HCD65R360S_HCU65R360S
June 2015
BV
DSS
= 650 V
HCD65R360S / HCU65R360S
650V N-Channel Super Junction MOSFET
FEATURES
Originative New Design
Superior Avalanche Rugged Technology
Robust Gate Oxide Technology
Very Low Intrinsic Capacitances
Excellent Switching Characteristics
Unrivalled Gate Charge : 23 nC (Typ.)
Extended Safe Operating Area
Lower R
DS(ON)
100% Avalanche Tested
GS
=10V
R
DS(on) typ
I
D
= 11 A
D-PAK
2
1
1
3
2
3
I-PAK
HCD65R360S HCU65R360S
1.Gate 2. Drain 3. Source
Absolute Maximum Ratings
Symbol
V
DSS
I
D
I
DM
V
GS
E
AS
I
AR
E
AR
dv/dt
Drain-Source Voltage
Drain Current
Drain Current
Drain Current
Gate-Source Voltage
T
C
=25
unless otherwise specified
Parameter
Value
650
Units
V
A
A
A
V
mJ
A
mJ
V/ns
W
W
W/
– Continuous (T
C
= 25
– Continuous (T
C
= 100
– Pulsed
)
)
11
7
33
20
(Note 1)
Single Pulsed Avalanche Energy
Avalanche Current
Repetitive Avalanche Energy
Peak Diode Recovery dv/dt
Power Dissipation (T
A
= 25
)*
(Note 2)
(Note 1)
(Note 1)
300
3.0
0.6
15
2.5
100
0.8
-55 to +150
300
P
D
Power Dissipation (T
C
= 25 )
- Derate above 25
Operating and Storage Temperature Range
Maximum lead temperature for soldering purposes,
1/8” from case for 5 seconds
T
J
, T
STG
T
L
Thermal Resistance Characteristics
Symbol
R
R
R
JC
JA
JA
Parameter
Junction-to-Case
Junction-to-Ambient*
Junction-to-Ambient
Typ.
--
--
--
Max.
1.5
50
110
Units
/W
* When mounted on the minimum pad size recommended (PCB Mount)
HCD65R360S_HCU65R360S
Electrical Characteristics
T
J
=25
Symbol
Parameter
C unless otherwise specified
Test Conditions
Min
Typ
Max
Units
On Characteristics
V
GS
R
DS(ON)
Gate Threshold Voltage
Static Drain-Source
On-Resistance
V
DS
= V
GS
, I
D
= 250
V
GS
= 10 V, I
D
= 5.5 A
2.8
--
--
0.32
4.2
0.36
V
Off Characteristics
BV
DSS
I
DSS
I
GSS
Drain-Source Breakdown Voltage
Zero Gate Voltage Drain Current
Gate-Body Leakage Current
V
GS
= 0 V, I
D
= 250
V
DS
= 650 V, V
GS
= 0 V
V
DS
= 520 V, T
J
= 125
V
GS
=
20 V, V
DS
= 0 V
650
--
--
--
--
--
--
--
--
10
100
100
V
Dynamic Characteristics
C
iss
C
oss
C
rss
R
g
Input Capacitance
Output Capacitance
Reverse Transfer Capacitance
Gate Resistance
V
GS
= 0 V, V
DS
= 0 V, f = 1MHz
V
DS
= 25 V, V
GS
= 0 V,
f = 1.0 MHz
--
--
--
--
920
400
8
0.5
--
--
--
--
Switching Characteristics
t
d(on)
t
r
t
d(off)
t
f
Q
g
Q
gs
Q
gd
Turn-On Time
Turn-On Rise Time
Turn-Off Delay Time
Turn-Off Fall Time
Total Gate Charge
Gate-Source Charge
Gate-Drain Charge
V
DS
= 520 V, I
D
= 11 A
V
GS
= 10 V
V
DS
= 325 V, I
D
= 11 A,
R
G
= 25
--
--
--
--
--
--
--
30
30
85
25
23
6
7
--
--
--
--
--
--
--
nC
nC
nC
Source-Drain Diode Maximum Ratings and Characteristics
I
S
I
SM
V
SD
trr
Qrr
Continuous Source-Drain Diode Forward Current
Pulsed Source-Drain Diode Forward Current
Source-Drain Diode Forward Voltage
Reverse Recovery Time
Reverse Recovery Charge
I
S
= 11 A, V
GS
= 0 V
I
S
= 5.5 A, V
GS
= 0 V
di
F
/dt = 100 A/
--
--
--
--
--
--
--
--
350
5
11
A
33
1.2
--
--
V
Notes ;
1. Repetitive Rating : Pulse width limited by maximum junction temperature
2. I
AS
=3.5A, V
DD
=50V, R
G
=25 , Starting T
J
=25 C
HCD65R360S_HCU65R360S
Typical Characteristics
I
D
, Drain Current [A]
I
D
, Drain Current [A]
10
1
V
GS
15.0 V
10.0 V
8.0 V
7.0 V
6.0 V
5.5 V
5.0 V
Bottom : 4.5 V
Top :
10
25
o
C
150
o
C
-25
o
C
10
0
10
0
10
1
* Notes :
1. 300us Pulse Test
2. T
C
= 25
o
C
* Notes :
1. V
DS
= 30V
2. 300us Pulse Test
0.1
2
V
DS
, Drain-Source Voltage [V]
V
GS
, Gate-Source Voltage [V]
4
6
8
10
Figure 1. On Region Characteristics
Figure 2. Transfer Characteristics
1.0
I
DR
, Reverse Drain Current [A]
R
DS(ON)
[ ],
Drain-Source On-Resistance
0.8
10
0.6
V
GS
= 10V
0.4
1
V
GS
= 20V
0.2
Note : T
J
= 25
o
C
150
o
C
25
o
C
* Notes :
1. V
GS
= 0V
2. 300us Pulse Test
0.0
0
4
8
12
16
20
24
0.1
0.0
0.2
0.4
0.6
0.8
1.0
1.2
I
D
, Drain Current [A]
V
SD
, Source-Drain Voltage [V]
Figure 3. On Resistance Variation vs
Drain Current and Gate Voltage
6000
C
iss
= C
gs
+ C
gd
(C
ds
= shorted)
C
oss
= C
ds
+ C
gd
C
rss
= C
gd
Figure 4. Body Diode Forward Voltage
Variation with Source Current
and Temperature
12
V
GS
, Gate-Source Voltage [V]
5000
10
V
DS
= 130V
V
DS
= 325V
V
DS
= 520V
Capacitances [pF]
4000
8
C
oss
3000
* Note ;
1. V
GS
= 0 V
2. f = 1 MHz
6
2000
4
1000
C
iss
C
rss
2
Note : I
D
= 11A
0
10
-1
10
0
10
1
0
0
5
10
15
20
25
V
DS
, Drain-Source Voltage [V]
Q
G
, Total Gate Charge [nC]
Figure 5. Capacitance Characteristics
Figure 6. Gate Charge Characteristics
HCD65R360S_HCU65R360S
Typical Characteristics
(continued)
1.2
3.0
BV
DSS
, (Normalized)
Drain-Source Breakdown Voltage
1.1
R
DS(ON)
, (Normalized)
Drain-Source On-Resistance
2.5
2.0
1.0
1.5
1.0
0.9
Note :
1. V
GS
= 0 V
2. I
D
= 250 A
0.5
Note :
1. V
GS
= 10 V
2. I
D
= 5.5 A
0.8
-100
-50
0
50
100
150
200
0.0
-100
-50
0
50
100
o
150
200
T
J
, Junction Temperature [
o
C]
T
J
, Junction Temperature [ C]
Figure 7. Breakdown Voltage Variation
vs Temperature
10
2
12
Figure 8. On-Resistance Variation
vs Temperature
Operation in This Area
is Limited by R
DS(on)
10 s
10
I
D
, Drain Current [A]
10
1
I
D
, Drain Current [A]
100 s
1 ms
10 ms
DC
8
10
0
6
4
10
-1
* Notes :
1. T
C
= 25
o
C
2. T
J
= 150
o
C
3. Single Pulse
2
10
-2
10
-1
10
0
10
1
10
2
10
3
0
25
50
75
100
o
125
150
V
DS
, Drain-Source Voltage [V]
T
C
, Case Temperature [ C]
Figure 9. Maximum Safe Operating Area
Figure 10. Maximum Drain Current
vs Case Temperature
10
0
D=0.5
Z
JC
(t), Thermal Response
0.2
0.1
10
-1
* Notes :
1. Z
JC
(t) = 1.5
o
C/W Max.
2. Duty Factor, D=t
1
/t
2
3. T
JM
- T
C
= P
DM
* Z
JC
(t)
0.05
0.02
0.01
single pulse
P
DM
t
1
10
-3
10
-2
10
-1
10
-2
10
-5
t
2
10
1
10
-4
10
0
t
1
, Square Wave Pulse Duration [sec]
Figure 11. Transient Thermal Response Curve
HCD65R360S_HCU65R360S
Fig 12. Gate Charge Test Circuit & Waveform
Same Type
as DUT
12V
200nF
300nF
V
GS
Q
g
10V
V
GS
V
DS
Q
gs
Q
gd
DUT
3mA
Charge
Fig 13. Resistive Switching Test Circuit & Waveforms
V
DS
R
G
R
L
V
DD
( 0.5 rated V
DS
)
V
DS
90%
10V
DUT
V
in
10%
t
d(on)
t
on
t
r
t
d(off)
t
off
t
f
Fig 14. Unclamped Inductive Switching Test Circuit & Waveforms
L
V
DS
V
DD
I
D
R
G
DUT
V
DD
BV
DSS
I
AS
BV
DSS
1
E
AS
= ---- L
L
I
AS2
--------------------
2
BV
DSS
-- V
DD
I
D
(t)
V
DS
(t)
t
p
10V
Time
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