Smart Balcony Solar Power System
The MicroBox 800 is a plug-and-play all-in-one storage system for balcony systems consisting of an 800W microinverter and a 2kWh Li-FePO4 battery pack, which can be wirelessly stacked to connect to up to three other batteries, compatible with any solar panel.
The Balcony Solar PV Storage System is an all-in-one design that supports up to 2000W of PV output, so you can charge it with up to four 500W solar panels. In addition, this leading microinverter supports 800W of grid-connected output and 1200W of off-grid output, providing your home with reliable power during power outages.
The all-in-one battery and microinverter design simplifies your installation process, and you will have a leading balcony energy storage system in less than 10 minutes, with excess solar energy stored in the LFP battery.
Smart Balcony Solar Power System is a small-scale distributed photovoltaic solution designed for urban apartment or residential balcony scenarios, combining photovoltaic power generation, energy storage, intelligent management and other functions, and its advantages are mainly reflected in the following aspects:
1. Strong space adaptability and low installation threshold
No need for large-scale transformation: Compared with traditional rooftop PV systems, smart balcony solar systems usually use miniaturized modules (such as foldable PV panels and compact inverters), which do not require modification of the building structure and can be installed only by using the idle space of the balcony, especially suitable for scenarios where rooftop PV cannot be installed such as apartments and small apartments.
Convenient and flexible installation: Most products are designed for modular assembly, light weight, small size (for example, some models can be installed within half an hour), and do not require a complex approval process (some areas have fewer policy restrictions on balcony PV), reducing the difficulty and time cost of installation.
2. Energy self-sufficiency and cost savings
Self-consumption and self-consumption, reduce electricity costs: By absorbing solar energy and converting it into electricity, it gives priority to meeting the daily electricity needs of households (such as lighting, mobile phone charging, small household appliances, etc.), reducing dependence on grid electricity, thereby reducing electricity bills.
Peak-to-valley arbitrage (supported by some systems): If it is equipped with energy storage batteries and supports grid interaction, electricity can be stored from the grid during low price hours, and energy storage power can be used during peak hours to further optimize electricity costs, especially suitable for areas where time-of-use electricity prices are implemented.
3. Intelligent management and efficient use of energy
Intelligent monitoring and adjustment: With the mobile phone APP or intelligent control system, it can monitor solar power generation, battery storage, household electricity consumption and other data in real time, so that users can intuitively understand the energy flow direction, and automatically optimize the charging and discharging strategy through the system (such as giving priority to the use of photovoltaic power and remaining power energy storage) to improve energy utilization efficiency (the self-consumption rate of some systems can reach more than 90%).
Adaptable to a variety of scenarios: It supports on-grid/off-grid mode switching, and can be used as a backup power supply to supply power to key equipment (such as routers and emergency lighting) in the event of a power failure, enhancing the reliability of household power consumption.
4. Scalability and compatibility
Flexible capacity expansion: Systems like the MicroBox 800 can expand energy storage capacity from a base 2kWh to 8kWh by adding battery modules (e.g., the Brick 2 module) to meet the growth in household electricity demand (e.g., new appliances, increased electricity consumption).
Compatible with a variety of photovoltaic modules: It supports balcony photovoltaic panels of different power and specifications (usually adapted to 22-60V DC input), and users can choose suitable photovoltaic modules according to the size of the balcony space, without worrying about compatibility problems.
5. Safe and durable, low maintenance cost
Safety design: Lithium iron phosphate battery (long cycle life, good thermal stability), equipped with multiple protection mechanisms such as overcharge, overdischarge, short circuit, and overtemperature; Most of the shells have IP65 protection level, which is dustproof and waterproof, and is suitable for complex environments such as balconies and outdoors.
Long life and low maintenance: Battery cycle life is generally more than 6000 cycles (per 1000 cycles
MPPT Input | MPPT (2000 w) |
Grid-Connected Power | 800 w |
Off-grid Input/Output | 1200 w |
PV Input Voltage | 22V-60V DC |
Capacity | 1958Wh x4 |
6000 Battery Cycles | LiFePO4 |
Waterproofing | IP65 |
Wireless Connections | Bluetooth,WLAN(2.4GHz) |
Warranty | 10 Years |
Operating Temperature | -20-55℃ |
weight | ≈25 kg |
Dimensions | 460x249x254mm |
Intelligent Temperature Control System
The wide range of temperature adaptability can be met to power your emergency loads in a wide range of situations.
Balcony Solar PV system
Powerlinkage: Power Adjustment ThroughSmart Meters or Smart Sockets, Greatlylmprovingthe Photovoltaic Self-use Rate.(up to 94%)
