12.0 kW Solar Kit with 12kW Sol-Ark inverter and 16.2 kWh Fortress LifePO4 Battery Bank12.0 kW Solar Kit with 12kW Sol-Ark inverter and 16.2 kWh Fortress LifePO4 Battery BankStarting at $36,166
21 kW DIY Solar Panel Kit w/ SunSpark 330W Panels + Sol-Ark Inverter21 kW DIY Solar Panel Kit w/ SunSpark 330W Panels + Sol-Ark InverterStarting at $67,184
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Our premium solar panels are backed by top-notch technical assistance from our team of solar specialists.
IronRidge builds the strongest roof and ground mounting systems in solar. Every component has been tested to the limit and proven in extreme environments.
A microinverter or string inverter to convert solar panel DC power to AC power and provide net metering capability.
Monitoring apps oversee your solar production, helping you catch issues early to ensure efficient system performance and cost savings.
Our state-of-the-art batteries enable you to store surplus energy generated during the day, utilizing it during nighttime or peak demand periods to maximize your energy savings.
Plan Set & Interconnection Service
We can create a custom solar electrical design for your home that’s compliant with local codes and regulations. We’ll work closely with your city, HOA and utility to get your system up and running.
Why install a solar system with battery?
Protect Against Outages
Solar battery kits give you everything you need to power your home and keep it running during a grid outage.
When utility power is available, your solar panels generate electricity that can roll back your energy bill. If the power goes out, the system draws energy from the battery bank to keep your most important electrical loads running.
If you live in a harsh climate or your local power grid is unreliable, grid-tie solar batteries can provide peace of mind and help you live life uninterrupted by outages.
Reduce your utility bill
The benefits of having a solar battery kit extends beyond power backup. Solar battery systems efficiently store excess energy generated by your solar panels, allowing you to tap into this resource during peak hours when utility rates are at their highest.
By strategically harnessing stored energy, you effectively reduce your utility bills, making solar battery kits a wise investment for every solar owner seeking substantial financial advantages.
Purchasing a battery along with your solar kit offers a pathway to energy independence from your utility company, especially when they provide a meager buyback rate for surplus energy you send to the grid. With a battery storage system in place, excess solar energy can be stored instead of sold to the utility for low rates. This empowers you to rely less on the utility's low buyback rate and instead harness your self-generated energy, reducing your reliance on your utility company.
What’s the right battery size for you?
A 10 kWh storage capacity offers typical homeowners partial home backup, enabling you to run essential appliances and daily-used electronics such as refrigerator, computer, and TV. While these partial backup systems efficiently manage most of life's conveniences, non-essential loads like hot tubs, EV chargers, or air conditioners are temporarily shed during power outages.
20-40+ kWh Storage
In addition to the above, a 20-40 kWh storage system would account for larger energy-intensive loads like your well pump, air conditioning, laundry, and dishwasher. Look for a battery bank in this size range if you need whole home backup for a single-family home.
What is the difference between AC and DC Coupled?
AC (alternating current) and DC (direct current) coupled solar and storage systems are two distinct configurations for integrating solar panels with energy storage solutions.
In an AC-coupled system, the solar panels and the energy storage are connected to the AC side of the inverter. This setup allows for greater flexibility in the choice of solar panels and battery storage, as they can be installed independently and easily replaced or upgraded. Additionally, AC-coupled systems are well-suited for retrofitting existing solar installations with energy storage capabilities.
On the other hand, DC-coupled systems involve connecting the solar panels directly to the DC side of the battery inverter. In this setup, the solar panels' DC output is directly used for charging the batteries, which can result in slightly higher efficiency due to fewer conversion losses. DC-coupled systems are often preferred in scenarios where maximum energy capture and efficiency are crucial.
The choice between AC and DC-coupled solar and storage systems depends on the specific needs and goals of the installation. AC-coupled systems offer greater flexibility and are ideal for retrofitting or when the solar and storage components come from different manufacturers. DC-coupled systems, on the other hand, may be favored when efficiency and direct utilization of solar energy are critical considerations.
Understanding the advantages and limitations of each configuration helps in making the most appropriate choice for a particular solar and storage project.
Integrates into existing systems
AC-coupled solar and storage systems are better suited for micro inverter setups or for integrating energy storage into existing solar installations. The flexibility of AC coupling allows easy addition of energy storage to an already installed micro inverter system without major modifications.
DC-coupled systems can be more cost-effective, particularly in new installations. Since the solar panels and batteries share the same inverter, fewer components are needed, resulting in reduced installation and equipment costs.
AC-coupled solar and storage systems are known for their reliability, contributing to their popularity in various applications. One key advantage of AC coupling is the ability to operate solar panels and energy storage components independently. In the event of a battery malfunction or failure, the solar panels can continue generating electricity, providing a reliable power source to the grid.
In DC-coupled systems, solar panels directly charge the batteries at the same voltage level, allowing for optimized charging and management of battery states. This setup can enhance the battery's lifespan and performance by precisely controlling the charging process, reducing the risk of overcharging or undercharging.
AC-coupled solar and storage systems can be less efficient due to additional energy conversions, which introduce conversion losses.
DC coupled solutions are more efficient, as there is less energy loss in converting DC to AC energy to power your system.