MICROSEMI HU10015

Ultrafast Recovery Modules
HU100, 101 & 102
D
G
Std. Polarity
Base is cathode
Rev. Polarity
Base is anode
J
H
F
C
E
A
L
Millimeter
Minimum Maximum Minimum Maximum Notes
A
B
C
D
E
F
G
H
J
K
L
B
K
Dim. Inches
1.52
.725
.605
1.182
.745
.152
.525
.156
.495
.120
38.61
1.56
18.42
.775
15.37
.625
30.02
1.192
18.92
.755
3.86
.160
1/4-20 UNC-2B
13.34
.580
3.96
.160
12.57
.505
3.05
.130
39.62
19.69
15.88
30.28
19.18
4.06
14.73
4.06
12.83
3.30
Sq.
Dia.
Dia.
Notes:
Baseplate: Nickel plated
copper
Microsemi
Working Peak
Repetitive Peak
Reverse Voltage
Catalog Number Reverse Voltage
HU10005*
50V
50V
HU10010*
100V
100V
HU10015*
150V
150V
HU10020* HU10120* 200V
200V
HU10130* 300V
300V
HU10140* 400V
400V
HU10150* 500V
500V
600V
600V
HU10260*
700V
700V
HU10270*
800V
800V
HU10280*
Add Suffix R for Reverse Polarity
Ultra Fast Recovery
175 C Junction Temperature
V RRM 50 to 800 Volts
High surge capacity
100 Amp current rating
ROHS Compliant
Electrical Characteristics
Average forward current
Case Temperature
Maximum surge current
Max peak forward voltage
Max reverse recovery time
Max peak reverse current
Max peak reverse current
Typical Junction capacitance
HU100
HU101
HU102
I F(AV) 100A
TC
135°C
I FSM
1500A
V FM
.975V
t rr
50ns
I RM
I RM
CJ
575pF
100A
120°C
1400A
1.25V
70ns
6.0mA
50µA
300pF
100A
115°C
1200A
1.35V
90ns
275pF
Square Wave
R0JC = 0.5°C/W
8.3ms, half sine,T J = 175°C
I FM = 100A: T J = 25°C*
1/2A, 1A, 1/4A, T J = 25°C
V RRM,T J = 125°C
V RRM,T J = 25°C
V R = 10V,T J = 25°C
*Pulse test: Pulse width 300µsec, Duty cycle 2%
Thermal and Mechanical Characteristics
Storage temp range
Operating junction temp range
Max thermal resistance
Typical thermal resistance (greased)
Terminal Torque
Mounting base torque - (outside holes)
Weight
T STG
TJ
R0 JC
R0 CS
www.microsemi.com
-55°C to 175°C
-55°C to 175°C
Junction to case
0.5°C/W
.012°C/W Case to sink
35-40 inch pounds
20-25 inch pounds
1.1 ounces (32 grams) typical
January, 2011 - Rev. 3
HU100
Figure 3
Typical Junction Capacitance
1000
10000
800
6000
600
4000
Junction Capacitance - pF
Figure 1
Typical Forward Characteristics
400
200
100
80
2000
1000
60
600
400
200
100
0.1
20
10
8.0
6.0
4.0
2.0
1.0
.2
5.0
10
50
100
.4
.6
.8
1.0
1.2
1.4
175
165
155
145
135
125
115
1.6
0
Maximum Power Dissipation - Watts
1.0
175 C
.1
125 C
.01
75 C
25 C
.0001
80
Reverse Voltage - Volts
60
DC
90
120
150
Figure 5
Maximum Forward Power Dissipation
10
40
30
180
Average Forward Current - Amperes
Figure 2
Typical Reverse Characteristics
0
60 90 120
105
Instantaneous Forward Voltage - Volts
Typical Reverse Current - mA
1.0
Figure 4
Forward Current Derating
25 C
175 C
Maximum Allowable Case Temperature - C
Instantaneous Forward Current - Amperes
40
.001
0.5
Reverse Voltage - Volts
120
160
200
140
120
DC
100
180
80
90
60
120
60
40
20
0
0
30
60
90
120
Average Forward Current - Amperes
www.microsemi.com
January, 2011 - Rev. 3
150
HU101
Figure 1
Typical Forward Characteristics
Figure 3
Typical Junction Capacitance
1000
800
600
600
400
Junction Capacitance - pF
1000
400
200
100
80
60
200
100
80
60
40
20
10
0.1
175 C
1.0
5.0
10
50
100
20
Figure 4
Forward Current Derating
25 C
Maximum Allowable Case Temperature - C
Instantaneous Forward Current - Amperes
40
10
8.0
6.0
4.0
2.0
1.0
0
.2
.6
1.0
1.4
1.8
2.2
175
165
155
145
135
125
115
2.6
0
Maximum Power Dissipation - Watts
1.0
175 C
125 C
.01
75 C
.001
25 C
0
100
200
Reverse Voltage - Volts
60
90
DC
150
120
Figure 5
Maximum Forward Power Dissipation
10
.0001
30
90 120 180
Average Forward Current - Amperes
Figure 2
Typical Reverse Characteristics
.1
60
105
Instantaneous Forward Voltage - Volts
Typical Reverse Current - mA
0.5
Reverse Voltage - Volts
300
400
500
140
DC
120
180
100
90
80
120
60
60
40
20
0
0
30
60
90
120
Average Forward Current - Amperes
www.microsemi.com
January, 2011 - Rev. 3
150
HU102
Figure 3
Typical Junction Capacitance
1000
10000
800
6000
600
4000
Junction Capacitance - pF
Figure 1
Typical Forward Characteristics
400
200
100
80
2000
1000
800
600
60
400
200
100
0.1
175 C
20
10
8.0
6.0
4.0
2.0
1.0
0
5.0
10
50
100
.2
.6
1.0
1.4
1.8
2.2
175
165
155
145
135
125
115
2.6
0
Maximum Power Dissipation - Watts
1.0
175 C
125 C
.01
75 C
25 C
0
200
400
Reverse Voltage - Volts
60
90
120
150
Figure 5
Maximum Forward Power Dissipation
10
.001
30
DC
Average Forward Current - Amperes
Figure 2
Typical Reverse Characteristics
.1
60 90 120 180
105
Instantaneous Forward Voltage - Volts
Typical Reverse Current - mA
1.0
Figure 4
Forward Current Derating
25 C
Maximum Allowable Case Temperature - C
Instantaneous Forward Current - Amperes
40
.0001
0.5
Reverse Voltage - Volts
600
800
1000
140
DC
120
120
100
180
90
80
60
60
40
20
0
0
30
60
90
120
Average Forward Current - Amperes
www.microsemi.com
January, 2011 - Rev. 3
150