Power events destroy experiments, damage sensitive equipment, and create data gaps. Get continuity power for critical research systems—plus the documented risk mitigation package you need for internal approvals.
Free assessment · Equipment continuity map · Approval-ready package
15 minutes. Map your risks. Get an approval-ready package.
Who it's for: Research facilities and university labs with sensitive equipment and experiments that cannot tolerate power interruptions—and who need documented justification for internal procurement approvals. What it solves: Provides experiment continuity and equipment protection through seamless power during grid events, plus a complete internal approval packet including risk assessment, cost-benefit analysis, and compliance documentation. Next step: Book a free 15-minute Risk & Uptime Assessment to get your Critical Equipment Continuity Map and approval-ready risk summary.
Watch how the Research Continuity Power Plan protects your facility
Every outage puts months of work and millions in equipment at risk.
Lost experiments, samples, and research time per event
To recreate destroyed experiments or cultures
Sensitive equipment at risk from power quality issues
Mass spectrometers, electron microscopes, NMR systems, sequencers—this equipment costs millions and is extremely sensitive to power quality. A voltage sag can damage detectors, corrupt calibrations, or cause failures that take weeks to repair.
Long-running experiments, cell cultures, animal studies—a power event can destroy months of work in minutes. Some experiments simply cannot be restarted. The research timeline and publications are set back indefinitely.
Continuous data logging is essential for valid research. Power interruptions create gaps that can invalidate entire datasets. Reviewers and journals notice these gaps—and so do grant compliance officers.
University and institutional procurement is slow and documentation-heavy. But the reputational and financial risks are real and immediate. You need a solution—and you need the paperwork to get it approved.
Continuity power + documented risk mitigation for internal approvals.
Map critical equipment, identify vulnerabilities, document risk exposure.
Create approval-ready risk summary and cost-benefit analysis for procurement.
Create a phased protection plan prioritizing your most critical equipment.
Install with minimal disruption to ongoing research and experiments.
A major university's shared instrumentation core facility—housing mass spectrometers, NMR, and electron microscopes worth over $4M—had experienced three power events in 18 months, each requiring expensive recalibration and service calls. After implementing the Research Continuity Power Plan, they've had zero equipment-impacting events over 2 years, and the approval-ready documentation package accelerated their procurement process by 4 months.
[Sample Critical Equipment Continuity Map]
Equipment inventory, power requirements, protection priority tiers
"The documentation package they provided made the difference. Our procurement committee approved it in half the usual time because all their questions were already answered."
[Lab Manager Name]
Lab Manager, [University Research Center]
"We had a 6-month experiment running when the grid went down. Our system switched over seamlessly—we didn't lose a single data point. That alone justified the investment."
[PI Name]
Principal Investigator, [Research Institute]
If we can't produce a usable continuity map and written internal summary for your procurement process, you receive them—absolutely free.
We know institutional procurement is challenging. That's why we make sure you have everything you need to move forward.
Yes. Our systems are designed for sensitive analytical and research equipment—mass spectrometers, electron microscopes, NMR, sequencers, and more. We provide clean, stable power that protects against voltage sags, surges, and interruptions that can damage equipment or corrupt experiments.
We provide a complete approval-ready package including risk assessment documentation, equipment protection justification, cost-benefit analysis, and compliance support materials. This gives you the ammunition you need to navigate university or institutional procurement processes.
Minimal disruption. We design installations around your research schedule. Critical tie-ins typically take 2-4 hours and can be scheduled during off-hours or planned maintenance windows. Your experiments don't need to be interrupted during installation.
Many grants require documented risk mitigation for expensive equipment. Our documentation package supports grant compliance by providing evidence of infrastructure protection measures. This can also strengthen future grant applications.
Tell us more about your facility and we'll prepare a customized continuity plan.
Don't let power events derail years of work. Get the protection you need—and the documentation to make it happen.
Book Your Free Assessment Now