Technische Information / technical information
IGBT-Module
IGBT-modules
FP50R06KE3G
Vorläufige Daten
preliminary data
IGBT-Brems-Chopper / IGBT-brake-chopper
Höchstzulässige Werte / maximum rated values
Kollektor-Emitter-Sperrspannung
collector-emitter voltage
TÝÎ = 25°C
V†Š»
600
V
Kollektor-Dauergleichstrom
DC-collector current
T† = 80°C, TÝÎ = 175°C
T† = 25°C, TÝÎ = 175°C
I†ÒÓÑ
I†
50
60
A
A
Periodischer Kollektor Spitzenstrom
repetitive peak collector current
t« = 1 ms
I†ç¢
PÚÓÚ
100
190
A
W
V
Gesamt-Verlustleistung
total power dissipation
T† = 25°C, TÝÎ = 175°C
Gate-Emitter-Spitzenspannung
gate-emitter peak voltage
V•Š»
+/-20
Charakteristische Werte / characteristic values
min. typ. max.
Kollektor-Emitter Sättigungsspannung
collector-emitter saturation voltage
I† = 50 A, V•Š = 15 V
I† = 50 A, V•Š = 15 V
I† = 50 A, V•Š = 15 V
TÝÎ = 25°C
TÝÎ = 125°C V†Š ÙÈÚ
TÝÎ = 150°C
1,45 1,90
1,60
1,70
V
V
V
Gate-Schwellenspannung
gate threshold voltage
I† = 0,80 mA, V†Š = V•Š, TÝÎ = 25°C
V•Š = -15 V ... +15 V
V•ŠÚÌ
Q•
4,9
5,8
0,50
0,00
3,10
0,095
6,5
V
µC
Â
Gateladung
gate charge
Interner Gatewiderstand
internal gate resistor
TÝÎ = 25°C
R•ÍÒÚ
CÍþÙ
CØþÙ
I†Š»
Eingangskapazität
input capacitance
f = 1 MHz, TÝÎ = 25°C, V†Š = 25 V, V•Š = 0 V
f = 1 MHz, TÝÎ = 25°C, V†Š = 25 V, V•Š = 0 V
V†Š = 600 V, V•Š = 0 V, TÝÎ = 25°C
V†Š = 0 V, V•Š = 20 V, TÝÎ = 25°C
nF
nF
mA
nA
Rückwirkungskapazität
reverse transfer capacitance
Kollektor-Emitter Reststrom
collector-emitter cut-off current
1,0
Gate-Emitter Reststrom
gate-emitter leakage current
I•Š»
400
Einschaltverzögerungszeit (ind. Last)
turn-on delay time (inductive load)
I† = 50 A, V†Š = 300 V
V•Š = ±15 V
R•ÓÒ = 43 Â
TÝÎ = 25°C
TÝÎ = 125°C
TÝÎ = 150°C
0,10
0,10
0,10
µs
µs
µs
tÁ ÓÒ
tØ
Anstiegszeit (induktive Last)
rise time (inductive load)
I† = 50 A, V†Š = 300 V
V•Š = ±15 V
R•ÓÒ = 43 Â
TÝÎ = 25°C
TÝÎ = 125°C
TÝÎ = 150°C
0,06
0,065
0,07
µs
µs
µs
Abschaltverzögerungszeit (ind. Last)
turn-off delay time (inductive load)
I† = 50 A, V†Š = 300 V
V•Š = ±15 V
R•ÓËË = 43 Â
TÝÎ = 25°C
TÝÎ = 125°C
TÝÎ = 150°C
0,60
0,65
0,70
µs
µs
µs
tÁ ÓËË
tË
Fallzeit (induktive Last)
fall time (inductive load)
I† = 50 A, V†Š = 300 V
V•Š = ±15 V
R•ÓËË = 43 Â
TÝÎ = 25°C
TÝÎ = 125°C
TÝÎ = 150°C
0,04
0,05
0,06
µs
µs
µs
Einschaltverlustenergie pro Puls
turn-on energy loss per pulse
I† = 50 A, V†Š = 300 V
V•Š = ±15 V
R•ÓÒ = 43 Â
TÝÎ = 25°C
TÝÎ = 125°C
TÝÎ = 150°C
2,30
2,75
2,90
mJ
mJ
mJ
EÓÒ
EÓËË
Abschaltverlustenergie pro Puls
turn-off energy loss per pulse
I† = 50 A, V†Š = 300 V
V•Š = ±15 V
R•ÓËË = 43 Â
TÝÎ = 25°C
TÝÎ = 125°C
TÝÎ = 150°C
1,75
2,10
2,15
mJ
mJ
mJ
Kurzschlussverhalten
SC data
V•Š ù 15 V, V†† = 360 V
V†ŠÑÈà = V†Š» -LÙ†Š · di/dt
t« ù 8 µs, TÝÎ = 25°C
t« ù 6 µs, TÝÎ = 150°C
350
250
A
A
IȠ
Innerer Wärmewiderstand
thermal resistance, junction to case
pro IGBT
per IGBT
RÚÌœ†
RÚ̆™
0,80 K/W
K/W
Übergangs-Wärmewiderstand
thermal resistance, case to heatsink
pro IGBT / per IGBT
ð«ÈÙÚþ = 1 W/(m·K) / ðÃØþÈÙþ = 1 W/(m·K)
0,17
prepared by: Andreas Schulz
approved by: Robert Severin
date of publication: 2006-6-16
revision: 2.0
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