200V_Schottkys_Brochure_(~1.6MB) - Solid State Devices, Inc.
200V_Schottkys_Brochure_(~1.6MB) - Solid State Devices, Inc.
200V_Schottkys_Brochure_(~1.6MB) - Solid State Devices, Inc.
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
SSR20150CTG / S.5 thru SSR20200CTG / S.5<br />
150 - 200 Volts, 20 Amps<br />
Hermetic Surface Mount Centertap Schottky Rectifier<br />
▪ Extremely small footprint<br />
▪ Extremely low forward voltage drop<br />
▪ Low reverse leakage current<br />
▪ Hermetically sealed surface mount package<br />
▪ Guard ring for overvoltage protection<br />
▪ 175°C operating junction temperature<br />
▪ TX, TXV, and S level screening available - consult factory<br />
Cerpack (G)<br />
SMD.5 (S.5)<br />
MAXIMUM RATINGS 1/ SYMBOL VALUE UNIT<br />
Peak Repetitive Reverse Voltage<br />
DC Blocking Voltage<br />
Average Rectified Forward Current<br />
Resistive load, 60 Hz, sine wave, T A<br />
=25°C, per leg<br />
SSR20150CT<br />
SSR20200CT<br />
Peak Surge Current<br />
8.3 msec pulse, half sine wave superimposed on I O<br />
, allow junction to reach equilibrium<br />
between pulses, T A<br />
=25°C, per leg<br />
V RRM<br />
150<br />
V RWM<br />
200<br />
V R<br />
Volts<br />
I O<br />
10 Amps<br />
I FSM<br />
100 Amps<br />
Operating & Storage Temperature T OP<br />
& T STG<br />
-65 to +175 °C<br />
Thermal Resistance<br />
Junction to case, per leg<br />
Cerpack<br />
SMD.5<br />
R θJC<br />
2 °C/W<br />
ELECTRICAL CHARACTERISTICS (PER LEG) SYMBOL MIN TYP MAX UNIT<br />
Instantaneous Forward Voltage Drop<br />
T A<br />
=25°C, 300 µsec pulse<br />
Instantaneous Forward Voltage Drop<br />
T A<br />
=-55°C, 300 µsec pulse<br />
Instantaneous Forward Voltage Drop<br />
T A<br />
=125°C, 300 µsec pulse<br />
Reverse Leakage Current<br />
Rated V R<br />
, T A<br />
=25°C, 300 µsec pulse minimum<br />
Reverse Leakage Current<br />
Rated V R<br />
, T A<br />
=100°C, 300 µsec pulse minimum<br />
I F<br />
=1A<br />
I F<br />
=3A<br />
I F<br />
=5A<br />
I F<br />
=10A<br />
I F<br />
=1A<br />
I F<br />
=3A<br />
I F<br />
=5A<br />
I F<br />
=10A<br />
I F<br />
=1A<br />
I F<br />
=3A<br />
I F<br />
=5A<br />
I F<br />
=10A<br />
V F<br />
-<br />
-<br />
-<br />
-<br />
V F<br />
-<br />
-<br />
-<br />
-<br />
V F<br />
-<br />
-<br />
-<br />
-<br />
0.64<br />
0.75<br />
0.81<br />
0.91<br />
0.68<br />
0.84<br />
0.91<br />
1.05<br />
0.48<br />
0.59<br />
0.65<br />
0.76<br />
0.70<br />
-<br />
0.90<br />
1.00<br />
0.75<br />
-<br />
1.00<br />
1.15<br />
0.55<br />
-<br />
0.75<br />
0.86<br />
Volts<br />
Volts<br />
Volts<br />
I R<br />
- 0.4 10 µA<br />
I R<br />
- 0.5 - mA<br />
Reverse Leakage Current<br />
Rated V R<br />
, T A<br />
=125°C, 300 µsec pulse minimum<br />
I R<br />
- 0.8 5 mA<br />
Junction Capacitance<br />
T A<br />
=25°C, f=1 MHz<br />
V R<br />
=5V<br />
V R<br />
=10V<br />
C J<br />
-<br />
-<br />
185<br />
135<br />
-<br />
175<br />
pF<br />
Case Outline: Cerpack (G)<br />
Pin Out:<br />
Pin 1: Anode 1<br />
Pin 2: Anode 2<br />
Tab: Cathode<br />
.340<br />
Note: For optimal<br />
performance,<br />
connect anode<br />
terminals together<br />
1<br />
2<br />
Tab<br />
.300<br />
.105±.010<br />
.020 .315<br />
.370<br />
.140<br />
.210<br />
1<br />
2<br />
.010<br />
±.002<br />
(.040)<br />
2x .060<br />
2x .100<br />
(.050)<br />
Case Outline: SMD.5 (S.5)<br />
Pin Out:<br />
Pin 1: Cathode<br />
Pin 2: Anode 1<br />
Pin 3: Anode 2<br />
Note: For optimal<br />
performance,<br />
connect anode<br />
terminals together<br />
2x .010<br />
MAX<br />
.030 MIN<br />
1<br />
.233<br />
.217<br />
2<br />
3<br />
.304<br />
.288<br />
.135<br />
.115<br />
2x .103<br />
.087<br />
.128<br />
.112<br />
.030 MIN<br />
.408<br />
.392<br />
3x .020<br />
.010<br />
.304<br />
.288<br />
1/ Unless otherwise specifi ed, all electrical characteristics @ 25°C.<br />
14 200 Volt Hermetic Silicon Schottky Rectifi ers
Change language