A438 S
-
Elektrische Eigenschaften
Höchstzulässige Werte
Periodische
Vorwärts-
Spitzensperrspannung
Electrical properties
Maximum rated values
repetitive peak forward off-state
voltage
Vorwärts-Stoßspitzenspannung
Periodische Rückwärts-
Spitzensperrspannung
Periodische Rückwärts-
Spitzensperrspannung
nach der Kommutierung
Durchlaßstrom-Grenzeffektivwert
Dauergrenzstrom
non repetitive peak
forward off-state voltage
repetitive peak
reverse voltage
repetitive peak
reverse voltage
after commutation
RMS on-state current
average on-state current
Stoßstrom-Grenzwert
Grenzlastintegral
Kritische Stromsteilheit
surge current
Si*dt-value
critical rate of rise of
onstate
current
Kritische Spannungssteilheit
critical rate of rise of off-state voltage
t,
=-4o”c...t”,,,,
kl,,
600,800 V
1000,1100 v
1200,1300* V
VDSM = VDRM
VRRM
15 v
t,,=-4o”c...t”,,,
VRRM(C)
50 v
t,,
=
-40°c...t,,,,,,
t,
= 1 ps
ITRMSM
ITAVM
ITSM
jiZdt
(di/dt),,
900
A
438 A
573
A
6,2
kA
5,5 kA
192
kA’s
151 kA2s
500
A/Is
tc
= 05°C
tc
= 56°C
t,
=
25”C,
t, = 10
ms
t,
=
t,
max,
t,
=
IO
Ins
t,
=
25°C
t,
=
10
n-s
t,
=
t,
mm,
tp
=
10
Ins
vo
5
67%
“DR,.,,
fo
= 50 Hz
~~=lOV,i~~=1,2A,di~/dt=1,2Alps
tvi
=
ta
max,
Y~
=
67%
VDR~
5. Kannbuchstabel5th letter
C
5.
Kennbuchstabe/Sth
letter F
WW,r
500
v//.ls
1000
Vlps
Charakteristische Werte Characteristic values
Durchlaßspannung
Schleusenspannung
Ersatzwiderstand
Zündstrom
Zündspannung
Nicht zündender Steuerstrom
Nicht zündende Steuerspannung
Haltestrom
Einraststrom
Vorwärts- u. Rückwärts-Sperrstrom
Zündverzug
Freiwerdezeit
on-state voltage
threshold voltage
slope resistance
gate trigger current
gate trigger voltage
gate non-trigger current
gate non-trigger voltage
holding current
latching current
forward off-state and reverse Currents
gate controlled delay time
circuit commutated turn-off time
t,
=
tvi
max,
iT
= 1500 A
t”j
=
t,
max
t,
=
f
max
t,
=
25°C
vg
=
12 V
t,
= 25°C
vg
= 12 V
t,
=
t,
mBx,
“0 = 12 v
t,
=
t,
maxz
VD
=
035
VD,,
t,
=
25”C,
“~g
= 12
V,
RA
= 10
Q
t,
=
25°C
vg
=
12
V,
R~I<
2 10
R
IGM
=
1,2
A,
diG/dt
=
1,2
Alps,
t,
= 20
VS
t,
=
t,
m&x,
VD
= VORM.
YR
=
VRRM
VT
vT(TQ
rT
IGT
VGT
IGD
VGD
43
IL
iD
ifl
b
t,
D:
E:
F:
2,l
v
1,l
v
0,6
rn0
300 mA
2,7 V
10 mA
0,25 V
300 mA
1,2
A
max.
max.
max.
max.
50 mA
250
mA
134
ps
15
Irs’)
20
CIS’)
25
Irs’)
max.
max.
max.
t,
=
25°C
iGM
=
1,2
A,
disldt
=
1,2
A!ws
siehe Techn.
ErLlsee
Techn. Inf.
max.
max.
-
Thermische Eigenschaften
Innerer Wärmewiderstand
für beidseitige Kühlung
Thermal properties
thermal resistance, junction to case
for two-sided cooling
für anodenseitige Kühlung for anode-sided cooling
für kathodenseitige Kühlung for cathode-sided cooling
Übergangswärmewiderstand thermal resistance, case to heatsink
Höchstzul. Sperrschichttemperatur
Betriebstemperatur
Lagertemperatur
max. junction temperature
Operating temperature
storage temperature
0 =
180”el,
sin
DC
t3
=
180”
el,
sin
DC
e = 180”
el,
sin
DC
beidseitigltwo-sided
einseitiglone-sided
R
thJC
max. 0,053”CIW
max. 0,05
“CIW
RthJC(A)
max. 0,088”CIW
max.
0,085 “CIW
RthJC(K)
max. 0,123”CIW
max. 0,12
“CIW
RthcK
max.
0,Ol
“CIW
max. 0,02
“CIW
t
v,
max
125°C
t
COP
-4O...
+ 125°C
t
stg
-4o...
+ 140°C
Mechanische Eiaenschaften Mechanical orooerties
I
Si-Elemente mit Druckkontakt
Anpreßkraft
Gewicht
Kriechstrecke
Feuchteklasse
Schwingfestigkeit
Maßbild
m
.
Si-pellets with pressure contact
Clamping
force
weight
Creepage distance
humidity classification
Vibration resistance
outline
F
4,5...9
kN
GtYP.
100 g
17 mm
c
-
50
m/s*
Seite/page
154
DIN 40040
f=50Hz
DIN
41814-152A4
l Für größere Stückzahlen bitte Liefertermin
erfragenlDelivery
for larger quantities on request
1) mit antiparalleler Diodelwith inverse paralleled diode
142
A
438
S
t
0.14
0.12
52
u
L
0.10
:
;
tc
0.08
N
0.06
0.04
0.02
0
lö3
lö'
10'
10"
1.IOE,ll
t
Cs3
-t
Bild/Fig.
17
Transienter innerer Wärmewiderstand
ZclhjJc
= f(t), DC
Transient thermal impedance
ZOhjJc
=
f(t), DC
1 Beidseitige
Kühlung/two-sided
cooling
2 Anodenseitige
Kühlunglanode
side cooling
3 Kathodenseitige
Kühlunglcathode
side cooling
BildlFig.
16
ZündverzuglGate
controlled delay time
t9,,
=
f(io&
t,
=
25”C,
dio/dt
=
iGMH
ps
a
-
Maximaler
VerlauWLimiting
Characteristic
b
-
Typischer
Verlaufmypical
Characteristic
10’
2 3
4
5 6
*
102
2
3456S103
2 3 4 5 6
s
104
l>58
IT
iG
[mA]
-
BildlFig.
19
Steuercharakteristik mit
ZündbereichenlGate
Characteristic with triggering areas
va
=
f(io),
V.
=
12 V
Parameter:
a b c
SteuerimoulsdauertTriaaer
oulse
duration
t,
Imsl
10
1
0.5
Höchstzulässige Spitzensteuerverlustleistung/
Max. rated peak gate power dissipation
PoM
Wl
20 40 60
Analytische Elemente des transienten Wärmewiderstandes
ZlhJc
für DC
Analytical elements of transient thermal impedance
ZthJC
for DC
Analytische Funktion/analytical function:
nmax
Z
m.lc
=
c
R,hn
(1
-
EXP
(-t/Tn))
n=l
145
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