STGW30NB60HD
N-CHANNEL 30A - 600V TO-247
PowerMESH IGBT
TYPE V
CES
V
CE(sat)
I
C
ST G W30NB60HD 600 V < 2 . 8 V 30 A
■ HIGHINPUT IMPEDANCE
(VOLTAGEDRIVEN)
■ LOW ON-VOLTAGEDROP (V
■ LOW GATECHARGE
■ HIGHCURRENTCAPABILITY
■ VERYHIGH FREQUENCYOPERATION
■ OFFLOSSES INCLUDETAIL CURRENT
■ CO-PACKAGEWITH TURBOSWITCH
CESAT
)
ANTIPARALLELDIODE
DESCRIPTION
Using the latest high voltage technology based
on a patented strip layout, STMicroelectronics
has designed an advanced family of IGBTs, the
PowerMESH
IGBTs, with outstanding
perfomances. The suffix ”H” identifies a family
optimized to achieve very low switching times for
high frequencyapplications(<120kHz).
APPLICATIONS
■ HIGHFREQUENCY MOTOR CONTROLS
■ WELDINGEQUIPMENTS
■ SMPSAND PFC IN BOTH HARDSWITCH
AND RESONANTTOPOLOGIES
3
2
1
TO-247
INTERNAL SCHEMATIC DIAGRAM
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter Value Unit
V
V
V
I
CM
P
T
(•) Pulse width limited by safe operating area
July 1999
Collect o r -Em i t t er Voltage (VGS= 0) 600 V
CES
Emit t er-Collect or Voltage 20 V
ECR
Gate-Emitter V oltage
GE
I
Collect o r Curr ent (continuous) at Tc=25oC60A
C
I
Collect o r Curr ent (continuous) at Tc= 100oC30A
C
20 V
±
(•) Collect o r Curr ent (pulsed) 240 A
Tot al Dissipat ion at Tc=25oC 190 W
tot
Derat ing Factor 1.52 W/
Sto rage Tem perature - 65 to 150
stg
T
Max. Operat ing Junc tion Tem per ature 150
j
o
C
o
C
o
C
1/8
STGW30NB60HD
THERMAL DATA
R
thj-case
R
thj-amb
R
thc-h
Ther mal Resistanc e Junction-case Max
Ther mal Resistanc e Junction-ambient Max
Ther mal Resistanc e C as e - heatsink Typ
0.66
30
0.1
o
C/W
oC/W
o
C/W
ELECTRICAL CHARACTERISTICS
=25oC unless otherwise specified)
(T
j
OFF
Sym bol Param e t er Test Conditions Min . Typ. Max. U nit
V
BR(CES)
Collector-Emitter
IC=250µAVGE= 0 600 V
Break dow n Volt age
I
I
ON (∗
CES
GES
Collect o r cut - off
=0)
(V
GE
Gat e- Em i t t er Leakage
Current (V
)
CE
=0)
V
=MaxRating Tj=25oC
CE
=MaxRating Tj=125oC
V
CE
V
= ± 20 V VCE=0 ±100 nA
GE
250
2000
Sym bol Param e t er Test Conditions Min . Typ. Max. U nit
V
GE(th)
Gate Th reshold
VCE=VGEIC= 250 µ A35V
Voltage
V
CE(SAT)
Collector-Emitter
Sat urat ion Volt age
VGE=15V IC=30A
V
=15V IC=30A Tj= 125oC
GE
2.2
1.8
2.8 V
DYNAMIC
Sym bol Param e t er Test Conditions Min . Typ. Max. U nit
C
C
C
Q
Q
g
Q
I
CL
Forward
fs
Tr ansc on duc tance
Input Capacitanc e
ies
Out put Capacitance
oes
Reverse Transfer
res
Capacit a nc e
Tot al Gate Charge
G
Gate-Emitt er C harge
GE
Gat e- Col lect or C har ge
GC
Latc hing Curr ent V
VCE=25 V IC=30A 20 S
VCE=25V f=1MHz VGE= 0 2300
250
60
VCE= 480 V IC=30A VGE= 15 V 150
15
72
=480V RG=10 Ω
clamp
T
= 150oC
j
120 A
µA
µ
V
pF
pF
pF
nC
nC
nC
A
SWITCHINGON
Sym bol Param e t er Test Conditions Min . Typ. Max. U nit
(di/dt)
2/8
t
d(on)
E
Delay Time
t
Rise Time
r
Tur n-on Current Slope
on
Turn-on
on
Switching Losses
VCC= 480 V IC=30A
=15V RG=10Ω
V
GE
VCC=480V IC=30A
=10Ω VGE=15V
R
G
T
=125oC
j
15
35
1000
1000
ns
ns
A/µs
J
µ
STGW30NB60HD
ELECTRICAL CHARACTERISTICS
(continued)
SWITCHINGOFF
Sym bol Param e t er Test Conditions Min . Typ. Max. U nit
tr(v
t
E
E
tr(v
t
E
E
t
d(off
off
ts
t
d(off
off
ts
Cross-Over Time
c
Off Voltage Rise Time
)
off
)
Delay Time
t
Fall T ime
f
(**)
Turn-off Switching Loss
(❍)
Tot al Switching Loss
Cross-Over Time
c
Off Voltage Rise Time
)
off
Delay Time
)
Fall T ime
t
f
Turn-off Switching Loss
(**)
(❍)
Tot al Switching Loss
V
=480V IC=30A
CC
R
=10
Ω
=480V IC=30A
=10
Ω
= 125oC
V
R
T
GE
CC
GE
j
VGE=15V
VGE=15V
150
40
210
90
1.10
2.0
250
70
250
160
1.6
2.65
COLLECTOR-EMITTERDIODE
Sym bol Param e t er Tes t Conditions Min . Typ. Max. Unit
I
For ward Current
f
I
V
t
Q
I
rrm
(•) Pulse width limited by max. junction temperature
(
❍) Include recovery losses on the STTA2006 freewheeling diode
(∗) Pulsed: Pulse duration= 300µs, duty cycle 1.5%
(**)Losses Include Also The Tail (Jedec Standardization)
For ward Current pulsed
fm
For ward On- Voltage If=30A
f
Reverse Recovery Time
rr
Reverse Recovery Charge
rr
Reverse Recovery Current
=30A Tj=125oC
I
f
If=30A VR= 100 V
dI/dt = 100 A/µST
= 125oC
j
1.7
1.55
116
406
30
240AA
2.0 V
7
ns
ns
ns
ns
mJ
mJ
ns
ns
ns
ns
mJ
mJ
V
nS
nC
A
ThermalImpedance
3/8