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Atess - Hybrid Inverter - HPS 30 - 30KW
· All-in-one hybrid inverter
Battery, load, grid, solar connection all supported
· Programmable working mode
Peak-shaving, back-up, use the system however you want it
· Scalable design
Quadruple capacity by paralleling 4 units
· Hot back-up
One inverter fails in parallel system, the other(s) takes over seamlessly.
· Touchscreen LCD
More convenient for parameter setting and maintenance
· Seamless transfer
Uninterruptable power supply guaranteed
· Dry contact output
Supports remote control of DG
| AC (Grid-connected) | |
| Apparent power | 33kVA |
| Rated power | 30kW |
| Rated voltage | 400V |
| Rated current | 43A |
| Voltage range | 360V - 440V |
| Rated frequency | 50/60Hz |
| Frequency range | 45~55/55~65Hz |
| THDI | <3% |
| PF | 0.8lagging~0.8leading |
| AC connection | 3/N/PE |
| AC input | 60kVA |
| AC(Off-grid) | |
| Apparent power | 33kVA |
| Rated power | 30kW |
| Rated voltage | 400V |
| Rated current | 43A |
| THDU | ≤2%linear |
| Rated frequency | 50/60Hz |
| Overload capability | 110%-10 mins 120%-1 min |
| DC (Battery and PV) | |
| Max. PV open-circuit voltage | 1000V DC |
| Max. PV power | 45kWp |
| PV MPPT voltage range | 480V-800V DC |
| Battery voltage range | 450V-600V |
| Battery voltage range | 352-600V |
| Max. charge power | 45kW |
| Max. discharge power | 33kW |
| Max. charge current | 100A |
| Max. discharge current | 93A |
| General Information | |
| Protection degree | IP20 |
| Noise emission | <65dB(A)@1m |
| Operating temperature | -25 °C~+55 °C |
| Cooling | Forced-air |
| Relative humidity | 0-95% non-condensing |
| Maximum altitude | 6000m (derate over 3000m) |
| Dimension (W/H/D) | 700/1660/600mm |
| Weight | 355kg |
| Build-in transformer | Yes |
| Transfer between on/off | grid Automatic≤10ms |
| Standby consumption | <30W |
| Communication | |
| Display | Touch screen |
| Communication | RS485/CAN |
Certificate CE , MEA , PEA , AS 4777.2,EN 61000-6-4:2007+A1:2011 , EN61000-6-2:2005 , EN62109-1:2010 , EN62109-2:2011 , EN 50549-1:2019 , IEC62109.1 , IEC62109.2, NRS 097-2-1:2017, G99, VDE-AR-N 4105:2018,DIN VDE V 0124-100:2020-06
* Battery voltage is determined by the following equation: Vmin = 352 x Vn/V1 , VMax= (Vmpp - 100)*Vn/V2 , VMax<600VDC
V1 is battery cell discharge cut-off voltage, V2 is battery cell boost charge voltage, Vn is battery cell nominal voltage.
