All-in-one Hybrid Storage Unit
4.0/5.0/6.0/8.0/10.0/12.0
TSUN offers an all-in-one Hybrid Storage Unit, which simplifies the whole energy storage system's installation process. The HSU series is composed of an hybrid inverter, battery bank and pre-wired BMS system inside of a modern cabinet, embedded with connection devices and preset cable slot. Simple to install, safe, very reliable, and provides the lowest lifetime energy cost for retrofit customers.
Highlights:
- All-in-one design, no need to match the inverter and battery on site.
- All-in-one design unified after-sale service.
- Overall warranty, professional after sales, quick response.
- Battery with large capacity, up to 15.36kWh capacity.
- Excellent battery supply.
- IEC/EN 62619 certification, much safer for the users.
All-in-one Hybrid Storage Unit System
TECHNICAL DATA
-
Model TSOL-HSU4K-T TSOL-HSU5K-T TSOL-HSU6K-T TSOL-HSU8K-T TSOL-HSU10K-T TSOL-HSU12K-T Max.PV Array Power[Wp]@STC 6400 8000 9600 12800 16000 19200 Max. DC Input Voltage [V] 1000 MPPT Voltage Range [V] 150-850 200-850 Start Voltage [V] 180 Max. DC Input Current[A] 13/13 Max. DC Short Circuit Current[A] 18/18 Number of MPPT 2 No. of Strings per MPPT 1/1 -
Model TSOL-HSU4K-T TSOL-HSU5K-T TSOL-HSU6K-T TSOL-HSU8K-T TSOL-HSU10K-T TSOL-HSU12K-T Battery Type LiFePO4 Battery Capacity per Kit [kWh] 5.12 Battery Voltage per Kit [V] 102.4 Max. Battery Quantities per System 3 (Up to 15.36 kWh) Max. Charging Power [W] 4000 5000 6000 8000 10000 12000 Max. Charging/ Discharging Current [A] 25/25 -
Model TSOL-HSU4K-T TSOL-HSU5K-T TSOL-HSU6K-T TSOL-HSU8K-T TSOL-HSU10K-T TSOL-HSU12K-T Rated Output Power[W] 4000 5000 6000 8000 10000 12000 Max. Output Power [VA] 4400 5500 6600 8800 11000 13200 Max. Output Current [A] 6.7 8.3 10 13.3 16.5 20 Max. Input Apparent Power[VA]* 8000 10000 12000 16000 16500 16500 Rated Output Voltage [V] 230 / 400, 3L/ N/ PE Rated Grid Frequency [Hz] 50/60 Power Factor [cos φ] 0.8 leading~0.8 lagging Total Harmonic Distortion [THDi] <3% -
Model TSOL-HSU4K-T TSOL-HSU5K-T TSOL-HSU6K-T TSOL-HSU8K-T TSOL-HSU10K-T TSOL-HSU12K-T Max. Apparent Output Power [W] 4400 5500 6600 8800 11000 13200 Peak Output Apparent Power per Phase [VA]*** 1600 2100 2600 3300 4000 5000 Rated Output Voltage [V] 230 / 400, 3L/ N/ PE Rated Output Frequency [Hz] 50/60 Total Harmonic Distortion of Voltage <3% Switch Time [ms] <10 Peak Output Apparent Power [VA]** 8000VA, 60sec 10000VA, 60sec 12000VA, 60sec 16000VA, 60sec 20000VA, 60sec 20000VA, 60sec -
Model TSOL-HSU4K-T TSOL-HSU5K-T TSOL-HSU6K-T TSOL-HSU8K-T TSOL-HSU10K-T TSOL-HSU12K-T Max. Efficiency 98.1% 98.2% Euro Efficiency 97.3% 97.4% MPPT Efficiency >99.9% >99.9% Max. Battery Charging/ Discharging Efficiency 97.2% / 97.2% 97.3% / 97.3% -
Model TSOL-HSU4K-T TSOL-HSU5K-T TSOL-HSU6K-T TSOL-HSU8K-T TSOL-HSU10K-T TSOL-HSU12K-T DC Switch Integrated DC Reverse Polarity Protection Integrated AC Short Circuit Protection Integrated Overload Protection Integrated Insulation Resistance Protection Integrated DC Overvoltage/Undervoltage Protection Integrated Surge Protection Integrated Residual Current Protection Integrated AC Overvoltage/Undervoltage Protection Integrated AC Overfrequency/Underfrequency Protection Integrated Over Temperature Protection Integrated Anti-islanding protection Integrated -
Model TSOL-HSU4K-T TSOL-HSU5K-T TSOL-HSU6K-T TSOL-HSU8K-T TSOL-HSU10K-T TSOL-HSU12K-T PV Connection Type MC4 Compatiable Battery Connection Type Quick Connector AC Connection Type Terminal Display LED+OLED Communication port CAN *2/ RS485 *2 Communication Wi-Fi / 4G(Optional) -
Model TSOL-HSU4K-T TSOL-HSU5K-T TSOL-HSU6K-T TSOL-HSU8K-T TSOL-HSU10K-T TSOL-HSU12K-T Topology Transformerless Over Voltage Category PV : II ; Main : III Ingress Protection IP65 Operating Temperature Range -30~+60℃ Ambient Humidity 0~100% Altitude 4000m(>3000m power derating) Noise[dBA] <25 Cooling method Natural Convection
*Max apparent power from the grid means the maximum power imported from the utility grid used to satisfy the backup loads and charge the battery.
**The output power will exceed the rated value only when the power in the PV array is sufficient, and the duration of the overload is relating to the overload power.