PANJIT BZX55C91

BZX55C2V4~BZX55C100
AXIAL LEAD ZENER DIODES
VOLTAGE
2.4 to 100 Volts
500 mWatts
POWER
FEATURES
• Planar Die construction
• 500mW Power Dissipation
• Ideally Suited for Automated Assembly Processes
• In compliance with EU RoHS 2002/95/EC directives
3.0
MECHANICAL DATA
• Case: Molded glass DO-35
• Terminals: Solderable per MIL-STD-750, Method 2026
• Polarity: See Diagram Below
• Approx. Weight: 0.13 grams
• Mounting Position: Any
• Ordering information: Suffix :” -35” to order DO-35 Package
• Packing information
B
- 2K per Bulk box
T/R - 10K per 13" plastic Reel
T/B - 5K per horiz. tape & Ammo box
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS (TJ =25°C unless otherwise noted)
Parameter
Symbol
Value
Units
PTOT
500
mW
Junction Temperature
TJ
175
O
C
Storage Temperature Range
Ts
-65 to +175
O
C
Power Dissipation at Tamb = 25
O
C
Valid provided that leads at a distance of 8mm from case are kept at ambient temperature.
Parameter
Thermal Resistance Junction to Ambient Air
Forward Voltage at IF = 100mA
Symbol
Min.
Typ.
Max.
Units
RθJA
--
--
0.3
K/mW
VF
--
--
1
V
Valid provided that leads at a distance of 10 mm from case are kept at ambient temperature.
STAD-FEB.10.2009
1
PAGE . 1
BZX55C2V4~BZX55C100
Nomi nal Zener Voltage
Part Number
Max Reverse
Max. Zener Impedance
V Z @ IZT
Z ZT @ IZT
Leakage C urrent
Z ZK @ IZK
IR @ V R
marki ng
co d e
No m. V
M i n. V
M a x. V
Ω
mA
Ω
mA
uA
V
BZX55C 2V4
2.4
2.28
2.56
85
5
600
1
50
1
BZX55C 2V4
BZX55C 2V7
2.7
2.5
2.9
85
5
600
1
10
1
BZX55C 2V7
BZX55C 3V0
3
2.8
3.2
85
5
600
1
4
1
BZX55C 3V0
BZX55C 3V3
3.3
3.1
3.5
85
5
600
1
2
1
BZX55C 3V3
BZX55C 3V6
3.6
3.4
3.8
85
5
600
1
2
1
BZX55C 3V6
BZX55C 3V9
3.9
3.7
4.1
85
5
600
1
2
1
BZX55C 3V9
BZX55C 4V3
4.3
4
4.6
75
5
600
1
1
1
BZX55C 4V3
BZX55C 4V7
4.7
4.4
5
60
5
600
1
0.5
1
BZX55C 4V7
BZX55C 5V1
5.1
4.8
5.4
35
5
550
1
0.1
1
BZX55C 5V1
BZX55C 5V6
5.6
5.2
6
25
5
450
1
0.1
1
BZX55C 5V6
BZX55C 6V2
6.2
5.8
6.6
10
5
200
1
0.1
2
BZX55C 6V2
BZX55C 6V8
6.8
6.4
7.2
8
5
150
1
0.1
3
BZX55C 6V8
BZX55C 7V5
7.5
7
7.9
7
5
50
1
0.1
5
BZX55C 7V5
BZX55C 8V2
8.2
7.7
8.7
7
5
50
1
0.1
6
BZX55C 8V2
BZX55C 9V1
9.1
8.5
9.6
10
5
50
1
0.1
7
BZX55C 9V1
BZX55C 10
10
9.4
10.6
15
5
70
1
0.1
8
BZX55C 10
BZX55C 11
11
10.4
11.6
20
5
70
1
0.1
9
BZX55C 11
BZX55C 12
12
11.4
12.7
20
5
90
1
0.1
9
BZX55C 12
BZX55C 13
13
12.4
14.1
26
5
110
1
0.1
10
BZX55C 13
BZX55C 15
15
13.8
15.6
30
5
110
1
0.1
11
BZX55C 15
BZX55C 16
16
15.3
17.1
40
5
170
1
0.1
12
BZX55C 16
BZX55C 18
18
16.8
19.1
50
5
170
1
0.1
14
BZX55C 18
BZX55C 20
20
18.8
21.2
55
5
220
1
0.1
15
BZX55C 20
BZX55C 22
22
20.8
23.3
55
5
220
1
0.1
17
BZX55C 22
BZX55C 24
24
22.8
25.6
80
5
220
1
0.1
18
BZX55C 24
BZX55C 27
27
25.1
28.9
80
5
220
1
0.1
20
BZX55C 27
BZX55C 30
30
28
32
80
5
220
1
0.1
22
BZX55C 30
BZX55C 33
33
31
35
80
5
220
1
0.1
24
BZX55C 33
BZX55C 36
36
34
38
80
5
220
1
0.1
27
BZX55C 36
BZX55C 39
39
37
41
90
2.5
500
1
0.1
30
BZX55C 39
BZX55C 43
43
40
46
90
2.5
600
1
0.1
33
BZX55C 43
BZX55C 47
47
44
50
110
2.5
700
1
0.1
36
BZX55C 47
BZX55C 51
51
48
54
125
2.5
700
0.5
0.1
39
BZX55C 51
BZX55C 56
56
52
60
135
2.5
1000
0.5
0.1
43
BZX55C 56
BZX55C 62
62
58
66
150
2.5
1000
0.5
0.1
47
BZX55C 62
BZX55C 68
68
64
72
200
2.5
1000
0.5
0.1
51
BZX55C 68
BZX55C 75
75
70
79
250
2.5
1500
0.5
0.1
56
BZX55C 75
BZX55C 82
82
77
87
300
2.5
2000
0.5
0.1
62
BZX55C 82
BZX55C 91
91
85
96
450
1
5000
0.1
0.1
68
BZX55C 91
100
94
106
450
1
5000
0.1
0.1
75
BZX55C 100
BZX55C 100
STANDARD VOLTAGE TOLERANCE IS + 5% AND:
SUFFIX “A” FOR + 1%
SUFFIX “B” FOR + 2%
SUFFIX “C” FOR + 5%
SUFFIX “D” FOR + 20%
* MEASURED WITH PULSES Tp=40 mSec.
STAD-FEB.10.2009
1
ZENERDIODENUMBERINGSYSTEM:
BZX55
C3V6
1*
2*
1* TYPE NO.
2* VZ OF ZENER DIODE, V CODE IS INSTEAD OF DECIMAL POINT.
3* e.g., 3V6=3.6V
* MEASURED WITH PULSES Tp=40 mSec.
PAGE . 2
BZX55C2V4~BZX55C100
POWER DISSIPATION, mWatts
RATING AND CHARACTERISTIC CURVES
500
400
300
200
100
0
50
100
150
200
250
O
AMBIENT TEMPERATURE, C
FIG. 1 POWER DERATING CURVE
Iz (mA)
Vz (V)
5
50
10
15
20
25
40
30
Test Current
Iz = 20mA
30
20
10
24
20
15
12
11
9.1
6.8
6.2
5.6
5.1
4.7
4.3
3.9
2.7
0
Fig.2 BREAKDOWN CHARACTERISTICS
STAD-FEB.10.2009
1
PAGE . 3