50 Seaview Blvd. Port Washington, NY 11050-4618 PH.(516)625-1313 FAX(516)625-8845 E-mail: semi@sanrex.com
DD(KD)60HB120/160
DIODE MODULE
Symbol Item Ratings
DD60HB120
1200
1350
Unit
VRRM
VRSM
Repetitive Peak Reverse Voltage
Non-Repetitive Peak Reverse Voltage
DD60HB160
1600
1700 V
V
Symbol Item
Average Forward Current
Conditions Ratings Unit
AIF(AV)
Single phase, half wave, 180°conduction, Tc:111℃
60
IF (RMS) R.M.S. Forward Current
Single phase, half wave, 180°conduction, Tc:111℃
95 A
IFSM Surge Forward Current 1
/
2 cycle, 50/60HZ, peak value, non-repetitive 1100/1200 A
I2tI2t Value for one cycle of surge current 6000 A2S
Tj Junction Temperature −40 to +150 ℃
Tstg Storage Temperature −40 to +125 ℃
VISO
Isolation Breakdown Voltage(R.M.S.)
Mounting
Torque
A.C.1minute 2500 V
Mounting
(M6)
Terminal(M5)
Mass
Recommended Value 2.5-3.9(25-40)
Recommended Value 1.5-2.5(15-25)
4.7(48)
2.7(28) N・m
(㎏f・B)
g170
93.5MAX
26MAX30MAX 1321
80
16.5 23
3
~+ –
21
23 3M5
2-6.5
Unit:a
■Electrical Characteristics
Symbol
IRRM
Item
Repetitive Peak Reverse Current, max.
Conditions
at VDRM, single phase, half wave. Tj=150℃
Ratings
20
1.35
0.50
Unit
mA
VFM Forward Voltage Drop, max.
Foward current 180A,Tj=25℃,Inst. measurement
V
Rth(j-c)Thermal Impedance, max. Junction to case ℃/W
Power Diode Module DD60HB series are designed for various rectifier circuits.
DD60HB has two diode chips connected in series and the mounting base is elctrically
isolated from elements for simple heatsink construction. Wide voltage ratage up to,
1,600V is avaiable for various input voltage.
●Isolated mounting base
●Two elements in a package for simple (single and three phase) bridge
connections
●Highly reliable glass passivated chips
●High surge current capability
(Applications)
Various rectifiers, Battery chargers, DC motor drives
UL;E76102(M)
■Maximum Ratings (Tj=25℃unless otherwise specified)
3 2 1
1
DD
KD
3
2
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SanRex 50 Seaview Blvd. Port Washington, NY 11050-4618 PH.(516)625-1313 FAX(516)625-8845 E-mail: semi@sanrex.com
DD(KD)60HB120/160
MaximumForwardCharacteristics
ForwardVoltageDrop(V)
5
5
5
2
2
0.6 0.8
10
2
10
3
10
1
1.0 1.2 1.4 1.6 1.8 2.0 2.2
ForwardCurrent(A)
AverageForwardCurrentvs.
PowerDissipation
AverageForwardCurrent(A)
40
0
120
80
100
60
0
20 40 16080 12010060 140
20
PowerDissipationPav(W)
ThreePhase
Peroneelement
SinglePhase
D.C.
Max.
AverageForwardCurrentvs.
AllowableCaseTemperature
AverageForwardCurrent(A)
150
140
130
120
110
100
90
80
0 20 40 60 80 100
AllowableCaseTemperatureTc(℃)
Peroneelement
D.C.ThreePhase SinglePhase
CycleSurgeForwardCurrentRating
(Non-Repetitive)
Time(Cycles)
1
2 5 10
20 50 100
1200
1000
800
600
400
200
0
SurgeForwardCurrent(A)
60Hz
Peroneelement
Tj=25℃ start
50Hz
TransientThermalImpedance
Timet(sec)
0.4
0.5
0.6
0.2
0.1
0.3
0 10
−
3 10
−
2
2
2
5
5
10
−
1
2 5 10
0
10
0 10
1
2 5
TransientThermalImpedanceθj-c(℃/W)
JunctiontoCase
Peroneelement
Maximum
Id(Aav.)Rth:0.8C/W
Rth:0.4C/W
Rth:0.3C/W
Rth:0.2C/W
Rth:0.1C/W
OutputCurrent
OutputCurrent(A)
140
150
130
120
110
10015050 200
0
25 50 75 1000 150125
B2;TwoPluseBridge
connection
600
500
400
200
100
300
AmbientTemperature(℃)
TotalPowerDissipation(W)
AllowableCaseTemperature(℃)
B2
Rth:0.8C/W
Rth:0.4C/W
Rth:0.3C/W
Rth:0.2C/W
Rth:0.1C/W
Id(Aav.)
OutputCurrent
OutputCurrent(A)
B6;SixpulseBridge
connection
AmbientTemperature(℃)
0 15010050 200
130
140
150
110
120
0 25 50 75 100 150125
200
600
500
400
300
100
0
TotalPowerDissipation(W)
AllowableCaseTemperature(℃)
B6
B6
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