Today we solve charging operations. Tomorrow we orchestrate solar, storage, chargers, and grid connections into a unified, profitable energy system.
We solve the immediate operational challenges of EV charging—reliability and cost—while building the foundational infrastructure for the distributed energy future.
EV charging operators face two critical challenges: charger reliability and energy cost volatility. Software generates alerts but doesn't fix problems. Operations teams remain the glue between disconnected systems.
We become the outsourced operations team. Our systems connect to existing infrastructure, monitor continuously, and execute resolutions automatically.
This is our entry point. It solves immediate, urgent problems and builds the foundational infrastructure for our long-term vision.
As electrification accelerates, the energy landscape becomes fundamentally more complex. Solar panels, battery storage, EV chargers, and grid connections proliferate—but they operate in isolation. No single system coordinates them intelligently.
Solar generation peaks when vehicles are not present. Battery storage is underutilized because charging schedules are not coordinated with discharge opportunities.
Vehicle-to-grid capabilities remain dormant because no system can orchestrate bidirectional flows. Demand response opportunities are missed because assets cannot respond collectively.
Grid connection upgrades are purchased unnecessarily because existing assets are not optimized. Revenue opportunities from grid services go uncaptured.
Operators manage each asset separately—chargers, solar, storage—without unified intelligence to maximize value across the entire system.
We will build an intelligent orchestration layer that connects and coordinates all distributed energy assets:
Current State
Isolated load centers
Future State
Controllable assets that charge and discharge based on grid signals
Current State
Idle when parked
Future State
Distributed storage participating in energy markets
Current State
Generation peaks wasted, storage underutilized
Future State
Matched with charging demand, optimized for peak shaving
Current State
Fixed capacity constraint
Future State
Dynamically managed through load flexibility
Operations service for EV charging. 95%+ uptime, 15-25% cost reduction.
Customer Value
Higher uptime, lower energy bills, reduced operational complexity
Coordinate battery storage with charging demand. Maximize storage ROI through peak shaving and arbitrage.
Customer Value
Maximize storage ROI, reduce peak loads, avoid grid upgrade costs
Manage bidirectional charging flows. Turn parked fleet vehicles into virtual power plants that generate revenue.
Customer Value
New revenue from bidirectional charging, grid service payments
Coordinate solar, storage, chargers, meters, and grid connections. Complete asset optimization with grid service revenues.
Customer Value
Virtual power plant participation, complete asset optimization, grid service revenues
