Power blips destroy runs. Instrument sensitivity demands stability. Stop losing data, delaying results, and risking your lab's credibility—with critical instrument continuity and clean power protection.
Free assessment · Instrument continuity map · Low-disruption installation
15 minutes. Map your instrument risks. Get a data protection plan.
Who it's for: Testing and QA labs with sensitive instruments (GC/MS, LC/MS, chromatography) that need to protect data integrity and avoid costly reruns. What it solves: Provides critical instrument continuity and stable power protection that prevents data corruption, instrument damage, and interrupted runs from power blips—with minimal lab disruption during installation. Next step: Book a free 15-minute Risk & Uptime Assessment to get your Instrument Continuity Map and data integrity protection plan.
Watch how the Lab Power Integrity Plan protects your operation
Every blip is a potential rerun. Every rerun is lost time and money.
Per interrupted GC/MS or LC/MS run (sample + labor + delay)
Average delay per failed run (re-prep, re-queue, re-run)
Client confidence erodes with every missed deadline
A 100-millisecond power sag can corrupt hours of chromatography data. When data integrity is compromised, you're not just re-running a test—you're questioning every result from that session.
GC/MS, LC/MS, and other analytical instruments are precision tools. Voltage fluctuations stress detectors, degrade column performance, and introduce measurement drift that compromises accuracy.
One failed run doesn't just cost the run itself. It pushes back the queue, delays other clients, creates rush situations, and puts your SLAs at risk. The ripple effects compound quickly.
Many testing protocols require uninterrupted data logging. A power event creates gaps in your records—gaps that auditors and clients notice, and that undermine the validity of your results.
The triggers are clear. The window to act is open.
Adding high-value analytical equipment? Protect the investment from day one with power infrastructure that matches the instrument quality.
If you've recently lost data or aborted runs due to power, the problem isn't going away. It will happen again—probably at a worse time.
Audits and quality reviews are surfacing infrastructure gaps. Address them proactively, not reactively after an observation.
Critical instrument continuity + stable power protection with minimal lab disruption.
Map your instrument power profiles, identify sensitivity levels, and document current exposure.
Create a continuity plan prioritizing your most critical and sensitive instruments first.
Install clean power and continuity systems with minimal disruption to lab operations.
Confirm protection with power quality monitoring and documented system performance.
A regional contract testing laboratory was losing an average of 3-4 LC/MS runs per month to power quality issues—voltage sags that didn't trip breakers but did corrupt data. After implementing the Lab Power Integrity Plan on their analytical instrument suite, they went 14 months without a single power-related rerun.
"We used to dread summer storms. Now our instruments run through them without a hiccup. The ROI was clear within the first quarter."
[Lab Director Name]
QA/QC Manager, [Testing Lab]
"The installation was remarkably non-disruptive. They worked around our schedule and we didn't lose a single day of testing capacity."
[Director Name]
Operations Director, [Analytical Lab]
[Power Quality Before/After Comparison Graphic]
Voltage stability, harmonic distortion, and event frequency metrics
If we can't identify at least 2 concrete ways to reduce data loss and instrument downtime risk during your assessment, you get a comprehensive power-quality snapshot report—absolutely free.
We're confident because we've done this for labs like yours. The risks are real, measurable, and addressable.
Yes. Our systems are specifically designed for sensitive analytical instruments. We provide clean, stable power that protects against voltage sags, surges, and interruptions that can damage detectors, contaminate columns, or corrupt data mid-run. The protection is seamless—instruments stay online through grid events.
Minimal disruption. We design installations around your lab schedule. Critical tie-ins typically take 2-4 hours and can be scheduled during off-hours or planned maintenance windows. Your instruments don't need to be disconnected during most of the installation process.
Generators have a 10-30 second startup delay—enough time to abort runs and potentially damage sensitive instruments. Our systems provide instantaneous switchover with no gap in power. Plus, we filter power quality issues that generators can't address: harmonics, voltage sags, and frequency variations that affect instrument accuracy.
Priority instruments can typically be protected within 60-90 days. We start with your most critical and sensitive equipment, then expand coverage in phases. You'll see immediate risk reduction once Phase 1 is online.
Tell us more about your lab and we'll prepare a customized assessment.
Every power event is a risk to your data, your instruments, and your lab's reputation. Get the protection plan that matches your needs.
Book Your Free Assessment Now