Eaton xStorage Hybrid Inverter: Single-Phase LFP Battery Solutions
All-In-One xStorage ESS (Energy Storage Solution)
Advantages
- 3 Hybrid Inverters: 3.6kW, 5kW & 6kW.
- CATL high performance LFP battery.
- 8KW PV input, 6KW charging and 6KW AC output.
- Modular design: The energy storage system can be expanded by multiple 5.12kWh units, up to 25kWh.
- 6KW 1-phase backup output, on/off grid switching time is less than 20ms.
- EMS included. It is suitable for various applications.
Technical Specifications
Battery Specifications
| Battery Model | XSTHSBP-5.1-16S-100A-F (Battery 5.12kWh with BMS & HF) |
|---|---|
| Physical | |
| Battery type | LFP (LiFePO4) |
| System Weight | 54KG |
| Dimensions in mm (W x H x D) | 540*490*240 |
| IP Protection | IP65 |
| Warranty | 5 Years Product Warranty, 10 Years Performance |
| Electrical | |
| Energy Capacity | 5.12kWh |
| Usable Capacity | 4.6kWh |
| Depth of Discharge (DoD) | 90% |
| Rated Voltage | 51.2V |
| Operating Voltage Range | 44.8-56.5V |
| Internal Resistance | <20mΩ |
| Cycle Life | 10,000 Cycles |
| Operation | |
| Max. Charge/Discharge Current | 50A/80A |
| Rated DC power | 4096W |
| Max. Charge/Discharge Power | 2825W/4096W |
| Operating Temperature Range | -10 to 50 charging, -10 to 50 discharging |
| Humidity | 0~95% (No condensation) |
| BMS | |
| Modules connection | Max.5 |
| Capacity | 100-500Ah |
| Power Consumption | <2W |
| Communication | CAN & RS485 |
| Monitoring Parameters | System voltage, current, cell voltage, cell temperature, PCBA temperature measurement |
| Certificate | |
| Safety (Cell) | Pack: IEC/EN 62619; UN38.3. Cell: IEC/EN 62619; UN38.3; UL1973 |
Hybrid Inverter Specifications
| Hybrid Inverter Model | XTHS1P-3.68K | XSTHS1P-5K | XSTHS1P-6K |
|---|---|---|---|
| PV String Input | |||
| Max. Continuous PV Input Power | 4800W | 6500W | 7500W |
| Max. DC Voltage | 580V | ||
| Nominal Voltage | 400V | ||
| MPPT Voltage Range | 80V-560V | ||
| Start Voltage 1 | 150V | ||
| Number of MPPT | 2 | ||
| Strings Per MPPT | 1 | ||
| Max. Input Current Per MPPT | 15A | 18A | |
| Max. Short-circuit Current Per MPPT | |||
| AC Output (Grid) | |||
| Nominal AC Output Power | 3680W | 5000W | 6000W |
| Max. AC Apparent Power | 3680VA | 5000VA | 6000VA |
| Max. AC Output Power | 3680W | 5000W | 6000W |
| Nominal AC Voltage | 230Vac P/N; 2*120V L1/L2(Norway) | ||
| AC Grid Frequency Range | 50/60Hz±5Hz | ||
| Nominal Output Current | 16A | 22A | 25A |
| Max. Output Current | 16A | 22A | 25A |
| Power Factor (cos φ) | 0.8leading-0.8lagging* | ||
| THDI | <3% | ||
| Battery Input | |||
| Battery Type | LFP (LiFePO4) | ||
| Nominal Battery Voltage | 51.2V | 40-60V | |
| Charging Voltage Range | 40-60V | ||
| Max. Charging Current | 100A | 100A | 100A |
| Max. Discharging Current | 100A | 100A | 100A |
| Battery Capacity | 100/200/300/400/500Ah | ||
| Charging Rate for Li-ion Battery | discharge rate is 0.8C, charge rate is 0.5C | ||
| AC Output (Backup) | |||
| Nominal AC Output Power | 3680W | 4600W | 4600W |
| Max. AC Output Power | 4000VA | 5000VA/4600VA** | 5000VA |
| Peak Output Apparent Power | 6900VA 10sec | 5000VA | 5000VA/4600VA** |
| Max. Output Current | 16A | 20A | 20A |
| Nominal Output Voltage | 230V | ||
| Nominal Output Frequency | 50/60Hz | ||
| Output THDv (@Linear Load) | <3% (Linear Load) | ||
| Efficiency | |||
| Max. PV Efficiency | 97.60% | ||
| Euro. PV Efficiency | 97.00% | ||
| Protection | |||
| DC Switch | Bipolar DC Switch (125A/Pole) | ||
| Anti-islanding Protection | Yes | ||
| Output Over Current Protection | Yes | ||
| DC Reverse Polarity Protection | Yes | ||
| String Fault Detection | Yes | ||
| AC/DC Surge Protection | AC Type III; DC Type II | ||
| Insulation Detection | Yes | ||
| AC Short Circuit Protection | Yes |
General Specifications
| Dimensions WxHxD | 540*590*240mm | ||
|---|---|---|---|
| Weight | 32kg | ||
| Operating Temperature Range | -25~+60 (derating from +45 ) | ||
| Noise (dB) | <35dB | ||
| System Consumption | Standby By PV 8.6W - Standby during the night 11W | ||
| Cooling Type | Natural Convection | ||
| Max. Operation Altitude | 2000m | ||
| Operation Humidity | 0~95% (No Condensation) | ||
| IP Class | IP65 | ||
| Topology | Battery Isolation | ||
| Communication | RS485/CAN2.0/WIFI/4G | ||
| Display | LCD/APP | ||
| Certification | |||
| Certificate | CE | ||
| Environment | ROHS, REACH | ||
| Grid Code Compliance | Refer to the grid compliance list | ||
| Standard | IEC/EN 62109-1&2; IEC/EN61000-6-1; IEC/EN61000-6-2; EN61000-6-3; IEC/EN61000-6- 4;IEC/EN61000-3-11; EN61000-3-12;IEC60529;IEC 60068; IEC61683; IEC62116; IEC61727. |
Configurations and Scalability
All installations can evolve if your needs or your usages change; you can add a battery when you want.
Hybrid Inverter + Pack 5.1
Diagram showing one inverter and one battery module.
Hybrid Inverter + Pack 10.2
Diagram showing one inverter and two battery modules.
Hybrid Inverter + Pack 15.3
Diagram showing one inverter and three battery modules.
Hybrid Inverter + Pack 20.4
Diagram showing one inverter and four battery modules.
Hybrid Inverter + Pack 25.6
Diagram showing one inverter and five battery modules.
Full Sizing and Weight
| Configurations | Description | Dimensions (mm) Width x Height x Depth | Weight (kg) | Width Space of reservation to install, 600mm on both sides. (Space inside walls) |
|---|---|---|---|---|
| XSTHS1P036BP05V1 | XSTS 1P 3.6kW 5kWh V1 | 540 x 1130 x 270 | 94 | 1740 |
| XSTHS1P036BP10V1 | XSTS 1P 3.6kW 10kWh V1 | 540 x 1720 x 270 | 155 | 1740 |
| XSTHS1P036BP15V1 | XSTS 1P 3.6kW 15kWh V1 | 1380 x 1720 x 270 | 216 | 2580 |
| XSTHS1P036BP20V1 | XSTS 1P 3.6kW 20kWh V1 | 1380 x 1720 x 270 | 278 | 2580 |
| XSTHS1P036BP25V1 | XSTS 1P 3.6kW 25kWh V1 | 1380 x 1720 x 270 | 336 | 2580 |
| XSTHS1P050BP05V1 | XSTS 1P 5kW 5kWh V1 | 540 x 1130 x 270 | 94 | 1740 |
| XSTHS1P050BP10V1 | XSTS 1P 5kW 10kWh V1 | 540 x 1720 x 270 | 155 | 1740 |
| XSTHS1P050BP15V1 | XSTS 1P 5kW 15kWh V1 | 1380 x 1720 x 270 | 216 | 2580 |
| XSTHS1P050BP20V1 | XSTS 1P 5kW 20kWh V1 | 1380 x 1720 x 270 | 278 | 2580 |
| XSTHS1P050BP25V1 | XSTS 1P 5kW 25kWh V1 | 1380 x 1720 x 270 | 336 | 2580 |
| XSTHS1P060BP05V1 | XSTS 1P 6kW 5kWh V1 | 540 x 1130 x 270 | 94 | 1740 |
| XSTHS1P060BP10V1 | XSTS 1P 6kW 10kWh V1 | 540 x 1720 x 270 | 155 | 1740 |
| XSTHS1P060BP15V1 | XSTS 1P 6kW 15kWh V1 | 1380 x 1720 x 270 | 216 | 2580 |
| XSTHS1P060BP20V1 | XSTS 1P 6kW 20kWh V1 | 1380 x 1720 x 270 | 278 | 2580 |
| XSTHS1P060BP25V1 | XSTS 1P 6kW 25kWh V1 | 1380 x 1720 x 270 | 336 | 2580 |
Note: The above configurations are given as an indication to obtain the dimensions of the solution to be installed. The item codes cannot be ordered as is. To be able to order the products or obtain more information on these configurations, please contact your sales representative.
xStorage Solar Monitoring
From the latest hardware devices to functional software, Eaton is the right choice for everyone. It meets the requirements of device manufacturers, investors, project developers, EPCs and factory owners etc. Additionally, custom needs can be easily covered by Eaton's modular design. Solar software consists of different products: business and homeowner oriented. Both products are available through a web portal and apps.
Monitoring for Business
A web app and a mobile app, fulfilling the needs of technical professionals, making PV plant management easy, effective, and efficient. Besides visualizing real-time data and analyzing performance indexes, i.e., PR, the product enables comparison among different plants, and comparison between plant's actual generation and weather-based simulation. The expanded performance analysis gives extra meaningful messages for plant management.
Diagram showing a business monitoring dashboard with graphs for AC current fluctuation, DC voltage, and total AC output power.
Monitoring for Homeowners
A web app and a mobile app, follow and visualize production, consumption of the installation, the % of self-consumption and self-generation in real time locally and remotely from the site. Energy management has never been easier.
Diagram showing homeowner monitoring data including total production, self-consumption ratio, and production power trends.
Mounting Steps
Step 1: Positioning and adjusting the bottom support.
Step 2: Placing the Battery on the Bottom support, aligning with stamped bumps.
Step 3: Bracket battery pack mounting.
Step 4: Trace the Bracket Battery on the wall. Requires drilling a $10 hole, approximately 70 mm deep for the wall mounting plate.
Step 5: Attached the battery pack on the wall using the mounting plate.
Step 6: Add the 2nd battery pack*.
Step 7: Inverter Assembly.
Step 8: Final Assembly.
