DtSheet

STMICROELECTRONICS STPS20H100CF

STPS20H100CT/CF/CG/CG-1

HIGH VOLTAGE POWER SCHOTTKY RECTIFIER
MAIN PRODUCT CHARACTERISTICS
IF(AV)
2 x 10 A
VRRM
100 V
Tj
175°C
VF (max)
0.64 V
A1
K
A2
FEATURES AND BENEFITS
n
n
n
n
n
n
NEGLIGIBLE SWITCHING LOSSES
HIGH JUNCTION TEMPERATURE CAPABILITY
GOOD TRADE OFF BETWEEN LEAKAGE CURRENT AND FORWARD VOLTAGE DROP
LOW LEAKAGE CURRENT
AVALANCHE RATED
INSULATED PACKAGE: ISOWATT220AB
Insulating Voltage = 2000V DC
Capacitance = 45 pF
A2
K
A1
A2
A1
K
TO-220AB
STPS20H100CT
ISOWATT220AB
STPS20H100CF
K
DESCRIPTION
Dual center tap schottky rectifier designed for
high frequency miniature Switched Mode
Power Supplies such as adaptators and on
board DC/DC converters.
A2
A1
A1
D2PAK
STPS20H100CG
A2
K
I2PAK
STPS20H100CG-1
ABSOLUTE RATINGS (limiting values, per diode)
Symbol
Parameter
Value
Unit
VRRM
Repetitive peak reverse voltage
100
V
IF(RMS)
RMS forward current
30
A
10
20
A
250
A
1
A
IF(AV)
Average forward
current δ = 0.5
TO-220AB
2
2
D PAK / I PAK
Tc = 160°C
per diode
per device
ISOWATT220AB Tc = 145°C
IFSM
Surge non repetitive forward current
tp = 10 ms sinusoidal
IRRM
Repetitive peak reverse current
tp = 2 µs square F = 1kHz
IRSM
Non repetitive peak reverse current
tp = 100 µs square
Tstg
Storage temperature range
Tj
dV/dt
* :
3
A
- 65 to + 175
°C
175
°C
10000
V/µs
Maximum operating junction temperature *
Critical rate of rise of reverse voltage
dPtot
1
<
thermal runaway condition for a diode on its own heatsink
dTj
Rth( j − a )
May 2000 - Ed: 3C
1/7
STPS20H100CT/CF/CG/CG-1
THERMAL RESISTANCES
Symbol
Rth (j-c)
Parameter
2
Junction to case
2
Unit
°C/W
TO-220AB / D PAK / I PAK
Per diode
1.6
ISOWATT220AB
Per diode
4
2
2
TO-220AB / D PAK / I PAK
Total
0.9
ISOWATT220AB
Total
3.2
TO-220AB / D PAK / I PAK
Coupling
0.15
ISOWATT220AB
Coupling
2.5
2
Rth (c)
Value
2
°C/W
When the diodes 1 and 2 are used simultaneously :
∆ Tj(diode 1) = P(diode1) x Rth(j-c)(Per diode) + P(diode 2) x Rth(c)
STATIC ELECTRICAL CHARACTERISTICS (per diode)
Symbol
Parameter
Tests conditions
IR *
Reverse leakage current
Tj = 25°C
Min.
VR = VRRM
Tj = 125°C
VF **
Forward voltage drop
Pulse test :
Typ.
Max.
Unit
4.5
µA
6
mA
V
2
Tj = 25°C
IF = 8 A
0.71
Tj = 25°C
IF = 10 A
0.77
Tj = 25°C
IF = 16 A
0.81
Tj = 25°C
IF = 20 A
0.88
Tj = 125°C
IF = 8 A
0.56
0.58
Tj = 125°C
IF = 10 A
0.59
0.64
Tj = 125°C
IF = 16 A
0.65
0.68
Tj = 125°C
IF = 20 A
0.67
0.73
* tp = 5 ms, δ < 2%
** tp = 380 µs, δ < 2%
To evaluate the maximum conduction losses use the following equation :
P = 0.55 x IF(AV) + 0.009 x IF2(RMS)
Fig. 1: Average forward power dissipation versus
average forward current (per diode).
Fig. 2: Average forward current versus ambient
temperature (δ=0.5, per diode).
PF(av)(W)
IF(av)(A)
8
δ = 0.05
δ = 0.1
δ = 0.2
12
δ = 0.5
Rth(j-a)=Rth(j-c)
TO220AB
10
6
δ =1
Rth(j-a)=15°C/W
8
ISOWATT220AB
Rth(j-a)=40°C/W
6
4
2
δ=tp/T
IF(av) (A)
0
4
T
2
0
2/7
2
4
6
8
10
Tamb(°C)
tp
0
12
0
25
50
75
100
125
150
175
STPS20H100CT/CF/CG/CG-1
Fig. 3: Non repetitive surge peak forward current
versus overload duration (maximum values, per
diode) (TO-220AB, D2PAK, I2PAK)
Fig. 4: Non repetitive surge peak forward current
versus overload duration (maximum values, per
diode) (ISOWATT220AB).
IM(A)
200
180
160
140
120
100
80
60
40 IM
20
0
1E-3
120
100
Tc=50°C
80
Tc=75°C
60
Tj=75°C
40
IM
20
t
t(s)
δ=0.5
1E-2
1E-1
1E+0
0
1E-3
1.0
0.8
0.8
δ = 0.5
0.6
0.4
δ = 0.2
δ = 0.1
T
0.2
δ=tp/T
tp(s)
1E-2
1E-1
1E+0
1E-1
1E+0
δ = 0.5
δ = 0.2
δ = 0.1
Single pulse
tp(s)
tp
Fig. 7: Reverse leakage current versus reverse
voltage applied (typical values, per diode).
1E+4
1E-2
Zth(j-c)/Rth(j-c)
Single pulse
0.0
1E-3
t(s)
Fig. 6: Relative variation of thermal impedance
junction to case versus pulse duration (per diode)
(ISOWATT220AB).
Zth(j-c)/Rth(j-c)
0.2
Tj=125°C
t
δ=0.5
1.0
0.4
Tj=50°C
Tc=125°C
Fig. 5: Relative variation of thermal impedance
junction to case versus pulse duration (per diode)
(TO-220AB, D2PAK, I2PAK).
0.6
IM(A)
140
0.0
1E-2
1E-1
1E+0
1E+1
Fig. 8: Junction capacitance versus reverse
voltage applied (typical values, per diode).
C(pF)
IR(µA)
1000
F=1MHz
Tj=25°C
Tj=150°C
1E+3
Tj=125°C
1E+2
500
Tj=100°C
1E+1
1E+0
1E-2
200
Tj=25°C
1E-1
VR(V)
VR(V)
0
10
20
30
40
50
60
70
80
90 100
100
1
2
5
10
20
50
100
3/7
STPS20H100CT/CF/CG/CG-1
Fig. 9: Forward voltage drop versus forward
current (maximum values, per diode).
100.0
Fig. 10: Thermal resistance junction to ambient
versus coppersurface undertab(Epoxy printedcircuit
board FR4, copper thickness: 35µm) (D2PAK).
Rth(j-a) (°C/W)
IFM(A)
80
70
60
Tj=150°C
Typical values
10.0
50
Tj=125°C
Tj=125°C
Typical values
40
Tj=25°C
30
1.0
20
10
VFM(V)
0.1
0.0
0.2
0.4
0.6
0.8
1.0
1.2
0
S(Cu) (cm )
0
5
10
15
20
25
30
35
PACKAGE MECHANICAL DATA
TO-220AB
DIMENSIONS
REF.
Millimeters
Min.
A
H2
Dia
C
L5
L7
L6
L2
F2
F1
D
L9
L4
F
M
G1
E
G
4/7
A
C
D
E
F
F1
F2
G
G1
H2
L2
L4
L5
L6
L7
L9
M
Diam.
Max.
4.40
4.60
1.23
1.32
2.40
2.72
0.49
0.70
0.61
0.88
1.14
1.70
1.14
1.70
4.95
5.15
2.40
2.70
10
10.40
16.4 typ.
13
14
2.65
2.95
15.25
15.75
6.20
6.60
3.50
3.93
2.6 typ.
3.75
3.85
Inches
Min.
Max.
0.173
0.181
0.048
0.051
0.094
0.107
0.019
0.027
0.024
0.034
0.044
0.066
0.044
0.066
0.194
0.202
0.094
0.106
0.393
0.409
0.645 typ.
0.511
0.551
0.104
0.116
0.600
0.620
0.244
0.259
0.137
0.154
0.102 typ.
0.147
0.151
40
STPS20H100CT/CF/CG/CG-1
PACKAGE MECHANICAL DATA
ISOWATT220AB
DIMENSIONS
REF.
Millimeters
Min.
A
B
D
E
F
F1
F2
G
G1
H
L2
L3
L4
L6
L7
Diam
Max.
4.40
4.60
2.50
2.70
2.50
2.75
0.40
0.70
0.75
1.00
1.15
1.70
1.15
1.70
4.95
5.20
2.40
2.70
10.00
10.40
16.00 typ.
28.60
30.60
9.80
10.60
15.90
16.40
9.00
9.30
3.00
3.20
Inches
Min.
Max.
0.173
0.181
0.098
0.106
0.098
0.108
0.016
0.028
0.030
0.039
0.045
0.067
0.045
0.067
0.195
0.205
0.094
0.106
0.394
0.409
0.630 typ.
1.125
1.205
0.386
0.417
0.626
0.646
0.354
0.366
0.118
0.126
5/7
STPS20H100CT/CF/CG/CG-1
PACKAGE MECHANICAL DATA
D2PAK
DIMENSIONS
REF.
A
E
Min.
C2
L2
D
L
L3
A1
B2
B
R
C
G
A2
2.0 MIN.
FLAT ZONE
V2
FOOT PRINT DIMENSIONS (in millimeters)
16.90
10.30
5.08
1.30
3.70
8.90
6/7
Millimeters
A
A1
A2
B
B2
C
C2
D
E
G
L
L2
L3
R
V2
Typ. Max. Min.
Inches
Typ. Max.
4.30
4.60 0.169
0.181
2.49
2.69 0.098
0.106
0.03
0.23 0.001
0.009
0.70
0.93 0.027
0.037
1.25 1.40
0.049 0.055
0.45
0.60 0.017
0.024
1.21
1.36 0.047
0.054
8.95
9.35 0.352
0.368
10.00
10.28 0.393
0.405
4.88
5.28 0.192
0.208
15.00
15.85 0.590
0.624
1.27
1.40 0.050
0.055
1.40
1.75 0.055
0.069
0.40
0.016
0°
8°
0°
8°
STPS20H100CT/CF/CG/CG-1
PACKAGE MECHANICAL DATA
I2PAK
DIMENSIONS
REF.
n
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
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
1.40
0.049 0.055
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
STPS20H100CT
STPS20H100CT
TO-220AB
2.20g
50
Tube
STPS20H100CF
STPS20H100CF ISOWATT220AB
2.08g
50
Tube
2
STPS20H100CG-1
STPS20H100CG
I PAK
1.49g
50
Tube
STPS20H100CG
STPS20H100CG
D2PAK
1.48g
50
Tube
STPS20H100CG-TR
STPS20H100CG
D2PAK
1.48g
1000
Tape & reel
Epoxy meets UL94,V0
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of
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
implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to
change without notice. This publication supersedes and replaces all information previously supplied.
STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
The ST logo is a registered trademark of STMicroelectronics
 2000 STMicroelectronics - Printed in Italy - All rights reserved.
STMicroelectronics GROUP OF COMPANIES
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7/7
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