STPS20L60CT ,POWER SCHOTTKY RECTIFIERFEATURES AND BENEFITSA2n LOW FORWARD VOLTAGE DROPK A1A1n NEGLIGIBLE SWITCHING LOSSES2D PAKn LOW THE ..
STPS20L60CT.. ,POWER SCHOTTKY RECTIFIER®STPS20L60CT/CG/CRPOWER SCHOTTKY RECTIFIERMAIN PRODUCT CHARACTERISTICSA1I 2x10AF(AV)KV 60 VRRM A2Tj ..
STPS20M100ST ,Power Schottky RectifierElectrical characteristics I 20 AF(AV)IVV 100 VRRM"Forward"IT (max) 150 °Cj 2 x IO XV (typ) 0.455 V ..
STPS20S100CFP ,POWER SCHOTTKY RECTIFIERSTPS20S100C®POWER SCHOTTKY RECTIFIERTable 1: Main Product CharacteristicsI 2 x 10 AF(AV)A1KV 100 VR ..
STPS20S100CT ,POWER SCHOTTKY RECTIFIERSTPS20S100C®POWER SCHOTTKY RECTIFIERTable 1: Main Product CharacteristicsI 2 x 10 AF(AV)A1KV 100 VR ..
STPS20S100CT. ,POWER SCHOTTKY RECTIFIERSTPS20S100C®POWER SCHOTTKY RECTIFIERTable 1: Main Product CharacteristicsI 2 x 10 AF(AV)A1KV 100 VR ..
T1129NL , TELECOMMUNICATIONS PRODUCTS
T1133 , TRIANGULAR TYPE
T1136 , T1/CEPT/ISDN-PRI TRANSFORMERS Dual Surface Mount, 1500 Vrms, Extended and Standard Temperature Range
T1142NL , TELECOMMUNICATIONS PRODUCTS
T1144 , T1/CEPT/ISDN-PRI TRANSFORMERS Dual Surface Mount, 1500 Vrms, Extended and Standard Temperature Range
T1144 , T1/CEPT/ISDN-PRI TRANSFORMERS Dual Surface Mount, 1500 Vrms, Extended and Standard Temperature Range
STPS20L60CT -STPS20L60CT..
POWER SCHOTTKY RECTIFIER
STPS20L60CT/CG/CRJanuary 2002-Ed:2C
POWER SCHOTTKY RECTIFIER
Dual center tap Schottky rectifiers suited for
Switched Mode Power Supplies and high
frequencyDCtoDC converters.
Packagedin TO-220AB,I2 PAK andD2 PAK, this
deviceis intendedfor usein high frequency
inverters.
DESCRIPTION LOW FORWARD VOLTAGE DROP NEGLIGIBLE SWITCHING LOSSES LOW THERMAL RESISTANCE
FEATURES AND BENEFITS
ABSOLUTE RATINGS (limiting values,per diode)
MAIN PRODUCT CHARACTERISTICS dPtot
dTj Rthja< − thermal runaway conditionfora diodeonits own heatsink
STPS20L60CT/CG/CRPulse test:*tp= 380μs,δ <2% evaluatethe conduction lossesusethe following equation:= 0.42x IF(AV)+ 0.014IF2 (RMS)
STATIC ELECTRICAL CHARACTERISTICS (per diode)
THERMAL RESISTANCEWhenthe diodes1 and2are used simultaneously: Tj(diode1)= P(diode1)x Rth(j-c)(Per diode)+ P(diode2)x Rth(c)
0123 456 789 1011120
PF(av)(W)
Fig.1: Average forward power dissipation versus
average forward current (per diode). 25 50 75 100 125 1500
IF(av)(A)
Fig. 2: Average current versus ambient
temperature (δ=0.5) (per diode).