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01
Atess HPS-150 150KW All-in-One Hybrid Solar Inverter
Product Description
Revolutionize
Your Energy Efficiency and Flexibility
HPS100/150HV Hybrid Inverter
Multiple MPPTs
2 MPPTs to increase the possibility of PV access,improve the power generation efficiency of solar
High Battery Voltoge Range
600-900V battery voltage to expand battery configuration flexibility,improve system efficiency.
High PV Voltage Range
1500V Level PV voltage to reduce the number of PV cables,lower system investment costs
Specification
| HPS150 | |
| AC(on-grid) | |
| Apparent power | 165kVA |
| Rated power | 150kW |
| Rated voltage | 400V |
| Rated current | 217A |
| Voltage range | 360V-440V |
| Rated frequency | 50/60Hz |
| Frequency range | 45~55/55~65Hz |
| THDI | <3% |
| PF | 0.8 lagging~0.8 leading |
| AC connection | 3/N/PE |
| AC input | 240kVA |
| AC(off-grid) | |
| Apparent power | 165kVA |
| Rated power | 150kW |
| Rated voltage | 400V |
| Rated current | 217A |
| 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 | 225kWp |
| PV MPPT voltage range | 480V-800V DC |
| Battery voltage range at Max. charge power |
500V-600V |
| Battery voltage range | 352V-600V |
| Max. charge power | 225kW |
| Max. discharge power | 165kW |
| Max. charge current | 450A |
| Max. discharge current | 467A |
| General Information | |
| Protection degree | IP20 |
| Noise emission | <65dB(A)@1m |
| Operating temperature | -25 °C~+55 °C |
| Cooling method | Forced-air |
| Relative humidity | 0-95% non-condensing |
| Max. altitude | 6000m (derate over 3000m) |
| Dimension (W/H/D) | 1200/1900/800mm |
| Weight | 1230kg |
| Build-in transformer | Yes |
| Lightning protection | Type II |
| Transfer between on/off grid |
Automatic≤10ms |
| Standby consumption | <30W |
| Communication | |
| Display | Touch screen |
| Communication | RS485/CAN |
| Certificate | |
| CE , MEA , PEA , UKCA, AS 4777.2, EN 61000-6-2:2019 , EN 61000-6-4:2019 , 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, PSE:2018-12,DEWA |
|
| * The MPPT voltage of PV strings should be 50~200V higher than the Max battery voltage. | |
Product Display
New Version released
HPS30-150 V2.0
4 units parallel
Up to 4 units parallel, expand the system capacity up to 600kW
Grid export power settable
Solution for export power limitation
Battery charging power settable
Guarantee battery lifespan and uninterrupted power supply
Flexible
Wide input voltage range.
compatible withlead-acid orlithium-ion batteries or other battery.
Grace
Fashion apperance, light weight, smart operation.
Natural cooling, low noise.
P65 , wall mounted design, saving space.
Touch screen LCD.
Reliable
Compatible anti counter flow function.
Battery reverse connect protection
Advanced
Intelligent energy management system for home
Power dispatching and demand side response management.
Distributed virtual power station management
pplication Scenario
Villa;Communication base station;Nomadic area;Farm;Household;Field power supply
Packing & Delivery
Project Cases
Case Study: 150kW Hybrid Grid System:
System Components:
150kW Solar Panels: The power generation source, suitable for a medium-sized factory.
Hybrid Grid Inverter: The core component that manages energy flow. It converts DC power from the solar panels to AC power for use or export, and controls battery charging/discharging.
Batteries: Store excess solar energy for later use, enabling load shifting and potentially grid independence.
Other Installation Materials: Wiring, mounting structures, safety devices, etc.
System Advantages:
Multiple Working Modes (Flexibility): The hybrid inverter allows the customer to customize operation based on factors like time of day, electricity prices, and energy needs.
Selling Electricity: Exporting excess solar power to the grid when prices are favorable or solar generation exceeds demand.
Charging Batteries: Storing solar energy during off-peak hours or periods of low electricity prices.
Higher Benefits: By optimizing energy use and storage, the system reduces electricity bills and potentially generates revenue through grid services, ultimately improving the return on investment.
Project Implementation:
Three-Month Timeline: From procurement to commissioning, indicating efficient project execution.
Successful Operation & Customer Satisfaction: The system is performing as expected, and the customer is pleased with the results, demonstrating the effectiveness of the solution.