TM
ModSTACK
Datasheet: 2B6I 500/800-350W
Preliminary Data
No rotating field,
DC Current at Unit1
IUnit1_DC
-
Aav
%
ϑ=ϑair_inlet,
Overcurrent Shutdown Percentage of IUnit1.
-
Within 15µs
Unit1
Switching Freq. Unit1
Power Losses Unit1
fsw1
Ploss1
-
Hz
W
V=Vunit1_min,
-
I=IUnit1, fsw=fsw1
Depending on
Controller
Voltage Unit2
VUnit2
500
VRMS
cos_ϕUnit2
Displacement factor
Continious Current
Unit2
-0,9
+0,9
2x3x ARMS
350
IUnit2
ϑ=ϑwater_inlet,
ϑchip <= 125°C
fUnit2>5Hz
Both B6I separated
Shorttime Current
Unit2
IUnit2_10
2x3x ARMS
420
ϑwater_inlet<=40°C,
10s, every 180s,
initial load = IUnit2
Sinehalfwave 20ms,
starting from IUnit2.
No rotating field,
Pulse Current Unit2
DC Current at Unit2
IUnit2peak
IUnit2_DC
-
Apeak
ADC
0,4*
IUnit2
ϑ=ϑair_inlet,
Overcurrent Shutdown Percentage of IUnit2.
Unit2
125
%
Within 15µs
Switching Freq. Unit2
fsw2
Ploss2
Ploss_aux
3000
250
Hz
W
W
Power Losses Unit2
Power Losses (PCB
and Capacitor)
Filterresistors at
Output Unit2
I=IUnit2, fsw=fsw2
6400
Applicable for
Sinewavefilters
(damping, optionally)
RFilter
PRFilter
-
-
Ohm
Watt
Auxiliary Voltage
Auxiliary Power
Demand
Vaux
18
24
80
30
Vav
W
Vaux=24 Vav, to feed Paux
with B6U
According
EN61800-3
at named
Power
EMC Test
VBurst
VBurst
VSurge
2
1
1
kV
Control
Aux
(24V)
kV
interfaces
According EN50178
f=50Hz, t=1min
Insulation Test Voltage
Visol
1,8
kVRMS
Important Component Data
DC Link Capacitor
DC Link Capacitor
Capacitor Design
Lifetime
CDC
Type
LTD
18,8
Elcap
-
mF
Loadcycle for: Wind
Loadcycle for: Solar
Year
Year
LTD
-
2B6I500-800-350W.doc
2 of 10
2003-11-11