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VUM 24-05
Power MOSFET Stage for Boost Converters
Module for Power Factor Correction
VRRM (Diode) V 600 VDSS V 500 VUM 24-05N Type
5 13 278 46
ID25 = 35 A VDSS = 500 V RDS(on) = 0.12 W
1 2 34
Symbol VDSS VDGR VGS ID ID IDM PD IS ISM VRRM IdAV IFSM
MOSFET
Test Conditions TVJ = 25C to 150C TVJ = 25C to 150C; RGS = 10 kW Continuous TS = 85C TS = 25C TS = 25C, tp = x TS = 85C VGS = 0 V, TS = 25C VGS = 0 V, TS = 25C, tp = x TS = 85C, rectangular d = 0.5 TVJ = 45C, t = 10 ms (50 Hz) t = 8.3 ms (60 Hz) TVJ = 150C, t = 10 ms (50 Hz) t = 8.3 ms (60 Hz) TS = 85C TS = 85C, sinus 180 TVJ = 45C, t = 10 ms (50 Hz) t = 8.3 ms (60 Hz) TVJ = 150C, t = 10 ms (50 Hz) t = 8.3 ms (60 Hz) TS = 85C
Maximum Ratings 500 500 20 24 35 95 170 24 95 600 40 300 320 260 280 36 800 40 300 320 260 280 33 -40...+150 150 -40...+150 V V V A A A W A A V A A A A A
q
5
6
78
Features
q q
q q q
q q
Package with DCB ceramic base plate Soldering connections for PCB mounting Isolation voltage 3600 V~ Low RDS(on) HDMOSTM process Low package inductance for high speed switching Ultrafast boost diode Kelvin source for easy drive
Boost Diode
Applications
q
P VRRM IdAV IFSM
W
q
Power factor pre-conditioner for SMPS, UPS, battery chargers and inverters Boost topology for SMPS including 1~ rectifier bridge Power supply for welding equipment
Rectifier Diodes
V A Advantages A A A A W C C C V~ V~
q q q q q q
P TVJ TJM Tstg VISOL Md Weight
q
3 functions in one package Output power up to 5 kW No external isolation Easy to mount with two screws Suitable for wave soldering High temperature and power cycling capability Fits easiliy to all available PFC controller ICs
Module
50/60 Hz IISOL 1 mA Mounting torque (M5)
t = 1 min t=1s
3000 3600
2-2.5/18-22 Nm/lb.in. 28 g
x Pulse width limited by TVJ IXYS reserves the right to change limits, test conditions and dimensions.
(c) 2000 IXYS All rights reserved
1-4
VUM 24-05
Symbol Test Conditions Characteristic Values (TVJ = 25C, unless otherwise specified) min. typ. max. 500 2 V V nA
150 350
A
300 250 IFSM 200
V = 0.8V
R
RRM
VDSS VGS(th) IGSS IDSS RDS(on) RGint gfs VDS td(on) td(off) Ciss Coss Crss Qg RthJS VF IR
Boost Diode
VGS = 0 V, ID = 2 mA VDS = 20 V, ID = 20 mA VGS = 20 V, VDS = 0 V VDS = 500 V, VGS = 0 V TVJ = 25C TVJ = 25C VDS = 15 V, IDS = 24 A, IDS = 12 A VGS = 0 V
5 500 2 0.12 1.5 30 1.5 100 220 8.5 0.9 0.3 350
TVJ= 45C
mA W W S V ns ns nF nF nF
100 50 0 0.001 TVJ= 125C
MOSFET
0.01 t
0.1
s
1
VDS = 250 V, IDS = 12 A, VGS = 10 V Zgen. = 1 W, L-load
Fig. 1 Non-repetitive peak surge current (Rectifier Diodes)
VDS = 25 V, f = 1 MHz, VGS = 0 V VDS = 250 V, ID = 12 A, IF VR VR = 22 A; TVJ = 25C TVJ =150C VGS = 10 V
500
A2s
400
nC 0.38 K/W 1.65 1.4 1.5 0.25 7 V V mA mA mA
I2t
300 TVJ= 45C 200
= 600 V, TVJ = 25C = 480 V, TVJ = 25C TVJ =125C
100
TVJ= 125C
VT0 rT IRM RthJS VF
For power-loss calculations only TVJ = 125C IF VR = 30 A; -diF/dt = 240 A/ms = 350 V, TVJ = 100C 10
1.14 V 10 mW
0 1 t ms 10
11
A
Fig. 2 I2t for fusing (Rectifier Diodes)
1.8 K/W IF
Rectifier Diodes
= 20 A,
TVJ = 25C TVJ =125C
1.4 1.4 0.25 2
V V mA mA
Dimensions in mm (1 mm = 0.0394")
IR VT0 rT RthJS
VR VR
= 800 V TVJ = 25C = 640 V, TVJ =125C
For power-loss calculations only TVJ = 125C
1.05 V 16 mW 2 K/W
(c) 2000 IXYS All rights reserved
2-4
VUM 24-05
80 A 70 60 ID 50 40 30 20 10 0 0 2 4 VDS 6
10 V 7V 6V
80 A 70 60 ID 50 40 TVJ = 25C TVJ = 125C
2.5
RDS(on) ID=18A
2.0 norm. 1.5
VGS= 5 V
30 20
1.0
0.5 10 0 8 V 10 2 3 4 VGS 5 6 V7 0.0 -50
0 TVJ
50
100 C 150
Fig. 3 Typ. output characteristic ID = f (VDS) (MOSFET)
1.4 BVDSS VGS(th) 1.2 VGS(th) VDSS
Fig. 4 Typ. transfer characteristics ID = f (VGS) (MOSFET)
12 V 10 8 VDS= 250 V ID = 18 A IG = 10 mA 6
Fig. 5 Typ. normalized RDS(on) = f (TVJ) (MOSFET)
100 nF
10 C
Ciss
1.0 norm. 0.8
VGS
Coss 4 1
0.6
2 0 0 100 200 Qg 300 nC 400 0.1 0 5 10 VDS 15
Crss
0.4 -50
0 TVJ
50
100 C 150
V
20
Fig. 6 Typ. normalized BVDSS = f (TVJ) VGS(th) = f (TVJ) (MOSFET)
80 s 60
gfs
Fig. 7 Typ. turn-on gate charge characteristics, VGS = f (Qg) (MOSFET)
120 A 100 80 IF 60 40 TVJ=150C TVJ=100C TVJ= 25C
Fig. 8 Typ. capacitances C = f (VDS), f = 1 MHz (MOSFET)
3.0 C 2.5 Qrr 2.0 1.5 1.0 0.5 typ. 0.0 10 TVJ=100C VR= 350 V max. IF = 37 A IF = 74 A IF = 37 A IF = 18.5 A
40
20
20
0 0 20 40 60
ID
80 A 100
0 0.5
1.0
1.5 VF
2.0 V 2.5
100 -diF/dt
A/ms 1000
Fig. 9 Typ. transconductance, gfs = f (ID) (MOSFET)
Fig. 10 Forward current versus voltage drop (Boost Diode)
Fig. 11 Recovery charge versus -diF/dt (Boost Diode)
(c) 2000 IXYS All rights reserved
3-4
VUM 24-05
50 A TVJ=100C VR= 350 V 40 IRM 30 IF = 37 A IF = 74 A IF = 37 A IF = 18.5 A 20 typ. max. Kt
1.4
0.6
s
1.2 trr 1.0 IRM 0.8 0.2 Qr 0.1 0.3 0.5 0.4
TVJ=100C VR= 350 V
max.
IF = 37 A IF = 74 A IF = 37 A IF = 18.5 A
10
0.6
typ. 0 0 100 200 300 400 -diF/dt
A/ms 500 600
0.4 20
0.0 40 60 80 100 120 140 160 C TVJ TJ 0 100 200 300 400 A/ms 600 500 -diF/dt
Fig. 12 Peak reverse current versus -diF/dt (Boost Diode)
Fig. 13 Dynamic parameters versus junction temperature (Boost Diode)
Fig. 14 Recovery time versus -diF/dt (Boost Diode)
18 V 16 14 VFR 12 10 8 6 4 2 0 100 200 tFR
0.9
ms
0.7 VFR 0.5
8 kW TS =85C 7 6 Pout 5 4
7 kW TS =85C 6 Vin = 230 V/50 Hz Pout 4 3 5 fc = 40 kHz
3 Vin = 115 V/60 Hz 0.3 tFR 0.1 300 400 A/ms 600 500 diF/dt 2 1 0 0 20 40 60 80 fc 100 120 kHz 2 fc = 80 kHz 1 0 0 50 100
Fig. 15 Peak forward voltage versus -diF/dt (Boost Diode)
6
kW
Fig. 16 Output power versus carrier frequency (Module)
2.5 K/W
Fig. 17 Output power versus mains voltage
150 Vin (RMS)
V 200
250
VUM 24
5 4
Pout
fc = 80 kHz Vin = 230 V/50 Hz
2.0 ZthJC 1.5 Rectifier Diodes Boost Diode
3
Vin = 115 V/60 Hz 1.0
2 1 0 40
0.5 MOSFET
60
80
TS
100 C 120
0.0 0.01
0.1
1 t
s
10
Fig. 18 Output power versus heatsink temperature (Module)
Fig. 19 Transient thermal impedance junction to case for all devices
(c) 2000 IXYS All rights reserved
4-4

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