Output inverter application

V23990-P723-F04-PM
final datasheet
V23990-P723-F04-01-19
fastPACK 0 2nd gen, 600V/ 60A
Output inverter application
Phase shifted ZVS,
Vgeon=
15 V
Vgeoff=0V
Rgon=
Figure 1. Typical static loss of shifted switch
as a function of output current
IGBT
Figure 2.
4 ohms
Rgoff=
Typical static loss of shifted switch
as a function of output current
FRED
Ploss=f(Iout)
120
60
100
50
Ploss=f(Iout)
40
80
Phaseshift=1
Phaseshift=0
60
30
40
20
20
10
Phaseshift=0,1
Phaseshift=0,9
0
0
0
10
Conditions:
Phaseshift
parameter
20
30
40
50
60
0
70
Tj=125°C
Phaseshift from 0,10 to
in 0,10 steps
IGBT
10
20
Conditions:
Phaseshift
parameter
1,00
Figure 3. Typical switching loss
as a function of output current
Figure 4.
30
40
50
100,0
90,0
60
70
Tj=125°C
Phaseshift from 0,00 to
in 0,10 steps
0,90
Typical available output current
as a function of switching frequency
Phase
Ploss=f(Iout)
Iout (A)
Ploss (W)
2 ohms
Iout=f(fsw)
60
50
Th=60°C
80,0
70,0
40
80kHz
60,0
50,0
30
40,0
20
30,0
20,0
10
Th=100°C
10,0
10kHz
0,0
0
0
10
20
30
40
Conditions:
Tj=125C
Ioutpk/Iout=
1,3 DC link=
Phaseshift=
1
Switching freq.
fsw from
parameter
in
Copyright by Vincotech
50
60
70
Iout (A)
10
Conditions:
Ioutpk/Iout=
Phaseshift=
Heatsink temp.
parameter
300 V
10 kHz to
* 2 steps
80 kHz
1
100
1,3
1
Tj=125C
DC link=
Th from
in
fsw (kHz)
1000
300 V
60 °C to 100 °C
5 °C
steps
Revision: 1
V23990-P723-F04-PM
final datasheet
V23990-P723-F04-01-19
fastPACK 0 2nd gen, 600V/ 60A
Output inverter application
Phase shifted ZVS,
Vgeon=
15 V
Vgeoff=0V
Figure 5. Typical available electric
peak output power as a
function of heatsink temperature
Inverter
Rgon=
Figure 6.
4 ohms
Rgoff=
Typical efficiency
as a function of output power
Inverter
efficiency (%)
Pout=f(Th)
18,0
16,0
2 ohms
efficiency=f(Pout)
100,0
99,5
99,0
14,0
98,5
12,0
10kHz
98,0
10,0
10kHz
97,5
8,0
97,0
6,0
96,5
80kHz
4,0
96,0
2,0
80kHz
95,5
0,0
95,0
0
20
Conditions:
Ioutpk/Iout=
Phaseshift=
Switching freq.
parameter
40
1,3
1
60
Tj=125C
DC link=
fsw from
in
Copyright by Vincotech
80
100
120
0
4
Conditions:
Ioutpk/Iout=
Phaseshift=
300 V
10 kHz to
* 2 steps
2
80 kHz
Switching freq.
parameter
2
6
1,3
1
8
10
Tj=125C
DC link=
fsw from
in
12
14
16
18
Pout (kW)
300 V
10 kHz to
* 2 steps
80 kHz
Revision: 1
V23990-P723-F04-PM
final datasheet
V23990-P723-F04-01-19
fastPACK 0 2nd gen, 600V/ 60A
Switching definitions
General conditions:
Figure 1.
Tj=
125 °C
Rgon=
Turn-off Switching Waveforms &
definition of tdoff, tEoff
(tEoff = integrating time for Eoff)
Output inverter IGBT
Figure 2.
4 ohms
Rgoff=
2,0 ohms
Turn-on Switching Waveforms &
definition of tdon, tEon
(tEon = integrating time for Eon)
Output inverter IGBT
320
140
tdoff
280
120
100
80
240
Ic
Uce
Uce 90%
Uge 90%
200
Ic
60
%160
Uge
%
40
120
tEoff
20
Ic 1%
80
0
tdon
40
Uce
Uge
Uge10%
-20
-40
-0,2
-0,1
0
Uge(0%)=
Uge(100%)=
Uc(100%)=
Ic(100%)=
tdoff=
tEoff=
Figure 3.
0,1
0,2
0,3
time (us)
0
15
400
60
0,21
0,34
0,4
0,5
0,6
tEon
-40
2,95
0,7
V
V
V
A
us
us
3
Uge(0%)=
Uge(100%)=
Uc(100%)=
Ic(100%)=
tdon=
tEon=
Turn-off Switching Waveforms &
definition of tf
Output inverter IGBT
Figure 4.
140
Uce3%
Ic10%
0
3,05
0
15
400
59,7
0,02
0,12
3,1
time(us)
3,15
3,2
3,25
V
V
V
A
us
us
Turn-on Switching Waveforms &
definition of tr
Output inverter IGBT
300
Uce
Ic
260
120
fitted
220
100
Uce
Ic 90%
180
80
% 60
Ic 60%
% 140
40
Ic 40%
100
60
20
Ic
Ic10%
20
0
tf
-20
-0,1
Ic90%
tr
0
0,1
0,2
0,3
0,4
time (us)
Uc(100%)=
400 V
Ic(100%)=
60 A
tf= 0,012 us
Copyright by Vincotech
Ic10%
-20
2,95 2,97 2,99 3,01 3,03 3,05 3,07 3,09 3,11 3,13 3,15 3,17
time(us)
Uc(100%)= 400 V
Ic(100%)= 59,7 A
tr= 0,016 us
3
Revision: 1
V23990-P723-F04-PM
final datasheet
V23990-P723-F04-01-19
fastPACK 0 2nd gen, 600V/ 60A
Switching definitions
General conditions:
Tj=
125 °C
Rgon=
4 ohms
Rgoff=
2,0 ohms
Switching definitions
Figure 5.
Turn-off Switching Waveforms &
definition of tEoff
Output inverter IGBT
Figure 6.
120
Turn-on Switching Waveforms &
definition of tEon
Output inverter IGBT
220
Eoff
100
180
80
Eon
Pon
Poff
140
60
%
100
%
40
60
20
20
0
Uce3%
Uge10%
tEon
Uge90%
Ic 1%
tEoff
-20
-20
-0,2
-0,1
0
0,1
0,2
time (us)
0,3
0,4
0,5
2,9
0,6
3
Poff(100%)= 23,88 kW
Eoff(100%)= 0,97 mJ
tEoff= 0,34 us
Pon(100%)=
Eon(100%)=
tEon=
Figure 7. Gate voltage vs Gate charge
Figure 8.
Output inverter IGBT
20
120
15
80
3,1
time(us)
3,2
3,3
23,9 kW
1,11 mJ
0,12 us
Turn-off Switching Waveforms &
definition of trr
Output inverter FRED
Id
trr
40
10
Uge (V)
0
5
Ud
IRRM10%
% -40
0
-80
-5
-120
IRRM90%
-10
-160
-15
-100
-200
IRRM100%
fitted
0
100
200
300
2,8
400
2,9
3
3,1
Qg (nC)
Ugeoff=
0
Ugeon=
15
Uc(100%)=
400
Ic(100%)=
60
Qg= 328,7
V
V
V
A
nC
Copyright by Vincotech
Ud(100%)=
Id(100%)=
IRRM(100%)=
trr=
4
400
59,7
100
0,13
3,2
time(us)
3,3
3,4
3,5
3,6
V
A
A
us
Revision: 1
V23990-P723-F04-PM
final datasheet
V23990-P723-F04-01-19
fastPACK 0 2nd gen, 600V/ 60A
Switching definitions
General conditions:
Tj=
125 °C
Rgon=
4 ohms
Rgoff=
2,0 ohms
Switching definitions
Figure 9.
Turn-on Switching Waveforms &
definition of tQrr
(tQrr= integrating time for Qrr)
Output inverter FRED
Figure 10.
Turn-on Switching Waveforms &
definition of tErec
(tErec= integrating time for Erec)
Output inverter FRED
180
200
150
Erec
140
100
Qrr
Id
50
tErec
100
tQint
%
% 0
60
-50
-100
Prec
20
-150
-20
-200
2,8
3
3,2
time(us)
3,4
2,8
3,6
Id(100%)=
60 A
Qrr(100%)= 4,492 uC
tQint= 0,27 us
Copyright by Vincotech
3
Prec(100%)=
Erec(100%)=
tErec=
5
3,2
time(us)
3,4
3,6
23,9 kW
1,32 mJ
0,27 us
Revision: 1