Spec concept — starting point
A target spec to validate and refine — the envelope an alpha unit would aim for.
Spec concept
| Solar array (deployed) | Up to 210 m² high-efficiency panels |
|---|---|
| Battery capacity | Scalable up to 500 kWh |
| AC power output | 150 kW continuous (200 kW peak) |
| Generator | 80–100 kW built-in backup |
| EV charging | Up to 150 kW DC fast charge, 2 ports |
| Deployment time | Under 10 minutes |
| Run time (example) | 2–3 days on a typical building load |
| Dimensions (stowed) | 10.5 m (L) × 2.5 m (W) × 3.8 m (H) |
| Weight (est.) | ~24,000 kg |
| Operating modes | Grid-tied · off-grid · hybrid |
Next steps
Refine needs, target markets, and requirements with real operators.
Detailed engineering, system integration, and a buildable prototype spec.
Build and test an alpha unit against the deployment and runtime targets.
Field-test with real users across maintenance, charging, and storm scenarios.
Manufacture and deploy a fleet — sold outright or offered as power-on-demand.
Open questions to validate
Does the 210 m² / 500 kWh envelope cover a real building's critical load for 2–3 days? Buy vs. rent vs. power-as-a-service — which model do operators actually want? And which beachhead wins: facilities, EV fleets, or emergency response?