True autonomy. Always on. Anywhere.
Remote Surveillance
Remote surveillance systems need reliable power to stay online in harsh, isolated environments. Battery-solar setups and generators often fail due to weather, noise, emissions, or frequent maintenance. Our hydrogen-powered micro fuel cells deliver silent, long-duration autonomy that keeps monitoring equipment running anywhere, for weeks at a time.
Critical Monitoring Shouldn’t Collapse When Conditions Do
Keeping remote sites monitored is a constant battle against distance, weather, and infrastructure gaps. Battery-solar systems often fall short limited by darkness, seasonal conditions, and rapid capacity loss. Generators introduce noise, emissions, and high maintenance demands, making them unsuitable for long-term or covert deployments.
Surveillance teams need a power solution that delivers stable, long-running autonomy without regular service visits, grid access, or environmental dependencies allowing systems to operate reliably, for weeks or even months, without human intervention.
When Safety Depends on Staying Online
Imagine securing a remote border section, wildlife reserve, or isolated construction site. Your surveillance units must stay online for weeks, yet there is no grid connection and sunlight is unreliable. Batteries drain in days, solar panels struggle through winter, and site visits to swap power packs are costly and time-consuming.
The result? Coverage gaps, missed events, and teams stretched thin trying to keep equipment alive instead of focusing on security.
Motivations to Change
- Actual battery systems can’t deliver the long autonomy security needs.
- Remote site visits drive up maintenance costs.
- Systems must operate reliably in all environmental conditions.
- Emission regulations are tightening.
Solutions provided by our technology
Lamina® micro fuel cells provide a dependable, long-duration power source that enables surveillance systems to operate where batteries, solar, and generators fall short.
The system delivers continuous energy from a compact unit, stays stable through extreme environmental conditions, and requires minimal servicing. With lightweight hydrogen cylinders for fast refueling, operators gain a true “deploy-and-forget” power solution that is independent of sunlight, grid access, and large battery packs.
This allows surveillance units to stay online for weeks in forests, borders, coasts, and remote locations where reliability is critical.
Key benefits
Continuous
operation
Weeks of continuous operation from a compact micro fuel cell module
Low
maintenance
Drastically fewer site visits and lower maintenance costs
Fast and
simple
Portable hydrogen cylinders enabling fast, simple refueling
Always
reliable
Reliable uptime even in harsh or unpredictable environments
Independent
power source
Operational independence from generators, heavy batteries, and grid constraints
Zero
emission
Environmentally compliant with zero local emissions
Frequently Asked Questions (FAQ)
With a 50 L / 300 bar hydrogen bundle, the system can run over 21 days at ~35 W, far longer than battery-powered setups that typically last 3–5 days.
The entire fuel cell + hydrogen setup fits into a 30 cm footprint, whereas equivalent battery systems require large, bulky battery towers or solar-battery hybrids that take up significantly more space.
A hydrogen cylinder swap takes under 2 minutes. In contrast, battery recharging takes 4–8 hours, or requires carrying heavy spare packs into the field.
Yes. The PowerBar provides a stable 40 W output with 250 W peak buffering (up to 180 seconds), ideal for PTZ cameras, night vision, heaters, and communication bursts.
Very little. Fuel cells require servicing roughly every 3 weeks, far less often than battery swaps or generator checks.
Yes. They produce zero local emissions, generate no noise, and are suitable for protected environments, wildlife zones, and covert operations.
Hydrogen excels in winter, shade, dense forests, coastal fog, mountains, and remote terrain where solar panel output drops and batteries rapidly lose capacity.