SUN2000-60KTL-M0 | |
---|---|
Efficiency | |
Max. Efficiency | 98.7% |
European Efficiency | 98.5% |
INPUT DATA | |
Max. Input Voltage 1 |
1,100 V |
Max. Current per MPPT | 22 A |
Max. Short Circuit Current per MPPT | 30 A |
Start Voltage | 200 V |
MPPT Operating Voltage Range 2 | 200 V ~ 1,000 V |
Rated Input Voltage | 600 V |
Number of MPP trackers | 6 |
Max. input number per MPP tracker | 2 |
OUTPUT DATA | |
Rated AC Active Power | 60,000 W |
Max. AC Apparent Power | 63,000 VA |
Rated Output Voltage | 3~NPE 400 V / 230 V |
Rated AC Grid Frequency | 50 Hz / 60 Hz |
Rated Output Current | 86,7A |
Max. Output Current | 95,3A |
Adjustable Power Factor Range | 0.8 leading... 0.8 lagging |
Max. Total Harmonic Distortion | <3% |
Protection | |
Input-side Disconnection Device | Yes |
Anti-islanding Protection | Yes |
AC Overcurrent Protection | Yes |
DC Reverse-polarity Protection | Yes |
PV-array String Fault Monitoring | Yes |
DC Surge Arrester | Type II |
AC Surge Arrester | Type II |
DC Insulation Resistance Detection | Yes |
Residual Current Monitoring Unit | Yes |
Communication | |
Display | LED indicators; Integrated WLAN + FusionSolarAPP |
RS485 | Yes |
Monitoring BUS (MBUS) | Yes (isolation transformer required) |
GENERAL DATA | |
Dimensions (height x width x depth) |
1075 x 555 x 300 mm |
Weight | 74 kg |
Degree of protection | IP 65 |
Night time consumption | < 2 W |
Inverter design | Transformerless |
Cooling | Natural Convection |
Installation | Indoor and outdoor installation |
Ambient temperature range | -25°C to +60°C |
Permitted humidity | 0 % to 100 % |
Max, altitude | 4000 m |
DC connection technology | Amphenol Helios H4 |
AC connection technology | Waterproof PG Terminal + OT/DT Terminal |
Certificates Grid Code |
EN 62109-1/-2, IEC 62109-1/-2, EN 50530, IEC 62116, IEC 60068, IEC 61683 IEC 61727, VDE-AR-N4105, VDE 0126-1-1, BDEW, VDE 4120, UTE C 15-712-1, CEI 0-16, CEI 0-21, RD 661, RD 1699, P.O. 12.3, RD 413, EN-50438-Turkey, EN-50438-Ireland, C10/11 |
1. The maximum input voltage is the upper limit of the DC voltage. Any higher input DC voltage would probably damage inverter.
2. Any DC input voltage beyond the operating voltage range may result in inverter improper operating.
Subject to modifications.