ModSTACK
Datasheet: 2B6I 500/800-330G M, S
DC Current at Unit1
No rotating field,
ϑ
=
ϑ
air_inlet,
Percentage of
I
Unit1.
Within 15µs
Preliminary Data
-
-
A
av
%
-
-
500
-0,9
550
+0,9
660
Hz
W
V
RMS
A
RMS
I
Unit1_DC
Overcurrent Shutdown
Unit1
Switching Freq. Unit1
Power Losses Unit1
V
=
V
unit1_min,
I
=
I
Unit1, fsw=fsw1
Depending on
Voltage Unit2
Controller
f
sw1
P
loss1
V
Unit2
cos_ϕUnit2
Displacement factor
Continious Current
Unit2
ϑ
=
ϑ
air_inlet,
ϑ
chip <= 125°C
f
Unit2>5Hz
Both B6I connected in
parallel (1U1 ->2U1..)
ϑ
water_inlet<=40°C,
10s, every 180s,
initial load =
I
Unit2
Sinehalfwave 20ms,
starting from
I
Unit2.
No rotating field,
ϑ
=
ϑ
air_inlet,
Percentage of
I
Unit2.
Within 15µs
I=
I
Unit2,
f
sw=
f
sw2
I
Unit2
Shorttime Current
Unit2
Pulse Current Unit2
DC Current at Unit2
Overcurrent Shutdown
Unit2
Switching Freq. Unit2
Power Losses Unit2
Power Losses (PCB
and Capacitor)
Filterresistors at
Output Unit2
Auxiliary Voltage
Auxiliary Power
Demand
EMC Test
I
Unit2_10
792
A
RMS
I
Unit2peak
I
Unit2_DC
125
f
sw2
P
loss2
P
loss_aux
R
Filter
P
RFilter
18
-
0,4*
I
Unit2
A
peak
A
DC
%
3000
5380
350
-
-
24
80
2
1
1
1,8
30
Hz
W
W
Ohm
Watt
V
av
W
kV
kV
kV
RMS
Applicable for
Sinewavefilters
(damping, optionally)
V
aux
V
aux=24
V
av, to feed
P
aux
with B6U
According
EN61800-3
at named
interfaces
Power
Control
Aux
(24V)
Insulation Test Voltage
According EN50178
f=50Hz, t=1min
V
Burst
V
Burst
V
Surge
V
isol
Important Component Data
DC Link Capacitor
DC Link Capacitor
Capacitor Design
Lifetime
Loadcycle for: Wind
Loadcycle for: Solar
C
DC
Type
LT
D
LT
D
2 of 11
18,8
Elcap
-
20
mF
Year
Year
2003-03-17
2B6I500-800-330G.doc