MCC LLZ9V1A 500mw silicon zener diode Datasheet

MCC
TM
Micro Commercial Components
LLZ2V4
THRU
LLZ56
omponents
20736 Marilla Street Chatsworth
!"#
$ % !"#
Features
•
•
•
500mW Silicon
Zener Diodes
Hermetically Sealed Glass Package
Zener Voltage 2.4V to 56V
For Surface Mount Applications
MINIMELF
Mechanical Data
•
•
•
Case: hermetically sealed glass
Polarity: Cathode indicated by polarity band
Cathode Mark
Junction ambient R thJA :500 K/W (Note:2)
Maximum Ratings (Note:1)
C
Symbol
Value
Units
Max. Steady State Power
Dissipation at
PD
500
mW
Junction Temperature
TJ
175
℃
TSTG
-65 to 175
℃
B
Storage Temperature Range
Electrical Characteristics @ 25℃ Unless Otherwise Specified
Max. Forward Voltage
IF=200mA
@
Symbol
Value
Unit
VF
1.5
V
A
DIMENSIONS
DIM
A
B
C
INCHES
MIN
.134
.008
.055
MAX
.142
.016
.059
MM
MIN
3.40
.20
1.40
MAX
3.60
.40
1.50
NOTE
∅
SUGGESTED SOLDER
PAD LAYOUT
0.105
NOTE: 1.Some part number series have lower JEDEC registered ratings.
2.On PC Board 50 mm x 50 mm x 1.6 mm
0.075”
0.030”
Revision: 1
www.mccsemi.com
2005/12/22
MCC
LLZ2V4-LLZ56
Micro Commercial Components
Electrical Characteristics (TL= 30OC Unless Otherwise Noted,
Partnumbergroup
Partnumber
Marking
Code
Zener Voltage
VZ @ IZT
LLZ2V4
Dynamic Resistance
Test Current
Reverse Leakage
Current
ZZ @ IZT
ZZK @ IZK
IZT
IZK
IR
@ VR
V
V
Ω
Ω
mA
mA
µA
V
min
max
max
max
max
LLZ2V4A
-----
2.33
2.52
100
2000
20
1
70
LLZ2V4B
-----
2.43
2.63
100
2000
20
1
70
1
LLZ2V7
LLZ2V7A
-----
2.54
2.75
100
1000
20
1
50
1
LLZ2V7B
-----
2.69
2.91
100
1000
20
1
50
1
LLZ3V0
LLZ3V0A
-----
2.85
3.07
80
1000
20
1
50
1
LLZ3V0B
-----
3.01
3.22
80
1000
20
1
10
1
LLZ3V3
LLZ3V3A
-----
3.16
3.38
70
1000
20
1
10
1
LLZ3V3B
-----
3.32
3.53
70
1000
20
1
10
1
LLZ3V6
LLZ3V6A
-----
3.455
3.695
60
1000
20
1
5
1
LLZ3V6B
-----
3.6
3.845
60
1000
20
1
5
1
LLZ3V9
LLZ3V9A
-----
3.74
4.01
50
1000
20
1
3
1
LLZ3V9B
-----
3.89
4.16
50
1000
20
1
3
1
LLZ4V3
LLZ4V3A
-----
4.04
4.29
40
1000
20
1
3
1
LLZ4V7
LLZ5V1
LLZ5V6
LLZ6V2
LLZ6V8
LLZ7V5
LLZ8V2
LLZ9V1
LLZ10
Revision: 1
1
LLZ4V3B
-----
4.17
4.43
40
1000
20
1
3
1
LLZ4V3C
-----
4.3
4.57
40
1000
20
1
3
1
LLZ4V7A
-----
4.44
4.68
25
900
20
1
10
2
LLZ4V7B
-----
4.55
4.8
25
900
20
1
6
2
LLZ4V7C
-----
4.68
4.93
25
900
20
1
3
2
LLZ5V1A
-----
4.81
5.07
20
800
20
1
2
2
LLZ5V1B
-----
4.94
5.2
20
800
20
1
2
2
LLZ5V1C
-----
5.09
5.37
20
800
20
1
2
2
LLZ5V6A
-----
5.28
5.55
13
500
20
1
1
2
LLZ5V6B
-----
5.45
5.73
13
500
20
1
1
2
LLZ5V6C
-----
5.61
5.91
13
500
20
1
1
2
LLZ6V2A
-----
5.78
6.09
10
300
20
1
3
4
LLZ6V2B
-----
5.96
6.27
10
300
20
1
3
4
LLZ6V2C
-----
6.12
6.44
10
300
20
1
3
4
LLZ6V8A
-----
6.29
6.63
8
150
20
0.5
2
4
LLZ6V8B
-----
6.49
6.83
8
150
20
0.5
2
4
LLZ6V8C
-----
6.66
7.01
8
150
20
0.5
2
4
LLZ7V5A
-----
6.85
7.22
8
120
20
0.5
3
6.5
LLZ7V5B
-----
7.07
7.45
8
120
20
0.5
3
6.73
LLZ7V5C
-----
7.29
7.67
8
120
20
0.5
3
6.93
LLZ8V2A
-----
7.53
7.92
8
120
20
0.5
7.5
7.15
LLZ8V2B
-----
7.78
8.19
8
120
20
0.5
7.5
7.39
LLZ8V2C
-----
8.03
8.45
8
120
20
0.5
7.5
7.63
LLZ9V1A
-----
8.29
8.73
8
120
20
0.5
0.04
7.88
LLZ9V1B
-----
8.57
9.01
8
120
20
0.5
0.04
8.14
LLZ9V1C
-----
8.83
9.3
8
120
20
0.5
0.04
8.39
LLZ10A
-----
9.12
9.59
8
120
20
0.5
0.04
8.66
LLZ10B
-----
9.41
9.9
8
120
20
0.5
0.04
8.94
LLZ10C
-----
9.7
10.2
8
120
20
0.5
0.04
9.22
LLZ10D
-----
9.94
10.44
8
120
20
0.5
0.04
9.44
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2005/12/22
TM
MCC
LLZ2V4-LLZ56
Micro Commercial Components
Partnumbergroup
Partnumber
Marking
Code
Zener Voltage
VZ @ IZT
LLZ11
LLZ12
LLZ13
LLZ15
LLZ16
LLZ18
LLZ20
LLZ22
LLZ24
LLZ27
LLZ30
LLZ33
LLZ36
Revision: 1
Dynamic Resistance
Test Current
Reverse Leakage
Current
ZZ @ IZT
ZZK @ IZK
IZT
IZK
IR
@ VR
V
V
Ω
Ω
mA
mA
µA
V
min
max
max
max
max
LLZ11A
-----
10.18
10.71
10
120
10
0.5
0.04
LLZ11B
-----
10.5
11.05
10
120
10
0.5
0.04
9.67
9.98
LLZ11C
-----
10.82
11.38
10
120
10
0.5
0.04
10.28
LLZ12A
-----
11.13
11.71
12
110
10
0.5
0.04
10.6
LLZ12B
-----
11.44
12.03
12
110
10
0.5
0.04
10.9
LLZ12C
-----
11.74
12.35
12
110
10
0.5
0.04
11.2
LLZ13A
-----
12.11
12.75
14
110
10
0.5
0.04
11.5
LLZ13B
-----
12.55
13.21
14
110
10
0.5
0.04
11.9
LLZ13C
-----
12.99
13.66
14
110
10
0.5
0.04
12.3
LLZ15A
-----
13.44
14.13
16
110
10
0.5
0.04
12.8
LLZ15B
-----
13.89
14.62
16
110
10
0.5
0.04
13.2
LLZ15C
-----
14.35
15.09
16
110
10
0.5
0.04
13.6
LLZ16A
-----
14.8
15.57
18
150
10
0.5
0.04
14.1
LLZ16B
-----
15.25
16.04
18
150
10
0.5
0.04
14.5
LLZ16C
-----
15.69
16.51
18
150
10
0.5
0.04
14.9
LLZ18A
-----
16.22
17.06
23
150
10
0.5
0.04
15.4
LLZ18B
-----
16.82
17.7
23
150
10
0.5
0.04
16
LLZ18C
-----
17.42
18.33
23
150
10
0.5
0.04
16.5
LLZ20A
-----
18.02
18.96
28
200
10
0.5
0.04
17.1
LLZ20B
-----
18.63
19.59
28
200
10
0.5
0.04
17.7
LLZ20C
-----
19.23
20.22
28
200
10
0.5
0.04
18.3
LLZ20D
-----
19.72
20.72
28
200
10
0.5
0.04
18.7
LLZ22A
-----
20.15
21.2
30
200
5
0.5
0.04
19.1
19.6
LLZ22B
-----
20.64
21.71
30
200
5
0.5
0.04
LLZ22C
-----
21.08
22.17
30
200
5
0.5
0.04
20
LLZ22D
-----
21.52
22.63
30
200
5
0.5
0.04
20.4
LLZ24A
-----
22.05
23.18
35
200
5
0.5
0.04
20.9
LLZ24B
-----
22.61
23.77
35
200
5
0.5
0.04
21.5
LLZ24C
-----
23.12
24.31
35
200
5
0.5
0.04
22
LLZ24D
-----
23.63
24.85
35
200
5
0.5
0.04
22.4
LLZ27A
-----
24.26
25.52
45
250
5
0.5
0.04
23
LLZ27B
-----
24.97
26.26
45
250
5
0.5
0.04
23.7
LLZ27C
-----
25.63
26.95
45
250
5
0.5
0.04
24.3
LLZ27D
-----
26.29
27.64
45
250
5
0.5
0.04
25
LLZ30A
-----
26.99
28.39
55
250
5
0.5
0.04
25.6
LLZ30B
-----
27.7
29.13
55
250
5
0.5
0.04
26.3
LLZ30C
-----
28.36
29.82
55
250
5
0.5
0.04
26.9
LLZ30D
-----
29.02
30.51
55
250
5
0.5
0.04
27.6
LLZ33A
-----
29.68
31.22
65
250
5
0.5
0.04
28.2
LLZ33B
-----
30.32
31.88
65
250
5
0.5
0.04
28.8
LLZ33C
-----
30.9
32.5
65
250
5
0.5
0.04
29.4
LLZ33D
-----
31.49
33.11
65
250
5
0.5
0.04
29.9
LLZ36A
-----
32.14
33.79
75
250
5
0.5
0.04
30.5
LLZ36B
-----
32.79
34.49
75
250
5
0.5
0.04
31.2
LLZ36C
-----
33.4
35.13
75
250
5
0.5
0.04
31.7
LLZ36D
-----
34.01
35.77
75
250
5
0.5
0.04
32.3
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2005/12/22
TM
MCC
LLZ2V4-LLZ56
Micro Commercial Components
Partnumbergroup
Partnumber
Marking
Code
Zener Voltage
VZ @ IZT
LLZ39
Dynamic Resistance
Test Current
Reverse Leakage
Current
ZZ @ IZT
ZZK @ IZK
IZT
IZK
IR
@ VR
V
V
Ω
Ω
mA
mA
µA
V
min
max
max
max
max
LLZ39A
-----
34.68
36.47
85
250
5
0.5
0.04
LLZ39B
-----
35.36
37.19
85
250
5
0.5
0.04
32.9
33.6
LLZ39C
-----
36
37.85
85
250
5
0.5
0.04
34.2
LLZ39D
-----
36.63
38.52
85
250
5
0.5
0.04
34.8
LLZ39E
-----
37.36
39.29
85
250
5
0.5
0.04
35.5
LLZ39F
-----
38.14
40.11
85
250
5
0.5
0.04
36.2
LLZ39G
-----
38.94
40.8
85
250
5
0.5
0.04
37
LLZ43
LLZ43
---
40
45
90
-
5
-
0.04
38
LLZ47
LLZ47
---
44
49
90
-
5
-
0.04
41.8
LLZ51
LLZ51
---
48
54
100
-
5
-
0.04
45.6
LLZ56
LLZ56
---
53
60
100
-
5
-
0.04
50.4
600
1.3
VZtn – RelativeVoltageChange
Ptot –Total Power Dissipation ( mW)
Typical Characteristics (Tamb = 25 °C unless otherwise specified)
500
400
300
200
100
0
0
40
80
120
160
V Ztn=V Zt/V Z(25°C)
1.2
TK VZ =10 x 10–4/K
1.1
4 x 10–4/K
2 x 10–4/K
0
1.0
–2 x 10–4/K
–4 x 10–4/K
0.9
0.8
–60
200
Tamb – Ambient Temperature(°C )
Tj =25°C
100
I Z=5mA
10
1
10
15
20
60
120
180
240
25
V Z – Z-Voltage ( V )
Fig. 2 Typical Change of Working Voltage under Operating
Conditions at Tamb=25°C
Fig. 3 Typical Change of Working Voltage vs. Junction
Temperature
TK VZ –Temperature Coefficient of VZ ( 10–4 /K)
VZ –VoltageChange( mV )
1000
5
0
Tj – Junction Temperature (°C )
Fig. 1 Total Power Dissipation vs. Ambient Temperature
0
8 x 10–4/K
6 x 10–4/K
15
10
5
I Z=5mA
0
–5
0
10
20
30
40
50
V Z – Z-Voltage ( V )
Fig. 4 Temperature Coefficient of Vz vs. Z-Voltage
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Revision: 1
2005/12/22
TM
MCC
LLZ2V4-LLZ56
Micro Commercial Components
50
CD – Diode Capacitance ( pF )
200
IZ – Z-Current ( mA)
150
V R=2V
Tj =25°C
100
50
Ptot=500mW
Tamb=25°C
40
30
20
10
0
0
0
5
10
20
15
15
25
20
Fig. 5 Diode Capacitance vs. Z-Voltage
r Z – Differential Z-Resistance ( Ω )
10
Tj =25°C
1
0.1
0.01
1000
I Z=1mA
100
5mA
10 10mA
Tj =25°C
1
0.001
0
0.2
0.4
0.6
35
30
Fig. 8 Z-Current vs. Z-Voltage
100
I F – Forward Current ( mA)
25
V Z – Z-Voltage ( V )
V Z – Z-Voltage ( V )
0.8
1.0
0
5
10
15
20
25
V Z – Z-Voltage ( V )
V F – Forward Voltage ( V )
Fig. 6 Forward Current vs. Forward Voltage
Fig. 9 Differential Z-Resistance vs. Z-Voltage
IZ – Z-Current ( mA)
100
80
Ptot=500mW
Tamb=25°C
60
40
20
0
0
4
8
12
16
20
V Z – Z-Voltage ( V )
Fig. 7 Z-Current vs. Z-Voltage
Revision: 1
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2005/12/22
TM
MCC
LLZ2V4-LLZ56
Zthp –ThermalResistancefor PulseCond.(K/W)
Micro Commercial Components
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=0.02
tp/T=0.1
tp/T=0.05
1
10–1
i ZM =(–VZ+(V Z2+4rzj x T/Zthp)1/2)/(2rzj)
100
101
102
tp – Pulse Length ( ms )
Fig. 10 Thermal Response
Revision: 1
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2005/12/22
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