IXYS VUB60

VUB 60
VRRM = 1200-1600 V
IdAVM = 70 A
Three Phase Rectifier Bridge
with IGBT and Fast Recovery Diode
for Braking System
VRRM
1 2
Type
4 5
V
1200
1600
VUB 60-12 NO1
VUB 60-16 NO1
6 7
Test Conditions
VRRM
IdAV
IdAVM
TH = 110°C, sinusoidal 120°
limited by leads
IFSM
I2t
Rectifier Diodes
Symbol
Maximum Ratings
1200 / 1600
59
70
V
A
A
Features
TVJ = 45°C, t = 10 ms, VR = 0 V
TVJ = 150°C, t = 10 ms, VR = 0 V
530
475
A
A
●
TVJ = 45°C, t = 10 ms, VR = 0 V
TVJ = 150°C, t = 10 ms, VR = 0V
1400
1130
A
A
●
●
●
Ptot
VCES
VGE
TH = 80°C per diode
49
W
TVJ = 25°C to 150°C
Continuous
1200
± 20
V
V
IC25
IC70
IC80
TH = 25°C, DC
TH = 70°C, DC
TH = 80°C, DC
31
23
21
A
A
A
●
●
IGBT
ICM
tp
Ptot
TH = 80°C
●
= Pulse width limited by TVJM
62
A
70
W
1200
8
12
90
V
A
A
A
TVJ = 45°C, t = 10 ms
TVJ = 150°C, t = 10 ms
75
60
A
A
Fast Recovery Diode
Ptot
TH = 80°C
22
W
-40...+150
150
-40...+125
°C
°C
°C
3000
3600
V~
V~
2-2.5
18-22
35
Nm
lb.in.
g
TH = 80°C, rectangular d = 0.5
TH = 80°C, rectangular d = 0.5
TH = 80°C, tP = 10 µs, f = 5 kHz
VISOL
Module
TVJ
TVJM
Tstg
50/60 Hz
IISOL £ 1 mA
t = 1 min
t=1s
Md
Mounting torque
(M5)
(10-32 unf)
Weight
typ.
Drive Inverters with brake system
Advantages
●
●
●
IFSM
Soldering connections for PCB
mounting
Isolation voltage 3600 V~
Ultrafast freewheel diode
Convenient package outline
UL registered E 72873
Thermistor
Applications
●
VRRM
IFAV
IFRMS
IFRM
9 10
●
2 functions in one package
No external isolation
Easy to mount with two screws
Suitable for wave soldering
High temperature and power cycling
capability
Dimensions in mm (1 mm = 0.0394")
Data according to IEC 60747
IXYS reserves the right to change limits, test conditions and dimensions.
© 2000 IXYS All rights reserved
1-4
VUB 60
Symbol
80
Characteristic Values
(TVJ = 25°C, unless otherwise specified)
min.
typ. max.
A
70
typ.
60
VR = VRRM,
VR = VRRM,
TVJ = 25°C
TVJ = 150°C
0.1
3
mA
mA
IF = 25 A,
TVJ = 25°C
1.3
V
40
For power-loss calculations only
TVJ = 150°C
0.85
V
8.5 mW
30
RthJH
per diode
1.42 K/W
VBR(CES)
VGE(th)
VGS = 0 V, IC = 3 mA
IC = 10 mA
IGES
ICES
VF
VT0
rT
Rectifier
Diodes
Rectifier
Diodes
IR
Test Conditions
VGE = ± 20 V
500
nA
TVJ = 25°C, VCE = 800 V
TVJ = 125°C, VCE = 800 V
250
1
mA
mA
VCEsat
VGE = 15 V, IC = 25 A
3.5
V
tSC
VGE = 15 V, VCE = 600 V, TVJ = 125°C,
RG = 4.7 W, non repetitive
10
ms
RBSOA
VGE = 15 V, VCE = 800 V, TVJ = 125°C,
RG = 4.7 W, Clamped Inductive load, L = 100 mH
50
A
Cies
VCE = 25 V, f = 1 MHz, VGE = 0 V
2.85
nF
VCE = 600 V, IC = 25 A
VGE = 15 V, RG = 4.7 W
Inductive load; L = 100 mH
TVJ = 125°C
100
220
1600
3.5
12
ns
ns
ns
mJ
mJ
IGBT
V
V
TVJ=150°C
1200
5
20
10
0
0.0
0.5
1.0
VF
1.5 V
2.0
Fig. 1 Forward current versus voltage
drop per rectifier diode
500
VR= 0.8VRRM
A
400
IFSM
300
td(on)
td(off)
tfi
Eon
Eoff
TVJ= 45°C
200
1 K/W
RthJH
IR
TVJ= 25°C
50
max.
7.5
(SCSOA)
IF
VR
VR
= VRRM, TVJ = 25°C
= 800 V, TVJ =150°C
0.2
6
mA
mA
IF
= 12 A,
2.7
V
TVJ= 150°C
100
0
0.001
0.01
0.1
t
1
s
Fig. 2 Surge overload current per
rectifier diode
10000
VT0
rT
IRM
trr
Fast Recovery Diode
VR= 0 V
VF
TVJ = 25°C
For power-loss calculations only
TVJ = 150°C
= 25 A, -diF/dt = 100 A/ms
= 100 V
6.5
7
A
IF
VR
= 1 A,
= 30 V
50
70
ns
-diF/dt = 100 A/ms
1000
TVJ= 45°C
I2t
TVJ= 150°C
100
3.12 K/W
Module NTC
dS
dA
a
1.65
V
46 mW
IF
VR
RthJH
R25
A2s
Siemens Typ S 891/2,2k/+9
2.2
kW
10
1
ms
10
t
Creep distance on surface
Strike distance in air
Maximum allowable acceleration
© 2000 IXYS All rights reserved
12.7 mm
9.4 mm
50 m/s2
Fig. 3 I2t versus time per rectifier diode
2-4
VUB 60
140
80
W
120
70
A
RthHA [K/W]
Ptot
60
Id(AV)M
0.5
1
1.5
2
3
4
6
100
80
60
50
40
30
40
20
20
10
0
0
0
10
20
30
40
50
60 A
0
70
40
80
120 °C 160
TA
Id(AV)M
TVJ = 25°C
VGE = 15V
A
60
VGE = 13V
1.4
VCE(sat)
1.3
VGE = 9V
0
0
2
4
6
8
10
12 V 14
VCE
Fig. 6 Output characteristics for
braking (IGBT)
1.5
Eoff
norm.
IC = 25A
1.0
0.8
0.7
VGE = 15V
0.6
C
-50 -25 0 25 50 75 100 125 °150
TVJ
Fig. 7 Saturation voltage versus
junction temperature
normalized (IGBT)
0
10
20
30
IC
40 A
50
1.3
T =125°C
Eoff VJ
IC = 25A
tfi
norm. to 4.7W
1.2
D=0.1
D=0.2
norm.
Eoff
D=0.4
1.1
D=0.5
D=0.7
tfi
20
10
0.0
Fig. 8 Turn-off energy per pulse and
fall time versus collector
current, normalized (IGBT)
D=0.3
30
tfi
0.5
IC = 12.5A
50
40
W
fi
1.2
norm.
1.1
20
IC
120 °C 160
0.9
VGE = 11V
70
A
60
TTH
2.0
T =125°C
Eoff VJ
R
G = 4.7
t
IC = 50A
1.0
40
80
Fig. 5 Maximum forward current
versus heatsink temperature
(Rectifier bridge)
80
IC
40
H
Fig. 4 Power dissipation versus direct output current and ambient temperature
(Rectifier bridge)
100
0
1.0
TH = 80°C
0
0.0001
0.9
0.001
0.01
0.1
s
1
tp
Fig. 9 Collector current versus pulse width and duty cycle (IGBT)
© 2000 IXYS All rights reserved
10
0
20
40
60
RG
80
W 100
Fig.10 Turn-off energy per pulse and
fall time versus RG (IGBT)
3-4
VUB 60
100
IC
3.0
40
A
35
A
IF
10
2.5
Qrr
30
20
1.5
TVJ=150°C
15
1.0
max.
10
TVJ=125°C
W
0.1
0
TVJ=25°C
0
400
1
VFR
80
ms
1.0
ms
4
0.8
TVJ=125°C
IF =11A
3
tFR
100
200
300
-diF/dt
1
10
A/ms
400
1
max.
IRM
IF = 11 A
IF = 22 A
IF = 11 A
IF = 5.5 A
IF = 11 A
IF = 22 A
IF = 11 A
IF = 5.5 A
20
15
typ.
10
0.2
5
typ.
0
500
0.0
0
100
200
300 A/ms 400
-diF/dt
Fig.15 Recovery time versus -diF/dt
(Fast Diode)
1.4
3.5
1.2
K/W
3.0
ZthJH
IRM
TVJ=100°C
VR= 540 V
max.
tFR
1.0
0
0
100
2.0
0.6
1.5
Fig.16 Peak reverse current versus
-diF/dt (Fast Diode)
Fast Diode
per Rectifier
Diode
QR
0.4
1.0
0.2
0.5
0
40
80
120 °C 160
0.0
0.001
IGBT
0.01
0.1
1
TVJ
Fig.17 Dynamic parameters versus
junction temperature (Fast Diode)
© 2000 IXYS All rights reserved
200
300 A/ms 400
-diF/dt
2.5
0.8
0.0
100 A/ms 1000
-diF/dt
Fig. 13 Recovery charge versus
-diF/dt (Fast Diode)
25
0.4
Fig.14 Peak forward voltage and
recovery time versus -diF/dt
(Fast Diode)
Kf
4
30
A
0.6
2
40
0
V
TVJ=100°C
VR= 540 V
trr
VFR
20
3
Fig. 12 Forward current versus
voltage drop (Fast Diode)
5
60
2
VF
100
V
typ.
0.0
0
1200 V
800
VCE
Fig.11 Reverse biased safe operation
area (IGBT)
0
0.5
5
RG=4.7
IF = 11 A
IF = 22 A
IF = 11 A
IF = 5.5 A
2.0
25
1
TVJ=100°C
VR= 540 V
mC
10
s
100
t
Fig.18 Transient thermal impedance junction to heatsink ZthJH
4-4