A 3.455
3.695
20
60
20
1000
1
10
1.0
6
0.8
3A6
TLZ3V6B 3.600
3.845
20
60
20
1000
1
10
1.0
6
0.8
3B6
TLZ3V9
3.74
4.16
20
50
20
1000
1
5
1.0
3
0.8
3V9
TLZ3V9A
3.74
4.01
20
50
20
1000
1
5
1.0
3
0.8
3A9
TLZ3V9B
3.89
4.16
20
50
20
1000
1
5
1.0
3
0.8
3B9
TLZ4V3
4.04
4.57
20
40
20
1000
1
5
1.0
3
0.8
4V3
TLZ4V3A
4.04
4.29
20
40
20
1000
1
5
1.0
3
0.8
4A3
TLZ4V3B
4.17
4.43
20
40
20
1000
1
5
1.0
3
0.8
4B3
TLZ4V3C
4.30
4.57
20
40
20
1000
1
5
1.0
3
0.8
4C3
TLZ4V7
4.44
4.93
20
25
20
900
1
5
1.0
1.5
0.8
4V7
TLZ4V7A
4.44
4.68
20
25
20
900
1
5
1.0
1.5
0.8
4A7
TLZ4V7B
4.55
4.80
20
25
20
900
1
5
1.0
1.5
0.8
4B7
TLZ4V7C
4.68
4.93
20
25
20
900
1
5
1.0
1.5
0.8
4C7
TLZ5V1
4.81
5.37
20
20
20
800
1
5
1.5
0.5
1.0
5V1
TLZ5V1A
4.81
5.07
20
20
20
800
1
5
1.5
0.5
1.0
5A1
TLZ5V1B
4.94
5.20
20
20
20
800
1
5
1.5
0.5
1.0
5B1
TLZ5V1C
5.09
5.37
20
20
20
800
1
5
1.5
0.1
1.0
5C1
TLZ5V6
5.28
5.91
20
13
20
500
1
5
2.5
0.1
1.0
5V6
TLZ5V6A
5.28
5.55
20
13
20
500
1
5
2.5
0.1
1.0
5A6
TLZ5V6B
5.45
5.73
20
13
20
500
1
5
2.5
0.1
1.0
5B6
TLZ5V6C
5.61
5.91
20
13
20
500
1
5
2.5
0.1
1.0
5C6
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2 (9)
Document Number 85635
Rev. A4, 08-Aug-02
TLZ...
Vishay Semiconductors
Type
VZmin VZmax.
at IZ
ZZmax
at IZ
ZZKmax.
at IZ
IRmax.
at
VR
IRmax2)
at
VR2)
(V)
(V)
(mA)
()
(mA)
()
(mA)
(A)
(V)
(A)
(V)
Body
Marking
TLZ6V2
5.78
6.44
20
10
20
300
1
5
3.0
0.1
1.0
6V2
TLZ6V2A
5.78
6.09
20
10
20
300
1
5
3.0
0.1
1.0
6A2
TLZ6V2B
5.96
6.27
20
10
20
300
1
5
3.0
0.1
2.0
6B2
TLZ6V2C
6.12
6.44
20
10
20
300
1
5
3.0
0.1
2.0
6C2
TLZ6V8
6.29
7.01
20
8
20
150
0.5
2
3.5
0.1
2.0
6V8
TLZ6V8A
6.29
6.63
20
8
20
150
0.5
2
3.5
0.1
2.0
6A8
TLZ6V8B
6.49
6.83
20
8
20
150
0.5
2
3.5
0.1
3.0
6B8
TLZ6V8C
6.66
7.01
20
8
20
150
0.5
2
3.5
0.1
3.0
6C8
TLZ7V5
6.85
7.67
20
8
20
120
0.5
0.5
4.0
0.1
3.0
7V5
TLZ7V5A
6.85
7.22
20
8
20
120
0.5
0.5
4.0
0.1
3.0
7A5
TLZ7V5B
7.07
7.45
20
8
20
120
0.5
0.5
4.0
0.1
4.0
7B5
TLZ7V5C
7.29
7.67
20
8
20
120
0.5
0.5
4.0
0.1
4.0
7C5
TLZ8V2
7.53
8.45
20
8
20
120
0.5
0.5
5.0
0.1
4.0
8V2
TLZ8V2A
7.53
7.92
20
8
20
120
0.5
0.5
5.0
0.1
4.0
8A2
TLZ8V2B
7.78
8.19
20
8
20
120
0.5
0.5
5.0
0.1
4.0
8B2
TLZ8V2C
8.03
8.45
20
8
20
120
0.5
0.5
5.0
0.1
4.0
8C2
TLZ9V1
8.29
9.30
20
8
20
120
0.5
0.5
6.0
–
–
9V1
TLZ9V1A
8.29
8.73
20
8
20
120
0.5
0.5
6.0
–
–
9A1
TLZ9V1B
8.57
9.01
20
8
20
120
0.5
0.5
6.0
–
–
9B1
TLZ9V1C
8.83
9.30
20
8
20
120
0.5
0.5
6.0
–
–
9C1
TLZ10
9.12
10.44
20
8
20
120
0.5
0.2
7.0
–
–
10
TLZ10A
9.12
9.59
20
8
20
120
0.5
0.2
7.0
–
–
10A
TLZ10B
9.41
9.90
20
8
20
120
0.5
0.2
7.0
–
–
10B
TLZ10C
9.70
10.20
20
8
20
120
0.5
0.2
7.0
–
–
10C
TLZ10D
9.94
10.44
20
8
20
120
0.5
0.2
7.0
–
–
10D
TLZ11
10.18
11.38
10
10
10
120
0.5
0.2
8.0
–
–
11
TLZ11A
10.18
10.71
10
10
10
120
0.5
0.2
8.0
–
–
11A
TLZ11B
10.50
11.05
10
10
10
120
0.5
0.2
8.0
–
–
11B
TLZ11C
10.82
11.38
10
10
10
120
0.5
0.2
8.0
–
–
11C
TLZ12
11.13
12.35
10
12
10
110
0.5
0.2
9.0
–
–
12
TLZ12A
11.13
11.71
10
12
10
110
0.5
0.2
9.0
–
–
12A
TLZ12B
11.44
12.03
10
12
10
110
0.5
0.2
9.0
–
–
12B
TLZ12C
11.74
12.35
10
12
10
110
0.5
0.2
9.0
–
–
12C
TLZ13
12.11
13.66
10
14
10
110
0.5
0.2
10
–
–
13
TLZ13A
12.11
12.75
10
14
10
110
0.5
0.2
10
–
–
13A
TLZ13B
12.55
13.21
10
14
10
110
0.5
0.2
10
–
–
13B
TLZ13C
12.99
13.66
10
14
10
110
0.5
0.2
10
–
–
13C
.
.
Document Number 85635
Rev. A4, 08-JAug-02
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3 (9)
TLZ...
Vishay Semiconductors
Type
VZmin VZmax.
at IZ
ZZmax
at IZ
ZZKmax.
at IZ
IRmax.
at
VR
IRmax2)
at
VR2)
(V)
(V)
(mA)
()
(mA)
()
(mA)
(A)
(V)
(A)
(V)
Body
Marking
TLZ15
13.44
15.09
10
16
10
110
0.5
0.2
11
–
–
15
TLZ15A
13.44
14.13
10
16
10
110
0.5
0.2
11
–
–
15A
TLZ15B
13.89
14.62
10
16
10
110
0.5
0.2
11
–
–
15B
TLZ15C
14.35
15.09
10
16
10
110
0.5
0.2
11
–
–
15C
TLZ16
14.80
16.51
10
18
10
150
0.5
0.2
12
–
–
16
TLZ16A
14.80
15.57
10
18
10
150
0.5
0.2
12
–
–
16A
TLZ16B
15.25
16.04
10
18
10
150
0.5
0.2
12
–
–
16B
TLZ16C
15.69
16.51
10
18
10
150
0.5
0.2
12
–
–
16C
TLZ18
16.22
18.33
10
23
10
150
0.5
0.2
13
–
–
18
TLZ18A
16.22
17.06
10
23
10
150
0.5
0.2
13
–
–
18A
TLZ18B
16.82
17.70
10
23
10
150
0.5
0.2
13
–
–
18B
TLZ18C
17.42
18.33
10
23
10
150
0.5
0.2
13
–
–
18C
TLZ20
18.02
20.72
10
28
10
200
0.5
0.2
15
–
–
20
TLZ20A
18.02
18.96
10
28
10
200
0.5
0.2
15
–
–
20A
TLZ20B
18.63
19.59
10
28
10
200
0.5
0.2
15
–
–
20B
TLZ20C
19.23
20.22
10
28
10
200
0.5
0.2
15
–
–
20C
TLZ20D
19.72
20.72
10
28
10
200
0.5
0.2
15
–
–
20D
TLZ22
20.15
22.63
5
30
5
200
0.5
0.2
17
–
–
22
TLZ22A
20.15
21.20
5
30
5
200
0.5
0.2
17
–
–
22A
TLZ22B
20.64
21.71
5
30
5
200
0.5
0.2
17
–
–
22B
TLZ22C
21.08
22.17
5
30
5
200
0.5
0.2
17
–
–
22C
TLZ22D
21.52
22.63
5
30
5
200
0.5
0.2
17
–
–
22D
TLZ24
22.05
24.85
5
35
5
200
0.5
0.2
19
–
–
24
TLZ24A
22.05
23.18
5
35
5
200
0.5
0.2
19
–
–
24A
TLZ24B
22.61
23.77
5
35
5
200
0.5
0.2
19
–
–
24B
TLZ24C
23.12
24.31
5
35
5
200
0.5
0.2
19
–
–
24C
TLZ24D
23.63
24.85
5
35
5
200
0.5
0.2
19
–
–
24D
TLZ27
24.26
27.64
5
45
5
250
0.5
0.2
21
–
–
27
TLZ27A
24.26
25.52
5
45
5
250
0.5
0.2
21
–
–
27A
TLZ27B
24.97
26.26
5
45
5
250
0.5
0.2
21
–
–
27B
TLZ27C
25.63
26.95
5
45
5
250
0.5
0.2
21
–
–
27C
TLZ27D
26.29
27.64
5
45
5
250
0.5
0.2
21
–
–
27D
TLZ30
26.99
30.51
5
55
5
250
0.5
0.2
23
–
–
30
TLZ30A
26.99
28.39
5
55
5
250
0.5
0.2
23
–
–
30A
TLZ30B
27.70
29.13
5
55
5
250
0.5
0.2
23
–
–
30B
TLZ30C
28.36
29.82
5
55
5
250
0.5
0.2
23
–
–
30C
TLZ30D
29.02
30.51
5
55
5
250
0.5
0.2
23
–
–
30D
.
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4 (9)
.
Document Number 85635
Rev. A4, 08-Aug-02
TLZ...
Vishay Semiconductors
Type
VZmin VZmax.
at IZ
ZZmax
at IZ
ZZKmax.
at IZ
IRmax.
at
VR
IRmax2)
at
VR2)
(V)
(V)
(mA)
()
(mA)
()
(mA)
(A)
(V)
(A)
(V)
Body
Marking
TLZ33
29.68
33.11
5
65
5
250
0.5
0.2
25
–
–
33
TLZ33A
29.68
31.22
5
65
5
250
0.5
0.2
25
–
–
33A
TLZ33B
30.32
31.88
5
65
5
250
0.5
0.2
25
–
–
33B
TLZ33C
30.90
32.50
5
65
5
250
0.5
0.2
25
–
–
33C
TLZ33D
31.49
33.11
5
65
5
250
0.5
0.2
25
–
–
33D
TLZ36
32.14
35.77
5
75
5
250
0.5
0.2
27
–
–
36
TLZ36A
32.14
33.79
5
75
5
250
0.5
0.2
27
–
–
36A
TLZ36B
32.79
34.49
5
75
5
250
0.5
0.2
27
–
–
36B
TLZ36C
33.40
35.13
5
75
5
250
0.5
0.2
27
–
–
36C
TLZ36D
34.01
35.77
5
75
5
250
0.5
0.2
27
–
–
36D
TLZ39
34.68
40.80
5
85
5
250
0.5
0.2
30
–
–
39
TLZ39A
34.68
36.47
5
85
5
250
0.5
0.2
30
–
–
39A
TLZ39B
35.36
37.19
5
85
5
250
0.5
0.2
30
–
–
39B
TLZ39C
36.00
37.85
5
85
5
250
0.5
0.2
30
–
–
39C
TLZ39D
36.63
38.52
5
85
5
250
0.5
0.2
30
–
–
39D
TLZ39E
37.36
39.29
5
85
5
250
0.5
0.2
30
–
–
39E
TLZ39F
38.14
40.11
5
85
5
250
0.5
0.2
30
–
–
39F
TLZ39G
38.94
40.80
5
85
5
250
0.5
0.2
30
–
–
39G
TLZ43
40.00
45.00
5
90
5
–
–
0.2
33
–
–
43
TLZ47
44.00
49.00
5
90
5
–
–
0.2
36
–
–
47
TLZ51
48.00
54.00
5
100
5
–
–
0.2
39
–
–
51
TLZ56
53.00
60.00
5
100
5
–
–
0.2
43
–
–
56
.
.
2) Additional measurement
Please note: Additional measurement of voltage group 9V1 to 75 IR at 95 % VZmin = < 35 nA at Tj 25 C
Document Number 85635
Rev. A4, 08-JAug-02
www.vishay.com
5 (9)
TLZ...
Vishay Semiconductors
Ptot – Total Power Dissipation ( mW )
600
500
400
300
200
100
0
0
40
80
120
160
200
Tamb – Ambient Temperature ( °C )
95 9602
TK VZ – Temperature Coefficient of VZ ( 10 –4/K )
Characteristics (Tj = 25C unless otherwise specified)
10
5
IZ=5mA
0
–5
0
20
30
40
50
VZ – Z-Voltage ( V )
Figure 4. Temperature Coefficient of Vz vs. Z–Voltage
1000
CD – Diode Capacitance ( pF )
200
Tj=25°C
100
IZ=5mA
10
150
VR=2V
Tj=25°C
100
50
1
0
0
5
10
15
20
25
VZ – Z-Voltage ( V )
95 9598
0
5
10
15
20
25
VZ – Z-Voltage ( V )
95 9601
Figure 2. Typical Change of Working Voltage under
Operating Conditions at Tamb=25°C
Figure 5. Diode Capacitance vs. Z–Voltage
100
1.3
VZtn=VZt/VZ(25°C)
1.2
TKVZ=1010 –4/K
810 –4/K
610 –4/K
1.1
410 –4/K
210 –4/K
0
–210 –4/K
1.0
–410 –4/K
0.9
0.8
–60
95 9599
10
Tj=25°C
1
0.1
0.01
0.001
0
60
120
180
240
Tj – Junction Temperature ( °C )
Figure 3. Typical Change of Working Voltage vs.
Junction Temperature
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6 (9)
IF – Forward Current ( mA )
VZtn – Relative Voltage Change
10
95 9600
Figure 1. Total Power Dissipation vs.
Ambient Temperature
VZ – Voltage Change ( mV )
15
0
95 9605
0.2
0.4
0.6
0.8
1.0
VF – Forward Voltage ( V )
Figure 6. Forward Current vs. Forward Voltage
Document Number 85635
Rev. A4, 08-Aug-02
TLZ...
Vishay Semiconductors
100
r Z – Differential Z-Resistance ( )
1000
IZ – Z-Current ( mA )
80
Ptot=500mW
Tamb=25°C
60
40
20
IZ=1mA
100
5mA
10 10mA
0
Tj=25°C
1
0
4
8
12
20
16
0
VZ – Z-Voltage ( V )
95 9604
95 9606
Figure 7. Z–Current vs. Z–Voltage
5
10
15
20
25
VZ – Z-Voltage ( V )
Figure 9. Differential Z–Resistance vs. Z–Voltage
50
Ptot=500mW
Tamb=25°C
IZ – Z-Current ( mA )
40
30
20
10
0
15
20
25
35
30
VZ – Z-Voltage ( V )
95 9607
Zthp – Thermal Resistance for Pulse Cond. (K/W)
Figure 8. Z–Current vs. Z–Voltage
1000
tp/T=0.5
100
tp/T=0.2
Single Pulse
10
RthJA=300K/W
T=Tjmax–Tamb
tp/T=0.01
tp/T=0.1
tp/T=0.02
iZM=(–VZ+(VZ2+4rzjT/Zthp)1/2)/(2rzj)
tp/T=0.05
1
10–1
95 9603
100
101
102
tp – Pulse Length ( ms )
Figure 10. Thermal Response
Document Number 85635
Rev. A4, 08-JAug-02
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7 (9)
TLZ...
Vishay Semiconductors
Dimensions in mm
96 12070
Marking Voltage Group
TLZ2V4A
TLZ2V4
2A4
2V4
2A4
2V4
2A4
2V4
2A4
2V4
Remark: The Zener voltage TLZ2V4 or Zener voltage group TLZ2V4A is printet
with max 3 digits 3 times on the surface. The marking should be readable
at minimum 2 times. The third print is allowed to be incomplete due to
tolerances in Diameter of the glassbody.
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Document Number 85635
Rev. A4, 08-Aug-02
TLZ...
Vishay Semiconductors
Ozone Depleting Substances Policy Statement
It is the policy of Vishay 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. Various 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 Semiconductors products for any unintended or unauthorized application, the
buyer shall indemnify Vishay Semiconductors 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
Document Number 85635
Rev. A4, 08-JAug-02
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