SGS Thomson Microelectronics BZW50-47B, BZW50-15B, BZW50-82, BZW50-10, BZW50-10B Datasheet

BZW50-10,B/180,B
TRANSIL
FEATURES
PEAK PULSEPOWER: 5000W (10/1000µs) STAND-OFF VOLTAGERANGE:
From10V to 180V UNI ANDBIDIRECTIONALTYPES LOW CLAMPINGFACTOR FASTRESPONSETIME UL RECOGNIZED
DESCRIPTION
Transildiodes provide high overvoltageprotection by clamping action. Their instantaneousresponse to transientovervoltagesmakes them particularly suited to protect voltage sensitive devices such as MOS Technology and low voltage supplied IC’s.
ABSOLUTE MAXIMUMRATINGS(T
amb
=25°C)
Symbol Parameter Value Unit
AG
TM
P
PP
P Powerdissipationon infinite heatsink T
I
FSM
T
stg
T
T
L
Peakpulse power dissipation (seenote 1) Tj initial= T
Nonrepetitivesurge peak forwardcurrent forunidirectionaltypes
Storagetemperaturerange Maximumjunctiontemperature
j
Maximumlead temperaturefor solderingduring 10s at 5mm
amb
=75°C 6.5 W
amb
tp = 10ms Tj initial= T
amb
5000 W
500 A
- 65 to+ 175 175
230 °C
fromcase
Note 1 : Fora surge greater than themaximum values,the diode will fail in short-circuit.
THERMALRESISTANCES
Symbol Parameter Value Unit
R
th (j-l)
R
th (j-a)
January 1998Ed : 2
Junctionto leads 15 °C/W Junctionto ambienton printedcircuit. L
=10mm 65 °C/W
lead
°C °C
1/5
BZW50-10,B/180,B
ELECTRICALCHARACTERISTICS
Symbol Parameter
V
RM
V
BR
V
CL
I
RM
I
PP
α
V
Stand-offvoltage Breakdownvoltage Clampingvoltage Leakagecurrent @ V Peakpulse current
T Voltagetemperaturecoefficient
Forwardvoltagedrop
F
Types IRM@V
RM
(T
RM
amb
=25°C)
VBR@I
R
VVCLV
VCL@I
PP
BR
I
I
F
I
RM
I
PP
VCL@I
V
F
V
TC
PP
α
V
RM
max min max max max typ
note2 10/1000µs 8/20µs note3 note4
Unidirectional BidirectionalµAVVmAVAVA10
-4
/°CpF BZW50-10 BZW50-10B 5 10 11.1 1 18.8 266 23.4 2564 7.8 24000 BZW50-12 BZW50-12B 5 12 13.3 1 22 227 28 2143 8.4 18500 BZW50-15 BZW50-15B 5 15 16.6 1 26.9 186 35 1714 8.8 13500 BZW50-18 BZW50-18B 5 18 20 1 32.2 155 41.5 1446 9.2 11500 BZW50-22 BZW50-22B 5 22 24.4 1 39.4 127 51 1177 9.6 8500 BZW50-27 BZW50-27B BZW50-33 BZW50-33B BZW50-39 BZW50-39B
5 27 30 1 48.3 103 62 968 9.8 7000 5 33 36.6 1 59 85 76 789 10 5750
5 39 43.3 1 69.4 72 90 667 10.1 4800 BZW50-47 BZW50-47B 5 47 52 1 83.2 60.1 108 556 10.3 4100 BZW50-56 BZW50-56B 5 56 62.2 1 99.6 50 129 465 10.4 3400 BZW50-68 BZW50-68B 5 68 75.6 1 121 41 157 382 10.5 3000 BZW50-82 BZW50-82B BZW50-100 BZW50-100B
5 82 91 1 145 34 189 317 10.6 2600
5 100 111 1 179 28 228 263 10.7 2300 BZW50-120 BZW50-120B 5 120 133 1 215 23 274 219 10.8 1900 BZW50-150 BZW50-150B 5 150 166 1 269 19 343 175 10.8 1700 BZW50-180 BZW50-180B 5 180 200 1 322 16 410 146 10.8 1500
%I
PP
100
50
0
Note 2 : Pulsetest: tp<50 ms. Note 3 : VBR=αT*(T Note 4 : VR= 0 V, F= 1 MHz.For bidirectionaltypes,
capacitancevalue is divided by 2.
10 s
PULSE WAVEFORM 10/1000 s
1000 s
- 25)*VBR(25°C)
amb
2/5
Fig. 1:
Peak pulse power dissipation versus initial
junctiontemperature(printed circuitboard).
t
Loading...
+ 3 hidden pages