Can a battery keep my building running in a blackout?

Yes, if the system is designed for it. A battery with islanding capability disconnects from the grid during an outage and keeps critical loads running on stored energy and solar. MYNT built the County of Monterey a 1.4 MW microgrid with 2,100 kWh of battery storage that does exactly this. But the design choice matters: a standard grid-tied-only system shuts down in a blackout by code. Resilience has to be engineered in, not assumed.

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Battery storage in the 1.4 MW County of Monterey microgrid, designed and built by MYNT

Why do most solar systems go dark in an outage?

By design. A grid-tied inverter must shut off when the grid goes down: anti-islanding protection keeps utility line crews safe from a system back-feeding the wires. So a building with solar panels, or even solar plus a standard battery, still goes dark unless the system was engineered to separate itself from the grid first.

If a salesperson told you "the panels keep you running," check the single-line diagram. Resilience is a switching and controls problem, not a panel problem.

What does islanding-capable design look like?

An islanding system detects the outage, opens its interconnection, and forms its own grid. The battery sets voltage and frequency, solar keeps charging it, and a critical-load panel decides what stays on: refrigeration, servers, life safety, operations. When utility power returns, the system re-synchronizes and reconnects.

That's the architecture MYNT engineered for the County of Monterey: a 1.4 MW microgrid with 2,100 kWh of battery storage, designed in-house and built by our own crews. On a normal day it cuts the power bill. On the bad day, it's the reason the building is still running.

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Keep exploring: how microgrids work, the County of Monterey project, and the payback on solar plus battery.