SBR096/128/160/192/224/256
High Voltage LFP Battery (New)
SUNGROW – Clean power for all
HIGH-PERFORMANCE
- 100% usable energy
- 30 A continuous charging and discharging current
SAFETY
- Lithium iron phosphate battery
- Multi-stages protection design and rigorous safety certification
FLEXIBILITY
- Extendable during lifetime!
- Support 3-8 modules per unit, max. 4 units in parallel, 9-100 kWh capacity range
EASY INSTALLATION
- Compact and light, single person installation
- Plug and Play, wiring-less connection between modules
- Seamless integration with hybrid inverter
Technical Specifications
| Type designation | SBR096 | SBR128 | SBR160 | SBR192 | SBR224 | SBR256 |
|---|---|---|---|---|---|---|
| Technical properties | 3 modules | 4 modules | 5 modules | 6 modules | 7 modules | 8 modules |
| System Data | ||||||
| Battery type | LiFePO4 (Lithium Iron Phosphate Battery/LFP) prismatic cell | |||||
| Battery module | 3.2kWh, 33kg, 625*130*330 mm (W*H*D without handle) | |||||
| Energy (usable) 2 | 9.6 kWh | 12.8 kWh | 16 kWh | 19.2 kWh | 22.4 kWh | 25.6 kWh |
| Nominal voltage | 192 V | 256 V | 320 V | 384 V | 448 V | 512 V |
| Operating voltage | 168-219 V | 224-292 V | 280-365 V | 336-438 V | 392-511 V | 448-584 V |
| Max. charging/discharging current: continuous | 30 A | |||||
| Max. charging/discharging current: 10 s pulse | 42 A | |||||
| Display | SOC indicator, status indicator | |||||
| Communication interface | CAN | |||||
| Protection | ||||||
| Over/under voltage protection | Yes | |||||
| Over current protection | Yes | |||||
| Over/under temperature protection | Yes | |||||
| DC breaker | Yes | |||||
| General Data | ||||||
| Dimensions (W*H*D) | 625*545*330 mm | 625*675*330 mm | 625*805*330 mm | 625*935*330 mm | 625*1065*330 mm | 625*1195*330 mm |
| Weight | 114 kg | 147 kg | 180 kg | 213 kg | 246 kg | 279 kg |
| Installation location | Indoor / Outdoor | |||||
| Mounting method | Floor stand (standard) | |||||
| Operating ambient temperature range | Charge: 0 to 50°C Discharge: -30 to 50°C |
|||||
| Degree of protection | IP55 | |||||
| Allowable relative humidity range | 0% to 95% (non-condensing) | |||||
| Max. operating altitude | 2000 m | |||||
| Cooling method | Natural convection | |||||
| Certificates | CE, CEC, IEC 62619, IEC 62040, JIS C 8715-2, UN38.3 | |||||
| Warranty 3 | 10 Years | |||||
| Expansion adaptation 4 | Up to 4 units in parallel (need extra junction box) | |||||
1: Available in Q3, 2021
2: Test conditions: 25°C, 100% depth of discharge (DOD), 0.2C charge & discharge
3: Refer to battery warranty letter for conditional application
4: Available in Q3, 2021
Why Go Solar in Canberra?
Canberra is one of the sunniest capital cities in Australia, making it an ideal location for generating renewable energy. With over 2,800 hours of sunshine annually, residents and businesses can tap into substantial solar potential. Investing in solar energy in Canberra means you’re not just saving on power bills, you’re contributing to a cleaner, more sustainable future for the region.
Incentives from the ACT Government, such as interest-free loans through the Sustainable Household Scheme, make the switch to solar even more appealing. Whether you want to reduce energy bills, achieve greater energy independence, or lower your carbon footprint, installing solar panels and batteries in Canberra is smart.
Frequently Asked Questions
Can I use solar batteries with my existing solar panel system?
Yes, solar batteries can be added to an existing solar panel system. However, compatibility and proper integration should be ensured, send us an enquiry for a free consultation.
How long do solar batteries last?
The lifespan of solar batteries typically ranges from 5 to 15 years, depending on the type of battery and usage patterns. Lithium-ion batteries, for example, tend to have a longer lifespan compared to lead-acid batteries.
Can solar batteries save me money on my electricity bills?
Solar batteries can potentially save you money on electricity bills by reducing your reliance on the grid during peak demand periods. This helps avoid purchasing electricity at higher rates.
What size solar battery system do I need for my home?
The size of the solar battery system you need depends on factors such as your energy consumption, the capacity of your solar panels, and your desired level of energy independence. Send us an enquiry and we will help determine the appropriate size for your needs.
Can solar batteries be used in conjunction with a solar panel system for off-grid living?
Yes, solar batteries can be combined with a solar panel system to provide power for off-grid living. This setup allows you to rely solely on solar energy and be independent of the electrical grid.
Do solar batteries require maintenance?
Solar batteries typically require minimal maintenance. However, regular monitoring, occasional cleaning, and firmware updates may be necessary to ensure optimal performance.
Can solar batteries be charged by the grid?
Yes, solar batteries can be charged by the grid during off-peak hours when electricity rates are lower. This allows you to store grid electricity for later use when rates are higher.
How long can a solar battery power my home during an outage?
The duration of backup power provided by a solar battery depends on factors such as the battery’s capacity, the amount of stored energy, and your energy consumption. Larger capacity batteries can provide power for a longer duration.
Can I expand my solar battery storage capacity in the future?
Yes, in many cases, solar battery storage capacity can be expanded by adding additional batteries to the system. It’s important to consider the compatibility and capacity of your existing system when planning for expansion.
Are solar batteries environmentally friendly?
Solar batteries contribute to a greener and more sustainable energy future. By storing and utilising solar energy, they help reduce dependence on