PEI10K-3P IP65 high voltage 3 phase solar power inverter 10kw
Hybrid Solar Inverter | 10KW | IP65 | Battery: 125VDC - 600VDC | Max. PV: 15000W | 3 Phase
Prostar PEI10K-3P IP65 high voltage 3 phase solar power inverter 10kw is ideal for a wide range of applications, including residential solar power systems, commercial installations, and industrial facilities. Its high voltage capability, robust design, and versatile features make it the perfect choice for users looking to maximize their energy efficiency while ensuring long-term reliability.
The high voltage 10kw 3 phase solar inverter supports programmable operation modes, including on-grid, off-grid, and UPS (Uninterruptible Power Supply) modes, providing versatility for different energy scenarios.
Designed to work seamlessly with lithium batteries, this 10kw 3 phase solar inverter provides a safe and efficient means to store and utilize renewable energy. It supports the latest battery technology, making it ideal for modern solar systems.
3 Phase Solar Power Inverter 10KW Features
Self-Consumption and Grid Feed-In
The hybrid solar inverter allows for both self-consumption and feeding excess energy back into the grid, ensuring optimal use of solar power generated.
Load Prioritization
Allows users to set priorities for different loads, ensuring critical appliances receive power first during low battery conditions.
Programmable Supply Priority
Users can program the inverter to prioritize power supply from either the battery or the grid, based on specific energy needs and preferences.
100% Three-Phase Unbalanced Output
The 3 phase solar power inverter is capable of providing a fully balanced three-phase output, even when the loads are unbalanced. This ensures optimal performance and efficiency across all three phases, making it suitable for a variety of applications, including industrial and commercial settings.
On/Off-Grid Capability
This inverter seamlessly operates in both on-grid and off-grid conditions, providing reliable energy management in various situations.
High Battery Voltage for Lithium Batteries
Optimized for high battery voltage systems, especially lithium batteries, the inverter ensures efficient energy storage and usage.
Peak Shaving
Support peak shaving, allowing users to reduce energy costs by managing and minimizing peak demand charges.
IP65 Protection
With its IP65-rated enclosure, the 3 phase solar power inverter is resistant to dust, water, and other environmental factors, making it suitable for both indoor and outdoor installations.
Efficient Cooling System
The inverter’s advanced cooling system ensures optimal performance and longevity, even under high load conditions.
Hybrid Solar Inverter Diagram
Hybrid Inverter Overviews
LCD Display
CT Sensor Connection
Connecting a Current Transformer (CT) sensor to an IP65 3-phase hybrid solar inverter is an important step for accurately measuring the current flowing through the system, which in turn allows for precise energy management and monitoring.
Ensure that the CT connected to the live wire of Phase 1 is connected to CT1 input on the inverter, CT for Phase 2 to CT2, and CT for Phase 3 to CT3.
Energy Meter Installation Wiring Diagram
#1. CHINT Meter Wiring
#2. Eastron Meter Wiring
Benefits of IP65 Hybrid PV Inverters
Cost Savings
Lower your energy bills by maximizing your use of free solar energy and selling excess electricity back to the grid.
Energy Independence
By efficiently managing various power sources, IP65 hybrid power inverter can contribute to energy independence. Users can reduce their reliance on the grid, lower energy costs, and achieve a more sustainable lifestyle.
Environmental Impact
Utilizing renewable energy sources in conjunction with IP65 hybrid power inverters reduces carbon emissions and minimizes the environmental footprint of energy consumption.
Reliability
Enjoy a stable power supply even during power outages, thanks to battery backup and grid tie capabilities.
The Articles You may Like
- How Lithium Battery for Solar Systems Transforms Energy Use
- Choosing the Right Uninterruptible Power Source for Your Home or Business
- A Step-by-Step Guide to UPS Sizing Based on Motor Load Calculation
- Protect Your Infrastructure: Online UPS Benefits
- Understanding Split Phase vs 3 Phase Power Systems
- Solar inverter – Wikipedia
| Model | PEI10K-3P |
| PHASE | 3-phase in/ 3-phase out |
| Max. PV INPUT POWER | 15000W |
| Rated Output Power | 10KW |
| Parallel Function | up to 2 units |
| Dimension, D x W x H (mm) | 560x530x220 |
| Net weight (kgs) | 32 |
| PV INPUT (DC) | |
| Nominal DC Voltage/Max. DC Voltage | 600VDC / 1000VDC |
| Start-up Voltage | 125VDC |
| MPPT Voltage Range | 180VDC~850VDC |
| Full Power MPPT Voltage Range | 430VDC~850VDC |
| Max. DC INPUT Current | 18A/18A |
| Max. DC Short-circuit Current | 25A/25A |
| No. of MPPT Trackers | 2 |
| No. of String per MPPT Tracker | 1/1 |
| GRID OUTPUT (AC) | |
| Rated Output Power | 10KW |
| Max. AC Output Power | 11KW |
| Nominal Output Voltage | 380/400/415VAC |
| Output Frequency | 50Hz / 60Hz |
| Max. Apparent Power from Grid | 22.0KVA |
| Max. Apparent Current from Grid | 31.8A |
| Nominal AC Output Current | 14.4A |
| Max. AC Output Current | 15.9A |
| Power Factor | 1 (0.8 leading ~ 0.8 lagging) |
| Total Harmonic Distortion(THDi) | < 3% |
| AC Grid Tie | 3P+N+PE |
| EPS OUTPUT (AC) | |
| Rated Output Power | 10KW |
| Max. Apparent Power | 11KVA |
| Nominal Output Voltage | 380/400/415VAC |
| Output Frequency | 50Hz / 60Hz |
| Rated Output Current | 14.4A |
| Max. Output Current | 15.9A |
| Total Harmonic Distortion(THDu) | <2% |
| EFFICIENCY | |
| Max. Efficiency (DC/AC) | 98.0% |
| Euro Efficiency | 97.5% |
| MPPT Efficiency | 99.9% |
| BATTERY & CHARGER | |
| Battery Type | Lead-acid or Lithium-ion |
| Nominal DC Voltage | 125VDC – 600VDC |
| Working Voltage Range | 150VDC – 550VDC |
| Max. Charging/Discharging Power | 11KW |
| Rated Charging/Discharging Current | 40A |
| Max. Charging/Discharging Current | 50A |
| Min. Full Power Voltage @EPS | 260V |
| Charging Curve | 3 Stages / Equalization |
| Charging Strategy for Li-battery | Self-adaption to BMS |
| PROTECTION | |
| Protection | Island protection / PV reverse polarity protection / Battery reverse polarity protection / Insulation monitoring / Residual current monitoring / AC over current protection / AC over power protection / Back-up output short circuit protection / Short circuit protection / Insulation resistor detection |
| INTERFACE | |
| HMI | LCD, APP |
| BMS | CAN |
| EMS/Meter | RS485/RS485 |
| WiFi | Yes |
| ENVIRONMENT | |
| Operating Temperature | -25°C to 60°C |
| Relative Humidity | 0 ~95%(non-condensing) |
| Altitude | 2000m (>2000 derating) |
| Cooling | Natural |
| Noise | < 35dB |
| Protection Degree | IP65 |
| Installation Style | Wall-mounted |
| CERTIFICATION STANDARDS | |
| Grid Regulation | Europe: EN 50549-1:2019/AC:2019, Poland:EN50549-1:2019/Rfg:2016/NC Rfg:2018/PTPiREE:2021, Germany:VDE-AR-N 4105:2018 /DIN VDE V 0124-100(VDE V 0124-100):2020, South Africa: NRS 097-2-1:2017 Edition 2.1, UK:G98/G99/1-6:2022, Spain: UNE217001:2020 /UNE217002:2020/NTS V2.1:2021-07, IEC61727:2004/IEC62116:2014/IEC61683:1999, Hungary:EN50549-1:2019/RFG:2016 Italy: CEI0-21 |
| Safety EMC / Standard | IEC/EN 61000-6-1:2019, IEC/EN 61000-6-2:2019, IEC/EN 61000-6-3:2021, IEN/EN 61000-6-4:2019, IEC/EN 61000-3-2:2019/A1:2021, EN 61000-3-3:2013/A2:2021, IEC/EN 61000-3-11:2019, EN 61000-3-12:2011, IEC/EN62109-1:2010, IEC/EN62109-2:2011 |
Download Brochure
Chat Via WhatsApp
Scan below QR code to Talk with Mr. Orson directly!
