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STPS8H100D F G R FP®

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Description

Niveau: Secondaire, Lycée, Terminale
1/8 STPS8H100D/F/G/R/FP® July 2003 - Ed: 6D HIGH VOLTAGE POWER SCHOTTKY RECTIFIER Schottky barrier rectifier designed for high fre- quency compact Switched Mode Power Sup- plies such as adaptators and on board DC/DC converters. DESCRIPTION TO-220AC STPS8H100D K A Symbol Parameter Value Unit VRRM Repetitive peak reverse voltage 100 V IF(RMS) RMS forward current 30 A IF(AV) Average forward current ? = 0.5 TO-220AC / I2PAK / D2PAK Tc= 165°C 8 A ISOWATT220AC TO-220FPAC Tc = 150°C IFSM Surge non repetitive forward current tp = 10 ms sinusoidal 250 A IRRM Repetitive peak reverse current tp = 2 µs F = 1kHz square 1 A IRSM Non repetitive peak reverse current tp = 100 µs square 3 A PARM Repetitive peak avalanche power tp = 1µs Tj = 25°C 10800 W Tstg Storage temperature range - 65 to + 175 °C Tj Maximum operating junction temperature 175 °C dV/dt Critical rate of rise of rise voltage 10000 V/µs ABSOLUTE RATINGS (limiting values) I2PAK STPS8H100R D2PAK STPS8H100G ISOWATT220AC STPS8H100F K A NCK A K A NC IF(AV) 8 A VRRM 100 V Tj (max) 175 °C VF (max) 0.58 V MAIN PRODUCT CHARACTERISTICS n NEGLIGIBLE SWITCHING LOSSES n HIGH JUNCTION TEMPERATURE CAPABILITY n LOW LEAKAGE CURRENT n GOOD TRADE OFF BETWEEN LEAKAGE CURRENT AND FORWARD VOLTAGE DROP n INSULATED PACKAGE: ISOWATT220AC,

  • power derating

  • peak

  • between leakage

  • impedance junction

  • junction temperature

  • current versus ambient temperature

  • vrrm repetitive

  • average forward

  • ambient versus copper surface

  • current


Sujets

Informations

Publié par
Nombre de lectures 39
Langue Deutsch

STPS8H100D/F/G/R/FP®
HIGH VOLTAGE POWER SCHOTTKY RECTIFIER
MAIN PRODUCT CHARACTERISTICS
I 8AF(AV)
V 100 VRRM
Tj (max) 175 °C
V (max) 0.58 VF A A
K K
FEATURES AND BENEFITS
TO-220AC ISOWATT220AC
NEGLIGIBLE SWITCHING LOSSES STPS8H100D STPS8H100F
KHIGH JUNCTION TEMPERATURE CAPABILITY
LOW LEAKAGE CURRENT
GOOD TRADE OFF BETWEEN LEAKAGE A
CURRENT AND FORWARD VOLTAGE NC
DROP 2D PAK
INSULATED PACKAGE: STPS8H100G
ISOWATT220AC, TO-220FPAC
Insulating voltage = 2000V DC
Capacitance = 12pF
AVALANCHE CAPABILITY SPECIFIED
DESCRIPTION
A
A
Schottky barrier rectifier designed for high fre- K
NC Kquency compact Switched Mode Power Sup-
plies such as adaptators and on board DC/DC 2I PAK TO-220FPAC
converters.
STPS8H100R STPS8H100FP
ABSOLUTE RATINGS (limiting values)
Symbol Parameter Value Unit
V Repetitive peak reverse voltage 100 VRRM
I RMS forward current 30 AF(RMS)
I Average forward current TO-220AC / Tc= 165°C 8 AF(AV)
2 2
= 0.5 I PAK/D PAK
ISOWATT220AC Tc = 150°C
TO-220FPAC
I Surge non repetitive forward tp = 10 ms sinusoidal 250 AFSM
current
I Repetitive peak reverse current tp=2μsF= 1kHz square 1 ARRM
I Non repetitive peak reverse current tp = 100 μs square 3 ARSM
P Repetitive peak avalanche power tp = 1μs Tj = 25°C 10800 WARM
T Storage temperature range - 65 to + 175 °Cstg
Tj Maximum operating junction temperature 175 °C
dV/dt Critical rate of rise of rise voltage 10000 V/μs
July 2003 - Ed: 6D 1/8
ndnnnnnSTPS8H100D/F/G/R/FP
THERMAL RESISTANCES
Symbol Parameter Value Unit
2 2R Junction to case 1.6 ?C/Wth (j-c) TO-220AC / I PAK/D PAK
R to case 4 ?C/Wth (j-c) ISOWATT220AC / TO-220FPAC
STATIC ELECTRICAL CHARACTERISTICS
Symbol Parameter Tests Conditions Min. Typ. Max. Unit
I * Reverse leakage current Tj = 25°C V =V 4.5 μAR R RRM
Tj = 125°C 2 6 mA
V ** Forward voltage drop Tj = 25?CI = 8 A 0.71 VF F
Tj=25?CI = 10 A 0.77F
Tj=25? = 16 A 0.81F
Tj = 125°C I = 8 A 0.56 0.58F
Tj = 125?CI = 10 A 0.59 0.64F
Tj = 125? = 16 A 0.65 0.68F
Pulse test : * tp=5ms, <2%
** tp = 380 μs, <2%
To evaluate the maximum conduction losses use the following equation :
2
P=0.48xI + 0.0125 x IF(AV) F (RMS)
Fig. 1: Average forward power dissipation versus Fig. 2: Normalized avalanche power derating
average forward current. versus pulse duration.
2 2
(TO-220AC / ISOWATT220AC / I PAK/D PAK)
P(ARMtp)PF(av)(W)
P (1μs)ARM
6.0 1= 0.1 = 0.2
= 0.55.5 = 0.05
5.0
4.5
= 1
0.14.0
3.5
3.0
2.5
2.0 0.01T
1.5
1.0
0.5 IF(av) (A) =tp/T tp tp(μs)
0.0010.0
0123 4567 89 10 0.01 0.1 1 10 100 1000
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ddddddddSTPS8H100D/F/G/R/FP
Fig. 3: Normalized avalanche power derating Fig. 4-1: Average forward current versus ambient
2 2
versus junction temperature. temperature ( =0.5) (TO-220AC / I PAK / D PAK).
P(t) IF(av)(A)ARM p
P (25°C)ARM 10
1.2
Rth(j-a)=Rth(j-c)
1 8
0.8
6
0.6
4
Rth(j-a)=15°C/W
0.4
T
20.2
T (°C)j =tp/T tp Tamb(°C)
0 0
0 25 50 75 100 125 150 0 20 40 60 80 100 120 140 160 180
Fig. 4-2: Average forward current versus ambient Fig. 5-1: Non repetitive surge peak forward current
temperature ( =0.5) (ISOWATT220AC, versus overload duration (maximum values)
2 2
TO-220FPAC). (TO-220AC / I PAK/D PAK).
IF(av)(A) IM(A)
10 160
Rth(j-a)=Rth(j-c)
140
8
120
1006 Tc=75°C
80
Rth(j-a)=50°C/W
4 60
T
Tc=100°C40
IM Tc=125°C2
20 t
=tp/T tp t(s)Tamb(°C) =0.5
00
1E-3 1E-2 1E-1 1E+00 20 40 60 80 100 120 140 160 180
Fig. 5-2: Non repetitive surge peak forward current Fig. 6-1: Relative variation of thermal impedance
versus overload duration (maximum values) junction to case versus pulse duration
2 2
(ISOWATT220AC, TO-220FPAC). (TO-220AC / I PAK/D PAK).
IM(A) Zth(j-c)/Rth(j-c)
100 1.0
90
80 0.8
70 Tc=75°C
= 0.560 0.6
50
40 0.4
Tc=100°C = 0.2
30 T
= 0.1IM Tc=125°C20 0.2
Single pulse
t
10 tp=0.5 t(s) tp(s) =tp/T
0 0.0
1E-3 1E-2 1E-1 1E+0 1E-4 1E-3 1E-2 1E-1 1E+0
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ddddddddddSTPS8H100D/F/G/R/FP
Fig. 6-2: Relative variation of thermal impedance Fig. 7: Reverse leakage current versus reverse
junction to case versus pulse duration voltage applied (typical values).
(ISOWATT220AC, TO-220FPAC).
Zth(j-c)/Rth(j-c) IR(μA)
5E+31.0
1E+3 Tj=125°C
0.8
1E+2
= 0.50.6
1E+1
0.4
1E+0= 0.2
T Tj=25°C
= 0.1
0.2
1E-1Single pulse
tptp(s) =tp/T VR(V)
0.0 1E-2
1E-3 1E-2 1E-1 1E+0 1E+1 0 102030405060708090 100
Fig. 8: Junction capacitance versus reverse Fig. 9: Forward voltage drop versus forward
voltage applied (typical values). current (maximum values).
C(nF) IFM(A)
1000 50.0
F=1MHz
Tj=25°C
Tj=125°C
10.0
500
Tj=25°C
1.0
200
VFM(V)VR(V)
100 0.1
0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.61 10 100
Fig. 10: Thermal resistance junction to ambient
versus copper surface under tab (Epoxy printed
circuit board FR4, copper thickness:
2
35μm)(D PAK).
Rth(j-a) (°C/W)
80
70
60
50
40
30
20
10
S(Cu) (cm²)
0
0 4 8 12 16 20 24 28 32 36 40
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PACKAGE MECHANICAL DATA
TO-220AC
DIMENSIONS
REF. Millimeters Inches
Min. Max. Min. Max.H2 A
A 4.40 4.60 0.173 0.181C
C 1.23 1.32 0.048 0.051
L5
L7 D 2.40 2.72 0.094 0.107
Ø I
E 0.49 0.70 0.019 0.027
L6 F 0.61 0.88 0.024 0.034
L2 F1 1.14 1.70 0.044 0.066
G 4.95 5.15 0.194 0.202
D
L9 H2 10.00 10.40 0.393 0.409
L2 16.40 typ. 0.645 typ.F1
L4
L4 13.00 14.00 0.511 0.551
L5 2.65 2.95 0.104 0.116
M
F E L6 15.25 15.75 0.600 0.620
L7 6.20 6.60 0.244 0.259
G
L9 3.50 3.93 0.137 0.154
M 2.6 typ. 0.102 typ.
Diam. I 3.75 3.85 0.147 0.151
PACKAGE MECHANICAL DATA
ISOWATT220AC
DIMENSIONSA
H B
REF. Millimeters Inches
Min. Typ. Max. Min. Typ. Max.
A 4.40 4.60 0.173 0.181
B 2.50 2.70 0.098 0.106
D 2.40 2.75 0.094 0.108L6
E 0.40 0.70 0.016 0.028L7
L2
F 0.75 1.00 0.030 0.039
L3
F1 1.15 1.70 0.045 0.067
G 4.95 5.20 0.195 0.205
F1
H 10.00 10.40 0.394 0.409
L2 16.00 0.630
L3 28.60 30.60 1.125 1.205
L6 15.90 16.40 0.626 0.646
F D E L7 9.00 9.30 0.354 0.366
G Diam 3.00 3.20 0.118 0.126
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DiamSTPS8H100D/F/G/R/FP
PACKAGE MECHANICAL DATA
TO-220FPAC
REF. DIMENSIONS
Millimeters Inches
A
Min. Max. Min. Max.
H B
A 4.4 4.6 0.173 0.181
B 2.5 2.7 0.098 0.106
D 2.5 2.75 0.098 0.108Dia
E 0.45 0.70 0.018 0.027
L6 F 0.75 1 0.030 0.039
L2 F1 1.15 1.70 0.045 0.067L7
G 4.95 5.20 0.195 0.205L3
G1 2.4 2.7 0.094 0.106
L5
H 10 10.4 0.393 0.409
D
L2 16 Typ. 0.63 Typ.F1
L4 L3 28.6 30.6 1.126 1.205
L4 9.8 10.6 0.386 0.417
L5 2.9 3.6 0.114 0.142
F E
G1 L6 15.9 16.4 0.626 0.646
L7 9.00 9.30 0.354 0.366
G
Dia. 3.00 3.20 0.118 0.126
6/8STPS8H100D/F/G/R/FP
PACKAGE MECHANICAL DATA
2
D PAK
DIMENSIONS
REF. Millimeters InchesA
Min. Typ. Max. Min. Typ. Max.E
C2
L2 A 4.30 4.60 0.169 0.181
A1 2.49 2.69 0.098 0.106
A2 0.03 0.23 0.001 0.009
D
B 0.70 0.93 0.027 0.037L
B2 1.40 0.055
L3 C 0.45 0.60 0.017 0.024
A1
C2 1.21 1.36 0.047 0.054
B2 R D 8.95 9.35 0.352 0.368C
B
E 10.00 10.28 0.393 0.405
G 4.88 5.28 0.192 0.208G
L 15.00 15.85 0.590 0.624
A2
L2 1.27 1.40 0.050 0.055
2.0 MIN.
FLAT ZONE L3 1.40 1.75 0.055 0.069
R 0.40 0.016
V2 V2 0° 8° 0° 8°
2
FOOTPRINT (in millimeters)D PAK
16.90
10.30 5.08
1.30
3.70
8.90
7/8STPS8H100D/F/G/R/FP
PACKAGE MECHANICAL DATA
2
I PAK
DIMENSIONS
REF. Millimeters Inches
Min. Typ. Max. Min. Typ. Max.
A 4.30 4.60 0.169 0.181
A1 2.49 2.69 0.098 0.106
b 0.70 0.93 0.028 0.037
b1 1.20 1.38 0.047 0.054
b2 1.25 1.40 0.049 0.055
C 0.45 0.60 0.018 0.024
C2 1.21 1.36 0.048 0.054
D 8.95 9.35 0.352 0.368
e 2.44 2.64 0.096 0.104
E 10.00 10.28 0.394 0.405
L 13.10 13.60 0.516 0.535
L1 3.48 3.78 0.137 0.149
L2 1.27 1.40 0.050 0.055
Ordering type Marking Package Weight Base qty Delivery mode
STPS8H100D STPS8H100D TO-220AC 1.86g 50 Tube
STPS8H100F STPS8H100F ISOWATT220AC 2.00g 50 Tube
STPS8H100FP STPS8H100FP TO-220FPAC 1.9 g 50 Tube
2
STPS8H100R STPS8H100R I PAK 1.49g 50 Tube
2
STPS8H100G STPS8H100G D PAK 1.48g 50 Tube
2
STPS8H100G-TR D PAK 1.48g 500 Tape & reel
Epoxy meets UL94,V0
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use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by
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change without notice. This publication supersedes and replaces all information previously supplied.
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