STMICROELECTRONICS STPS10L60D

STPS10L60D/FP
®
POWER SCHOTTKY RECTIFIER
MAIN PRODUCT CHARACTERISTICS
IF(AV)
10 A
VRRM
60 V
Tj (max)
150°C
VF (max)
0.56 V
A
K
TO-220FPAC
STPS10L60FP
FEATURES AND BENEFITS
■
■
■
■
LOW FORWARD VOLTAGE DROP
NEGLIGIBLE SWITCHING LOSSES
LOW THERMAL RESISTANCE
AVALANCHE CAPABILITY SPECIFIED
DESCRIPTION
Schottky rectifier suited for Switched Mode Power
Supplies and high frequency DC to DC converters.
Packaged in TO-220AC,TO-220FPAC this device
is intended for use in DC/DC chargers.
A
K
TO-220AC
STPS10L60D
ABSOLUTE RATINGS (limiting values)
Symbol
Parameter
Value
Unit
VRRM
Repetitive peak reverse voltage
60
V
IF(RMS)
RMS forward current
30
A
10
A
220
A
1
A
5800
W
- 65 to + 175
°C
150
°C
10000
V/µs
IF(AV)
Average forward current
TO-220AC
Tc = 140°C δ = 0.5
TO-220FPAC Tc = 120°C δ = 0.5
IFSM
Surge non repetitive forward current
tp = 10 ms Sinusoidal
IRRM
Repetitive peak reverse current
tp = 2 µs square F=1kHz
PARM
Repetitive peak avalanche power
tp = 1µs
Tstg
Tj
dV/dt
* :
Storage temperature range
Tj = 25°C
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 )
July 2003 - Ed: 4B
1/5
STPS10L60D/FP
THERMAL RESISTANCES
Symbol
Parameter
Rth(j-c)
Junction to case
Value
Unit
1.6
°C/W
TO-220AC
4
TO-220FPAC
STATIC ELECTRICAL CHARACTERISTICS
Symbol
IR *
VF *
Parameter
Tests conditions
Reverse leakage current
Tj = 25°C
Tj = 125°C
Tj = 25°C
Tj = 125°C
Tj = 25°C
Tj = 125°C
Forward voltage drop
Min.
Typ.
Max.
350
95
0.6
0.56
0.74
0.7
VR = VRRM
65
IF =
IF =
IF =
IF =
10 A
10 A
20 A
20 A
0.48
0.62
Unit
µA
mA
V
Pulse test : * tp = 380 µs, δ < 2%
To evaluate the conduction losses use the following equation :
P = 0.42 x IF(AV) + 0.014 IF2(RMS)
Fig. 1: Average forward power dissipation versus
average forward current.
Fig. 2: Average forward current versus ambient
temperature(δ = 0.5).
IF(av)(A)
PF(av)(W)
8
δ = 0.1
7
δ = 0.2
12
δ = 0.5
Rth(j-a)=Rth(j-c)
δ = 0.05
6
δ=1
8
5
4
TO-220FPAC
Rth(j-a)=15°C/W
6
3
4
T
2
T
2
1
0
TO-220AC
10
δ=tp/T
IF(av) (A)
0
1
2
3
4
5
6
7
8
9
10
δ=tp/T
tp
11
12
Fig. 3: Normalized avalanche power derating
versus pulse duration.
0
0
25
50
75
100
125
150
Fig. 4: Normalized avalanche power derating
versus junction temperature.
PARM(tp)
PARM(1µs)
1
Tamb(°C)
tp
1.2
PARM(tp)
PARM(25°C)
1
0.1
0.8
0.6
0.4
0.01
0.2
0.001
0.01
2/5
Tj(°C)
tp(µs)
0.1
1
0
10
100
1000
0
25
50
75
100
125
150
STPS10L60D/FP
Fig. 5-1: Non repetitive surge peak forward
current versus overload duration (maximum
values) (TO-220AC).
IM(A)
200
180
160
140
120
100
80
60
IM
40
20
0
1E-3
Fig. 5-2: Non repetitive surge peak forward
current versus overload duration (maximum
values) (TO-220FPAC).
IM(A)
120
100
80
Tc=25°C
Tc=25°C
60
Tc=75°C
Tc=75°C
40
Tc=125°C
20
Tc=100°C
IM
t
t(s)
δ=0.5
t(s)
t
δ=0.5
1E-2
1E-1
1E+0
0
1E-3
1E-2
1E-1
1E+0
Fig. 6-1: Relative variation of thermal impedance
junction to lead versus pulse duration
(TO-220AC).
Fig. 6-2: Relative variation of thermal impedance
junction to lead versus pulse duration
(TO-220FPAC).
Zth(j-c)/Rth(j-c)
1.0
1.0
0.8
0.8
0.6
Zth(j-c)/Rth(j-c)
δ = 0.5
0.6
0.4
0.4
δ = 0.2
0.2
δ = 0.2
T
δ = 0.1
0.2
tp(s)
Single pulse
0.0
1E-4
1E-3
1E-2
δ=tp/T
1E-1
1E+0
T
δ = 0.1
tp(s)
tp
Fig. 7: Reverse leakage current versus reverse
voltage applied (typical values).
5E+2
δ = 0.5
Single pulse
0.0
1E-3
1E-2
1E-1
1E+0
tp
1E+1
Fig. 8: Junction capacitance versus reverse
voltage applied (typical values).
C(nF)
2.0
IR(mA)
F=1MHz
Tj=25°C
Tc=150°C
1E+2
δ=tp/T
Tc=125°C
1.0
1E+1
Tc=100°C
Tc=75°C
1E+0
Tc=50°C
1E-1
0.5
Tc=25°C
0.2
1E-2
VR(V)
1E-3
0
5
10 15 20 25 30 35 40 45 50 55 60
VR(V)
0.1
1
10
100
3/5
STPS10L60D/FP
Fig. 9: Forward voltage drop versus forward
current (low level, maximum values).
IFM(A)
100.0
Tj=150°C
(typical values)
Tj=25°C
10.0
Tj=125°C
1.0
VFM(V)
0.1
0.00
0.25
0.50
0.75
1.00
1.25
1.50
1.75
2.00
PACKAGE MECHANICAL DATA
TO-220FPAC
REF.
A
H
B
Dia
L6
L2
L7
L3
L5
D
F1
L4
F
G1
G
4/5
E
A
B
D
E
F
F1
G
G1
H
L2
L3
L4
L5
L6
L7
Dia.
DIMENSIONS
Millimeters
Inches
Min.
Max.
4.4
4.6
2.5
2.7
2.5
2.75
0.45
0.70
0.75
1
1.15
1.70
4.95
5.20
2.4
2.7
10
10.4
16 Typ.
28.6
30.6
9.8
10.6
2.9
3.6
15.9
16.4
9.00
9.30
3.00
3.20
Min.
Max.
0.173
0.181
0.098
0.106
0.098
0.108
0.018
0.027
0.030
0.039
0.045
0.067
0.195
0.205
0.094
0.106
0.393
0.409
0.63 Typ.
1.126
1.205
0.386
0.417
0.114
0.142
0.626
0.646
0.354
0.366
0.118
0.126
STPS10L60D/FP
PACKAGE MECHANICAL DATA
TO-220AC
DIMENSIONS
A
H2
REF.
Millimeters
Inches
A
C
D
E
F
F1
G
H2
L2
L4
L5
L6
L7
L9
M
Diam. I
Min.
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
4.95
5.15
10.00
10.40
16.40 typ.
13.00
14.00
2.65
2.95
15.25
15.75
6.20
6.60
3.50
3.93
2.6 typ.
3.75
3.85
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
0.194
0.202
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
C
L5
L7
ØI
L6
L2
D
L9
F1
L4
M
F
E
G
■
■
■
COOLING METHOD : C
RECOMMENDED TORQUE VALUE : 0.8M.N
MAXIMUM TORQUE VALUE : 1.0M.N
Ordering type
Marking
Package
Weight
Base qty
Delivery mode
STPS10L60D
STPS10L60D
TO-220AC
1.86g
50
Tube
TO-220FPAC
1.9g
50
Tube
STPS10L60FP STPS10L60FP
■
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
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.
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