Document
SHINDENGEN
Schottky Rectifiers (SBD)
Single
D5S6M
60V 5A
FEATURES
OUTLINE DIMENSIONS
Case : ITO-220 Unit : mm
•œ Tj150•Ž
•œ PRRSM avalanche guaranteed
•œ Fully Isolated Molding APPLICATION •œ Switching power supply •œ DC/DC converter •œ Home Appliances, Office Equipment •œ Telecommunication
RATINGS
•œAbsolute Maximum Ratings (If not specified T‚ ƒ =25•Ž) Item Symbol Conditions Ratings Unit Storage Temperature Tstg -55•`150 •Ž Operating Junction Temperature Tj 150 •Ž Maximum Reverse Voltage VRM 60 V Repetitive Peak Surge Reverse Voltage Pulse width 0.5ms, duty1/40 V RRSM 65 V Average Rectified Forward Current IO 50Hz sine wave, R-load, Tc=130•Ž 5 A Peak Surge Forward Current IFSM 50Hz sine wave, Non-repetitive 1 cycle peak value, Tj=125•Ž 100 A Repetitive Peak Surge Reverse Power PRRSM Pulse width 10ƒÊs, Tj= 25•Ž 330 W Dielectric Strength Vdis Terminals to case, AC 1 minute 1.5 kV Mounting Torque TOR (Recommended torque• F 0.3N¥m) 0.5 N¥m •œElectrical Characteristics (If not specified T‚ ƒ =25•Ž) Item Symbol Conditions Forward Voltage VF IF =5A, Pulse measurement Reverse Current IR V R =V RM, Pulse measurement Junction Capacitance f=1MHz, =10V V Cj R Thermal Resistance ƒÆjc junction to case ƒÆcf case to heatsink Ratings Unit Max.0.58 V Max. 4.5 mA Typ.260 pF Max.4.5 •Ž/W Max.1.5
Copyright & Copy;2000 Shindengen Electric Mfg.Co.Ltd
D5S6M
Forward Voltage
10
Forward Current IF [A]
1
Tc=150 °C [MAX] Tc=150 °C [TYP] Tc=25 °C [MAX] Tc=25 °C [TYP]
Pulse measurement per diode
0.1
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
Forward Voltage VF [V]
D5S6M
Junction Capacitance
f=1MHz Tc=25°C TYP per diode
1000
Junction Capacitance Cj [pF]
100
0.1
1
10
Reverse Voltage VR [V]
D5S6M
1000
Reverse Current
Tc=150 °C [MAX] Tc=150 °C [TYP]
100
Tc=125 °C [TYP]
Reverse Current IR [mA]
10
Tc=100 °C [TYP]
Tc=75 °C [TYP] 1
0.1
Pulse measurement per diode
0.01
0
10
20
30
40
50
60
Reverse Voltage VR [V]
D5S6M
15
Reverse Power Dissipation
DC D=0.05 0.1 0.2
Reverse Power Dissipation PR [W]
10
0.3
0.5
5 SIN 0.8
0
0
10
20
30
40
50
60
70
Reverse Voltage VR [V]
Tj = 150 °C
0 VR tp D=tp /T T
D5S6M
6
Forward Power Dissipation
Forward Power Dissipation PF [W]
5 D=0.8 4 0.2 3 0.05 2 0.1 0.3 SIN 0.5
DC
1
0
0
1
2
3
4
5
6
7
8
Average Rectified Forward Current IO [A]
Tj = 150 °C IO 0 tp D=tp /T T
D5S6M
10
Derating Curve
Average Rectified Forward Current IO [A]
8
DC D=0.8
6
0.5 SIN 0.3
4
0.2 0.1
2
0.05
0
0
20
40
60
80
100
120
140
160
Case Temperature Tc [°C]
VR = 30V 0 0
IO
VR tp D=tp /T T
D5S6M
10
Derating Curve
Average Rectified Forward Current IO [A]
8
DC D=0.8
6
0.5 SIN 0.3
4
0.2 0.1
2
0.05
0
0
20
40
60
80
100
120
140
160
Heatsink Temperature Tf [°C]
VR = 30V 0 0
IO
VR tp D=tp /T T
D5S6M
200
Peak Surge Forward Capability
IFSM
10ms 10ms
1 cycle
Peak Surge Forward Current IFSM [A]
150
non-repetitive, sine wave, Tj=125°C before surge current is applied
100
50
0
1
2
5
10
20
50
100
Number of Cycles [cycles]
SBD
120
Repetitive Surge Reverse Power Derating Curve
100
PRRSM Derating [%]
80
60
40
20
0
0
50
100
150
Junction Temperature Tj [°C]
IRP IR 0.5IRP 0 tp PRRSM = IRP × VRP VR VRP
SBD
10
Repetitive Surge Reverse Power Capability
PRRSM (t p) / PRRSM (t p=10µs) Ratio
1
0.1
1
10
100
Pulse Width t p [ µs]
IRP IR 0.5IRP 0 tp PRRSM = IRP × VRP VR VRP
.