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Real time precise MPPT algorithm for max power generation. Wide input voltage operation range. Independent dual MPPT for more flexible design
TSUN provides comprehensive hybrid storage solutions, including PV modules, energy storage systems, batteries, etc., combining power generation and energy storage to achieve higher spontaneous utilization.
TSUN hybrid Inverter for standard battery is compatible with TSUN standard 48V battery pack. It is high matching and strong EPS function, and suitable for new PV systems.
For new photovoltaic systems, hybrid solution is a wise choice to improve energy storage and utilization.
The development trend of renewable energy shows that the price and subsidy of electricity sales are decreasing year by year.
Develop smart grid, require energy self utilization and encourage self-sufficiency.
Realize intelligent energy management, requiring production, consumption and storage of renewable energy.
TSUN hybrid inverters include two types of high efficiency and standard batteries. The standard battery hybrid inverter matches the mainstream low-voltage battery packs on the market and forms an integrated photovoltaic power generation and energy storage system.
Bi-directional energy storage inverter with very general use.
Integrated both on-grid and off-grid function helps users to realize PV generation and energy storage in the same time.
TSUN low voltage hybrid inverter boasts a range a new features, keeping us at the forefront of battery storage technology.
Real time precise MPPT algorithm for max power generation. Wide input voltage operation range. Independent dual MPPT for more flexible design
High efficiency, less maintenance. High frequency isolation between battery & PV/grid. Advanced BMS technology for better battery performance. Low battery voltage, much safer
IP65, suitable for both indoor and outdoor. 4'LCD clear, easy-to-read display. Easy monitoring by mobile phone (APP) & PC (web)
Reactive power capability. Limits AC output when grid frequency/voltage is too high or too low. Built-in anti-reflex function (optional)
During the day, the PV array generates electricity which can be provided either to the loads, fed into the grid or charge the battery, depending on the economics and set-up. The electricity stored can be released when loads requirement during the night, including inductive loads such as air conditioners or refrigerators. Additionally, the power grid can also charge storage devices via the inverter. Hybrid Inverter is equipped with a built-in EPS (Emergency Power Supply) as standard configuration, allowing you to run essential loads like fridges, lights and power points whenever the grid goes down. An all-round intelligent system for maximum energy flexibility.
During the day, the energy generated by the energy storage system is preferentially supplied to the household load (including the load connected to the emergency interface), the excess energy is charged to the battery, and finally the remaining electrical energy flows into the grid.
During the day, the energy generated by the energy storage system is preferentially supplied to the household load (including the load connected to the emergency interface). If the amount of power generation does not satisfy the household load, the power in the battery is released and supplied to the load. If the power is still insufficient, it is provided by the grid.
At night, the energy storage system releases electrical energy to the household load (including the load connected to the emergency interface), and insufficient electrical energy is provided by the grid.
In the event of a power outage, the energy storage system releases electricity in Battery and supplies the load to the emergency power supply.
The energy storage system can use the grid to charge the battery. If the local time-of-use tariffs mode is adopted, the user can choose to charge the battery at the price of the late night.
| Mode | TSOL-H3.0K-S | TSOL-H3.6K-S | TSOL-H4.0K-S | TSOL-H4.6K-SE | TSOL-H5.0K-SE | TSOL-H6.0K-SE | TSOL-H4.6K-S | TSOL-H5.0K-S | TSOL-H6.0K-S |
|---|---|---|---|---|---|---|---|---|---|
| Max. PV Input Power (W) | 4500 | 5400 | 6000 | 6900 | 7500 | 9000 | 6900 | 7500 | 9000 |
| Max. PV Input Voltage (V) | 600 | ||||||||
| Startup Voltage (V) | 120 | ||||||||
| MPP Voltage Range (V) | 90~550 | ||||||||
| No. of MPPTs | 2 | ||||||||
| Max. Number of PV Strings per MPPT | 1 | ||||||||
| Max. PV Input Current (A) | 12.5 | ||||||||
| DC Switch | Integrated | ||||||||
| Mode | TSOL-H3.0K-S | TSOL-H3.6K-S | TSOL-H4.0K-S | TSOL-H4.6K-SE | TSOL-H5.0K-SE | TSOL-H6.0K-SE | TSOL-H4.6K-S | TSOL-H5.0K-S | TSOL-H6.0K-S |
|---|---|---|---|---|---|---|---|---|---|
| Max. AC Output Power (VA) | 3000 | 3680 | 4000 | 4600 | 5000 | 6000 | 4600 | 5000 | 6000 |
| Nominal AC Output Power (VA) | 3000 | 3680 | 4000 | 4600 | 5000 | 6000 | 4600 | 5000 | 6000 |
| Max. AC Output Current (A) | 13.6 | 16.7 | 18.2 | 20.9 | 22.7 | 22.3 | 20.9 | 22.7 | 22.3 |
| Nominal AC Voltage (V)* | L / N / PE , 220 or 230 or 240 | ||||||||
| AC Voltage Range (V)* | 180-280 | ||||||||
| Nominal Frequency (Hz)* | 50 or 60 | ||||||||
| Frequency Range (Hz)* | 45 - 55 or 55 - 65 | ||||||||
| THD | <3% | ||||||||
| Power Factor | 0.8 leading - 0.8 lagging | ||||||||
| Mode | TSOL-H3.0K-S | TSOL-H3.6K-S | TSOL-H4.0K-S | TSOL-H4.6K-SE | TSOL-H5.0K-SE | TSOL-H6.0K-SE | TSOL-H4.6K-S | TSOL-H5.0K-S | TSOL-H6.0K-S |
|---|---|---|---|---|---|---|---|---|---|
| AC Short Circuit Protection | YES | ||||||||
| Overload Protection | YES | ||||||||
| DC OV/UV Protection | YES | ||||||||
| AC OV/UV Protection | YES | ||||||||
| AC OF/UF Protection | YES | ||||||||
| Peak-to-through Period Setting | YES | ||||||||
| Mode | TSOL-H3.0K-S | TSOL-H3.6K-S | TSOL-H4.0K-S | TSOL-H4.6K-SE | TSOL-H5.0K-SE | TSOL-H6.0K-SE | TSOL-H4.6K-S | TSOL-H5.0K-S | TSOL-H6.0K-S |
|---|---|---|---|---|---|---|---|---|---|
| Battery Type | Li-ion Battery | ||||||||
| Battery Voltage (V) | 48 | ||||||||
| Battery Voltage Range (V) | 42 - 58.5 | ||||||||
| Max. Charge / Discharge Current (A) | 60 / 60 | 100 / 100 | |||||||
| Mode | TSOL-H3.0K-S | TSOL-H3.6K-S | TSOL-H4.0K-S | TSOL-H4.6K-SE | TSOL-H5.0K-SE | TSOL-H6.0K-SE | TSOL-H4.6K-S | TSOL-H5.0K-S | TSOL-H6.0K-S |
|---|---|---|---|---|---|---|---|---|---|
| Max. Efficiency / European Efficiency | 97.6% / 97% | ||||||||
| Max. Discharge Efficiency | 94.60% | ||||||||
| Ingress Protection Rating | IP65 | ||||||||
| Operating Ambient Temperature Range (℃) | -25 to +60 (ģ45¥ derating) | ||||||||
| Ambient Humidity | 0 - 100% , non-condesing | ||||||||
| Cooling Method | Natural Convection | ||||||||
| Max. Operating Altitude (m) | 4000 (ģ3000m derating) | ||||||||
| Nosie (dB) | <29 | ||||||||
| Display | LCD | ||||||||
| Communication | WIFI , GPRS , Ethernet | ||||||||
| Dimensions W*H*D (mm) | 470 * 560 * 190 | ||||||||
| Weight (kg) | 25 | ||||||||
| Mode | TSOL-H3.0K-S | TSOL-H3.6K-S | TSOL-H4.0K-S | TSOL-H4.6K-SE | TSOL-H5.0K-SE | TSOL-H6.0K-SE | TSOL-H4.6K-S | TSOL-H5.0K-S | TSOL-H6.0K-S |
|---|---|---|---|---|---|---|---|---|---|
| Norminal Voltage (V) | 220 or 230 or 240 | ||||||||
| Frequency (Hz) | 50 or 60 | ||||||||
| Nominal Output Power | 3000 | 3000 | 3000 | 4600 | 5000 | 5000 | 4600 | 5000 | 5000 |
| Peak Output Apparent Power (VA) | 3600, 10s | 6000, 10s | |||||||