BZX55-C47 [PANJIT]
AXIAL LEAD ZENER DIODES; 轴向引线二极管ZENER型号: | BZX55-C47 |
厂家: | PAN JIT INTERNATIONAL INC. |
描述: | AXIAL LEAD ZENER DIODES |
文件: | 总4页 (文件大小:126K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
DATA SHEET
BZX55-C SERIES
AXIAL LEAD ZENER DIODES
Unit: inch (mm)
DO-35
POWER
500 mWatts
VOLTAGE
2.4 to 47 Volts
FEATURES
.020(0.52)TYP.
• Planar Die construction
• 500mW Power Dissipation
• Ideally Suited for Automated Assembly Processes
• Both normal and Pb free product are available :
Normal : 80~95% Sn, 5~20% Pb
Pb free: 98.5% Sn above
MECHANICALDATA
.079(2.0)MAX.
• Case: Molded glass DO-35
• Terminals: Solderable per MIL-STD-202, Method 208
• 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
Power Dissipation at Tamb = 25 OC
Symbol
Value
500
Units
mW
P
TOT
Junction Temperature
175
OC
OC
T
J
Storage Temperature Range
-65 to +175
TS
Valid provided that leads at a distance of 8mm from case are kept at ambient temperature.
Parameter
Symbol
RthA
Min.
--
Typ.
--
Max.
Units
Thermal Resistance Junction to Ambient Air
0.3
1
K/mW
V
Forward Voltage at IF = 100mA
--
VF
--
Valid provided that leads at a distance of 10 mm from case are kept at ambient temperature.
STAD-SEP.14.2004
PAGE . 1
Max Reverse
Leakage Current
Nominal Zener Voltage
Max. Zener Impedance
marking
code
Part Number
V
Z
@ IZT
Z
ZT @ IZT
Z
ZK @ IZK
IR @ VR
Nom. V
2.4
Min. V
Max. V
2.56
Ω
mA
5.0
Ω
mA
1.0
uA
V
BZX55-C2V4
BZX55-C2V7
BZX55-C3V0
BZX55-C3V3
BZX55-C3V6
BZX55-C3V9
BZX55-C4V3
BZX55-C4V7
BZX55-C5V1
BZX55-C5V6
BZX55-C6V2
BZX55-C6V8
BZX55-C7V5
BZX55-C8V2
BZX55-C9V1
BZX55-C10
BZX55-C11
BZX55-C12
BZX55-C13
BZX55-C15
BZX55-C16
BZX55-C18
BZX55-C20
BZX55-C22
BZX55-C24
BZX55-C27
BZX55-C30
BZX55-C33
BZX55-C36
BZX55-C39
BZX55-C43
BZX55-C47
2.28
85
85
85
85
85
85
75
60
35
25
10
8
600
600
600
600
600
600
600
600
550
450
200
150
50
50
10
1.0
1.0
55C2V4
55C2V7
55C3V0
55C3V3
55C3V6
55C3V9
55C4V3
55C4V7
55C5V1
55C5V6
55C6V2
55C6V8
55C7V5
55C8V2
55C9V1
55C10V
55C11V
55C12V
55C13V
55C15V
55C16V
55C18V
55C20V
55C22V
55C24V
55C27V
55C30V
55C33V
55C36V
55C39V
55C43V
55C47V
2.7
3.0
2.50
2.80
2.90
3.20
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
2.5
2.5
2.5
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
4.0
2.0
2.0
2.0
1.0
0.5
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
1.0
3.3
3.10
3.50
1.0
3.6
3.40
3.80
1.0
3.9
3.70
4.10
1.0
4.3
4.00
4.60
1.0
4.7
4.40
5.00
1.0
5.1
4.80
5.40
1.0
5.6
5.20
6.00
1.0
6.2
5.80
6.60
2.0
6.8
6.40
7.20
3.0
7.5
7.00
7.90
7
5.0
8.2
7.70
8.70
7
50
6.0
9.1
8.50
9.60
10
15
20
20
26
30
40
50
55
55
80
80
80
80
80
90
90
110
50
7.0
10.0
11.0
12.0
13.0
15.0
16.0
18.0
20.0
22.0
24.0
27.0
30.0
33.0
36.0
39.0
43.0
47.0
9.40
10.60
11.60
12.70
14.10
15.60
17.10
19.10
21.20
23.30
25.60
28.90
32.00
35.00
38.00
41.00
46.00
50.00
70
7.5
10.40
11.40
12.40
13.80
15.30
16.80
18.80
20.80
22.80
25.10
28.00
31.00
34.00
37.00
40.00
44.00
70
8.5
90
9.0
110
110
170
170
220
220
220
220
220
220
220
500
600
700
10.0
11.0
12.0
14.0
15.0
17.0
18.0
20.0
22.0
24.0
27.0
30.0
33.0
36.0
STAD-SEP.14.2004
PAGE . 2
Typical Characteristics (Tamb = 25 °C unless otherwise specified)
500
400
300
1.3
1.2
1.1
V
=V /V (25°C)
Zt Z
Ztn
–4
TK =10 x 10 /K
VZ
–4
8 x 10 /K
–4
6 x 10 /K
–4
4 x 10 /K
l
l
–4
2 x 10 /K
0
200
100
0
1.0
0.9
0.8
–4
–2 x 10 /K
–4
–4 x 10 /K
T =constant
L
20
240
0
5
10
15
–60
0
60
120
180
l – Lead Length ( mm )
T – Junction Temperature (°C )
j
95 9611
95 9599
Fig. 1 Thermal Resistance vs. Lead Length
Fig. 4 Typical Change of Working Voltage vs. Junction
Temperature
600
500
15
10
400
300
200
5
I =5mA
Z
0
100
0
–5
200
50
0
40
80
120
160
0
10
20
30
40
T
amb
– Ambient Temperature(°C )
V – Z-Voltage ( V )
Z
95 9602
95 9600
Fig. 2 Total Power Dissipation vs. Ambient Temperature
Fig. 5 Temperature Coefficient of Vz vs. Z-Voltage
1000
200
150
T =25°C
j
100
10
1
V =2V
R
T =25°C
j
100
I =5mA
Z
50
0
25
25
0
5
10
15
20
0
5
10
V – Z-Voltage ( V )
Z
15
20
V
– Z-Voltage ( V )
95 9598
95 9601
Z
Fig. 3 Typical Change of Working Voltage under Operating
Conditions at T =25°C
Fig. 6 Diode Capacitance vs. Z-Voltage
amb
STAD-SEP.14.2004
PAGE . 3
100
10
1
50
40
30
P
T
=500mW
=25°C
amb
tot
T =25°C
j
0.1
0.01
20
10
0
0.001
1.0
35
0
0.2
0.4
0.6
0.8
15
20
25
V – Z-Voltage ( V )
Z
30
V
– Forward Voltage ( V )
95 9605
95 9607
F
Fig. 7 Forward Current vs. Forward Voltage
Fig. 9 Z-Current vs. Z-Voltage
100
80
1000
I =1mA
Z
P =500mW
tot
100
10
1
T
=25°C
amb
60
5mA
40
20
0
10mA
T =25°C
j
20
25
0
4
8
12
16
0
5
10
15
20
V
– Z-Voltage ( V )
V – Z-Voltage ( V )
Z
95 9604
95 9606
Z
Fig. 8 Z-Current vs. Z-Voltage
Fig. 10Differential Z-Resistance vs. Z-Voltage
1000
t /T=0.5
p
100
10
1
t /T=0.2
p
Single Pulse
R
T=T
=300K/W
–T
jmax amb
thJA
t /T=0.01
p
t /T=0.1
p
t /T=0.02
p
t /T=0.05
2
1/2
p
x
i
=(–V +(V +4r
T/Z
)
thp
)/(2r )
zj
ZM
Z
Z
zj
–1
0
1
2
10
10
10
– Pulse Length ( ms )
10
t
p
95 9603
Fig. 11Thermal Response
STAD-SEP.14.2004
PAGE . 4
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