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10.2 Technical data for Turbo inverter
DC input side (PV generator connection)
Number of DC inputs
Maximum start voltage
Maximum input voltage
Minimum input voltage for grid-feeding
Startup input voltage
Rated input voltage
Minimum input voltage for rated output
MPP voltage
Maximum input current
Rated input current
Maximum input power at maximum output active
power
Rated input power (cos φ = 1)
Derating/power limiting
AC output side (mains grid connection)
Output voltage
(depending on the country setting)
Rated output voltage
Maximum output current
Rated output current
Maximum active power (cos φ = 1)
Maximum active power (cos φ = 0.95)
Maximum apparent power (cos φ = 0.95)
Maximum active power (cos φ = 0.9)
Maximum apparent power (cos φ = 0.9)
Rated output
Rated frequency
Grid type
Grid frequency
Power losses in nighttime operation
Feeding phases
Distortion factor (cos φ = 1)
Power factor cos φ
Characterisation of the operating behaviour
Maximum efficiency
European efficiency
CEC efficiency
MPP efficiency
Efficiency values (at 5%, 10%, 20%, 25%, 30%, 50%,
75%, 100% of the rated power) at rated voltage
Efficiency reduction in case of a rise in ambient
temperature (at temperatures > 40 °C)
Efficiency change in the case of deviation from the
DC rated voltage
Own consumption
Derating at full power
Switch-on power
Switch-off power
Safety
Protection class
Isolation principle
Grid monitoring
Insulation monitoring
Residual current monitoring
Overvoltage protection version
Reverse polarity protection
Turbo 1P Mini
Turbo 1P
1
1
420 V
845V
420 V
845 V
75 V
350 V
90 V
350 V
255 V
540 V
180 V
360 V
75 V ... 350 V
360 V ... 700 V
11.5 A
12 A
8 A
8 A
2050 W
4310 W
2050 W
4310 W
Occurs automatically when:
• input power > max. recommended PV power
• cooling is inadequate
• input current too high
• grid current too high
• internal or external derating
• grid frequency too high (according to country settings)
• limiting signal received via an external interface
• output power is limited (set at the inverter)
185 V ... 276 V
185 V ... 276 V
230 V
230 V
12 A
18.5 A
8.7 A
18.3 A
2000 W
4200 W
2000 W
3990 W
2100 VA
4200 VA
-
-
2000 W
4200 W
50 Hz and 60 Hz
L / N / PE (protective earth
)
45 Hz .., 65 Hz (depending on the country settings)
< 2 W
< 1 W
single-phase
single-phase
< 2 %
< 2%
0.95 capacitive ... 0.95 induc-
0.95 capacitive ... 0.95 induc-
tive
tive
98.0 %
98.6%
97.5 %
98.2%
97.6 %
98.2%
> 99.7% (static),
> 99.7% (static),
> 99% (dynamic)
> 99% (dynamic)
92.8 %, 95.8 %, 97.3 %,
96.2%, 97.6%, 98.3%,
97.5 %, 97.7 %, 97.8 %,
98.3%, 98.3%, 98.2%,
97.7 %, 97. %
97.9%, 97.4%
0.005%/°C
0.002 %/V
< 4 W
< 4 W
from 50 °C (T
)
from 45 °C (T
amb
10 W
5 W
5 W
II
No galvanic isolation; transformerless
Yes, integrated
Yes, integrated
Yes, integrated
1)
Varistors
Yes
18
Turbo 3P1
1
1000 V
1000 V
250 V
250 V
510 V
375V
375 V ... 700 V
11 A
8 A
4100 W
4100 W
320 V ... 480 V
400 V
7 A
3.3 A
4000 W
3800 W
4000 VA
-
3600 W
-
4000 VA
4000 W
L
/ L
/ L
/ N / FE
1
2
3
< 3 W
three-phase
< 1%
0.8 capacitive ... 0.8 induc-
tive
98.6%
98.1%
98.4%
> 99.8% (static),
> 99% (dynamic)
91.0%, 95.5%, 97.5%,
97.9%, 98.1%, 98.4%,
98.6%, 98.3%
< 8 W
)
from 50 °C (T
)
amb
amb
8 W
Turbo 3P2
1
1000 V
1000 V
250 V
250 V
790 V
575 V
575 V ... 700 V
11 A
8 A
6330 W
6330 W
320 V ... 480 V
400 V
10 A
5.2 A
6200 W
5890 W
6200 VA
5580 W
6200 VA
6200 W
L
/ L
/ L
/ N / FE
1
2
3
< 3 W
three-phase
< 1%
0.8 capacitive ... 0.8 induc-
tive
98.7%
98.3%
98.5%
> 99.8% (static),
> 99% (dynamic)
92.6%, 96.5%, 98.2%,
98.3%, 98.5%, 98.6%,
98.5%, 98.2%
< 8 W
from 50 °C (T
)
amb
8 W
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