10 xZ06NRA069FP03 P967F78x D1 19

10-PZ06NRA069FP03-P967F78Y
10-FZ06NRA069FP03-P967F78
NPC Application
flowNPC 0
600V/60A & 99mΩ PS*
General conditions
BUCK
=
=
=
=
VGEon
VGEoff
Rgon
Rgoff
+ 15 V
- 15 V
8Ω
8Ω
Vout= 230 VAC
Figure 1.
Buck MOSFET
BOOST
=
=
=
=
VGEon
VGEoff
Rgon
Rgoff
15 V
0V
8Ω
8Ω
Figure 2.
Typical average static loss as a function of
of output current IoRMS
Ploss=f(Iout)
Buck FWD
Typical average static loss as a function of
output current IoRMS
Ploss=f(Iout)
Ploss (W)
60
Ploss (W)
70
φ=0º
60
φ=90º
50
50
40
40
30
30
20
20
φ=180º
10
10
φ=180º
0
0
0
10
Conditions:
parameter:
20
30
40
Tj=
φ
125
from
°C
50
60
0°
in
12
70
I out (A)
to
0
80
10
Conditions:
parameter:
180°
20
30
40
Tj=
φ
125
from
°C
steps
0°
in
Buck MOSFET
Figure 3.
50
12
60
70 I (A) 80
out
to
180°
steps
Figure 4.
Typical average static loss as a function of
phase displacement φ
Ploss=f(φ)
Buck FWD
Typical average static loss as a function of
phase displacement φ
Ploss=f(φ)
Ploss (W)
60
Ploss (W)
70
IoutRMS=Imax
60
IoutRMS=Imax
50
50
40
40
30
30
20
20
10
10
IoutRMS=6%Imin
IoutRMS=6% Imax
0
0
0
Conditions:
parameter:
20
40
Tj=
IoRMS
60
80
100
125
from
°C
in steps of
copyright by Vincotech
120
140
5A
10
160
to
180
φ( º )
200
0
Conditions:
parameter:
75 A
A
20
40
Tj=
IoRMS
60
80
100
125
from
°C
in steps of
1
120
140
5A
10
160
to
180
φ( º )
200
75 A
A
Revision: 1
10-PZ06NRA069FP03-P967F78Y
10-FZ06NRA069FP03-P967F78
NPC Application
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Figure 5.
Buck MOSFET
600V/60A & 99mΩ PS*
Figure 6.
Buck FWD
Typical average switching loss as a function of
Typical average switching loss as a function of
phase displacement φ
Ploss=f(φ)
phase displacement φ
Ploss=f(φ)
3,5
Ploss (W)
Ploss (W)
10
IoutRMS=Imax
IoutRMS=Imax
3,0
8
2,5
6
2,0
1,5
4
1,0
IoutRMS=6% Imax
2
0,5
IoutRMS=6% Imax
0,0
0
20
40
80
100
120
Tj=
fsw=
125
20
°C
kHz
DC link=
IoRMS
700
from
V
Conditions:
parameter:
60
140
160
180
φ(
º)
0
200
20
Conditions:
5A
in steps of
10
to
75 A
parameter:
40
60
100
Tj=
fsw=
125
20
°C
kHz
DC link=
IoRMS
700
from
V
A
Figure 7.
80
140
5A
in steps of
Buck MOSFET
120
10
180
φ( º )
to
75 A
Buck FWD
Typical total loss as a function of
phase displacement φ and output current IoRMS
Ploss=f(IoRMS;φ)
75
75
70
P loss (W)
65
60-70
IoutRMS
70
P loss (W)
65
50-60
60
60
55
55
50-60
50
40-50
50
45
45
40-50
40
30-40
40
30-40
35
35
30
20-30
30
20-30
25
25
10-20
20
10-20
20
15
15
15
30
45
60
75
90
10
0-10
10
0-10
0
200
A
Figure 8.
Typical total loss as a function of
phase displacement φ and output current IoRMS
Ploss=f(IoRMS;φ)
160
IoutRMS
0
5
105 120 135 150 165 180
0
15
30
45
60
75
90
5
105 120 135 150 165 180
φ( º )
φ( º )
Conditions:
Tj=
125
°C
DC link=
fsw=
700
20
V
kHz
copyright by Vincotech
Conditions:
2
Tj=
125
°C
DC link=
fsw=
700
20
V
kHz
Revision: 1
10-PZ06NRA069FP03-P967F78Y
10-FZ06NRA069FP03-P967F78
NPC Application
flowNPC 0
Figure 9.
for Buck MOSFET+FWD
600V/60A & 99mΩ PS*
Figure 10.
for Buck MOSFET+FWD
Typical available output current as a function of
phase displacement φ
Typical available output current as a function of
switching frequency fsw
Iout=f(φ)
Iout=f(fsw)
80
Iout (A)
Iout (A)
80
Th=50°C
70
60
Th=50°C
70
60
50
50
Th=100°C
Th=100°C
40
40
30
30
20
20
10
10
0
0
30
60
90
120
150
0
180
1
φ
Tj= Tjmax-25 °C
Conditions:
fsw=
700
V
Heatsink temp.
Th from
50
°C to
in
10
°C
20 kHz
Conditions:
DC link=
parameter:
parameter:
100
steps
Figure 11.
°C
10
fsw (kHz)
Tj= Tjmax-25 °C
DC link=
Heatsink temp.
Th from
in
700
50
10
100
φ= 0 °
V
°C to
°C
100
steps
°C
for Buck IGBT+FWD
Typical available 50Hz output current as a function of
fsw and phase displacement φ
Iout=f(fsw,φ)
180
φ
I out (A)
165
150
36-41
41-46
135
120
105
46-51
51-56
90
75
56-61
60
61-66
45
30
66-71
71-76
15
2
4
8
16
32
64
0
128
fsw (kHz)
Conditions:
Tj= Tjmax-25 °C
DC link=
Th=
copyright by Vincotech
700
80
V
°C
3
Revision: 1
10-PZ06NRA069FP03-P967F78Y
10-FZ06NRA069FP03-P967F78
flowNPC 0
NPC Application
Figure 12.
Boost IGBT
600V/60A & 99mΩ PS*
Figure 13.
Typical average static loss as a function of
output current
Ploss=f(Iout)
Boost FWD
Typical average static loss as a function of
output current
Ploss=f(Iout)
150
Ploss (W)
Ploss (W)
70
φ=0º
60
φ=180º
125
50
100
40
75
30
50
20
25
10
φ=180º
φ=0º
0
0
0
10
20
Conditions:
parameter:
30
40
Tj=
125
°C
φ
from
in
50
60
70
Iout (A)
0
80
10
20
Conditions:
0°
12
to
steps
Figure 14.
180º
parameter:
Boost IGBT
30
Tj=
125
φ
from
in
50
60
70
Iout (A)
80
°C
0°
12
to
steps
180º
Figure 15.
Typical average static loss
as a function of phase displacement
Ploss=f(φ)
Boost FWD
Typical average static loss
as a function of phase displacement
Ploss=f(φ)
FWD D1
150
Ploss (W)
70
IoutRMS=Imax
Ploss (W)
40
60
IoutRMS=Imax
125
50
100
40
75
30
50
20
25
10
IoutRMS=6% Imax
IoutRMS=6% Imax
0
0
0
Conditions:
parameter:
20
40
Tj=
IoRMS
60
80
100
125
from
°C
in steps of
copyright by Vincotech
120
5 A
140
160
to
180
φ( º )
200
0
Conditions:
parameter:
75 A
10 A
20
40
Tj=
IoRMS
60
80
125
from
in steps of
4
100
120
140
160
180
φ( º )
200
°C
5 A
to
75 A
10 A
Revision: 1
10-PZ06NRA069FP03-P967F78Y
10-FZ06NRA069FP03-P967F78
flowNPC 0
NPC Application
Figure 16.
Boost IGBT
600V/60A & 99mΩ PS*
Figure 17.
Typical average switching loss as a function of
phase displacement
Ploss=f(φ)
Boost FWD
Typical average switching loss as a function of
phase displacement
Ploss=f(φ)
30
Ploss (W)
Ploss (W)
40
IoutRMS=Imax
35
IoutRMS=Imax
25
30
20
25
15
20
15
10
10
5
5
IoutRMS=6% Imax
IoutRMS=6% Imax
0
0
20
40
80
100
Tj=
125
°C
DC link=
IoRMS
700
from
V
Conditions:
parameter:
60
in steps of
120
140
160
fsw=
5 A
to
10 A
A
φ(180
º)
0
200
20 kHz
50
Conditions:
75 A
parameter:
100
Tj=
125
°C
DC link=
IoRMS
700
from
V
in steps of
Figure 18.
Boost IGBT
150
φ( º )
fsw=
20 kHz
5 A
to
75 A
10 A
A
Figure 19.
Typical total loss as a function of phase displacement
and IoutRMS
200
Boost FWD
Typical total loss as a function of phase displacement
and IoutRMS
Ploss=f(IoRMS;φ)
Ploss=f(IoRMS;φ)
75
75
70
65
60-75
70
P loss (W)
IoutRMS
P loss (W)
65
150-175
60
60
55
55
125-150
50
45-60
IoutRMS
0
50
100-125
45
45
40
40
75-100
30-45
35
35
30
30
50-75
25
25
15-30
20
20
25-50
15
15
0-25
10
0-15
0
15
30
45
60
75
90
5
105 120 135 150 165 180
10
0
15
30
45
60
75
90
5
105 120 135 150 165 180
φ( º )
φ( º )
Conditions:
Tj=
125
°C
DC link=
fsw=
700
20
V
kHz
copyright by Vincotech
Conditions:
5
Tj=
125
°C
DC link=
fsw=
700
20
V
kHz
Revision: 1
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10-FZ06NRA069FP03-P967F78
NPC Application
flowNPC 0
Figure 20.
Boost IGBT+FWD
600V/60A & 99mΩ PS*
Figure 21.
Typical available output current as a function of
of phase displacement
Iout=f(φ)
Boost IGBT+FWD
Typical available output current
as a function of switching frequency
Iout=f(fsw)
80
Iout (A)
Iout (A)
80
70
70
60
60
Th=50°C
50
50
Th=50°C
40
40
30
30
20
20
Th=100°C
Th=100°C
10
10
0
0
0
30
Conditions:
60
90
120
150
Tj= Tjmax-25 °C
DC link=
700
V
parameter:
Th from
in
fsw=
Heatsink temp.
50
°C to
10
°C
φ( º )
180
1
20 kHz
Conditions:
10
Figure 22.
°C
f sw (kHz)
Tj= Tjmax-25 °C
DC link=
700
V
parameter:
100
steps
100
Th from
in
Heatsink temp.
50
°C to
10
°C
1000
φ= 90°
100
steps
°C
Boost IGBT+FWD
Typical available 50Hz output current as a function of
fsw and phase displacement
Iout=f(fsw,φ)
180
165
I out (A)
φ
150
135
1-16
16-31
120
105
90
31-46
46-61
75
60
45
30
61-76
15
2
4
8
16
32
64
0
128
fsw (kHz)
Conditions:
Tj= Tjmax-25 °C
DC link=
Th=
copyright by Vincotech
700
80
V
°C
6
Revision: 1
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NPC Application
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Figure 23.
per MODULE
Figure 24.
Typical available output current as a function of
heat sink temperature
Iout=f(Th)
per MODULE
Typical available output current
as a function of phase displacement
Iout=f(φ)
80
80
Iout (A)
Iout (A)
600V/60A & 99mΩ PS*
2kHz
70
70
60
60
50
50
40
40
Th=50°C
128kHz
30
30
20
20
10
10
Th=100°C
0
0
60
70
80
90
T h ( o C)
0
100
DC link=
φ=
parameter:
60
Conditions:
700
V
0°
Switching freq.
parameter:
kHz to
128
Figure 25.
120
150
180
Tj= Tjmax-25 °C
DC link=
fsw=
fsw from
2
in steps of factor 2
90
φ
Tj= Tjmax-25 °C
Conditions:
30
kHz
700
V
20
kHz
Heatsink temp.
Th from
in
per MODULE
50
10
°C to
°C
100
steps
Figure 26.
Typical available output current as a function of
switching frequency
Iout=f(fsw)
per MODULE
Typical available 50Hz output current as a function of
fsw and phase displacement
Iout=f(fsw,φ)
180
80
Iout (A)
Th=50°C
φ
I out (A)
165
70
150
0-10
10-20
135
60
120
105
50
20-30
Th=100°C
30-40
90
40
75
60
30
40-50
50-60
45
20
30
60-70
15
70-80
10
2
4
8
16
0
32
64
0
128
f sw (kHz)
1
Conditions:
Tj= Tjmax-25 °C
DC link=
parameter:
Th from
in
f sw (kHz)
10
50
10
copyright by Vincotech
φ=
100
0°
Conditions:
700
V
Heatsink temp.
°C to
°C
Tj= Tjmax-25 °C
DC link=
Th=
700
80
V
°C
100
steps
7
Revision: 1
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NPC Application
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Figure 27.
per MODULE
Figure 28.
Typical efficiency as a function of output power
η=f(Pout)
per MODULE
Typical efficiency as a function of output power
η=f(Pout)
100
efficiency (%)
100,0
efficiency (%)
600V/60A & 99mΩ PS*
99,5
2kHz
99
99,0
φ=0º
98,5
98
128kHz
98,0
φ=180º
97
97,5
97,0
0
5
10
15
96
20
0
5
10
15
20
Pout (kVA)
Pout (kVA)
Conditions:
Tj=
fsw=
125
20
°C
kHz
Conditions:
DC link=
parameter:
700
V
phase displacement
φ
from
0°
in steps of 30 °
Tj=
DC link=
parameter:
to
Figure 29.
°C
V
φ= 0 °
Switching freq.
fsw from
2
kHz to
in steps of factor 2
180 °
per MODULE
125
700
kHz
Figure 30.
per MODULE
Typical available output power as a function of
Typical loss distribution as a function of
heat sink temperature
Pout=f(Th)
output current
Pout=f(Th)
Pout (kW)
128
20
180
160
Loss distribution
2kHz
140
15
BOOST T
Stat.
120
BUCK D
Sw.
100
BUCK D
Stat.
10
80
128kHz
5
BUCK T
Sw.
60
BUCK T
Stat.
40
20
Conditions:
parameter:
Tj= Tjmax-25 °C
DC link=
700
φ=
0
Switching freq.
fsw from
2
kHz to
in steps of factor 2
copyright by Vincotech
75
70
65
60
55
50
45
40
Iout (A)
Conditions:
V
°
128
35
100
30
T h ( o C)
25
90
20
80
15
70
5
60
10
0
0
Tj=
fsw=
125
20
°C
kHz
DC link=
φ=
700
0°
V
kHz
8
Revision: 1
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10-FZ06NRA069FP03-P967F78
NPC Application
flowNPC 0
Figure 31.
Typical relativ loss distribution as a function of
output current
Pout=f(Th)
per MODULE
Figure 32.
600V/60A & 99mΩ PS*
per MODULE
1,0
Loss distribution
0,8
BOOST T
0,6
Stat.
BUCK D
Sw.
BUCK D 0,4
Stat.
BUCK T
Sw.
BUCK T
Stat.
0,2
Tj=
fsw=
DC link=
φ=
125
20
700
0°
75
70
65
60
55
50
45
40
35
30
25
20
15
5
Conditions:
10
0,0
Iout (A)
°C
kHz
V
Cg is included in the module
copyright by Vincotech
9
Revision: 1
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