Your AI datacenter training job starts. 0→5MW in 12 seconds.
Your grid operator sees a violation. Your demand charges explode.
We handle it automatically. Battery response in milliseconds. Your power stays stable.
The power spike problem
Industrial operations create sudden demand changes:
- AI datacenters: Training jobs spike 5MW in seconds. Grid can't respond that fast.
- Manufacturing ramp-up: Production line starts. HVAC kicks in. Demand jumps 40% instantly.
- Cold chain facilities: Cooling compressors cycle. Power swings violate grid limits.
- Warehouse automation: Robotic systems scale up. Demand spikes trigger penalties.
Manual response takes minutes. Grid violations trigger in seconds.
The result: $500K+ annual demand charge penalties, ISO violations that block expansion, downtime from grid disconnections.
How we handle spikes
Battery Storage + Automated Control
Not batteries you manage. Batteries we operate that respond faster than your equipment can change load.
What Happens During a Power Spike:
AI training job starts (0→5MW in 12 seconds):
- Our system detects GPU power ramp in real-time
- Battery discharges automatically to smooth the demand
- Grid sees gradual ramp (no violation)
- Your training job gets the power it needs
- Demand charges stay low
All in less than 1 second—before your grid operator sees a problem.
Your role: Run your operations. We handle the power.
The business impact
Reliability You Can Measure
- 99.95% uptime SLA (8,734 hours of power per year)
- Power available when you need it
- No interruptions from grid issues
- Equipment protected from voltage fluctuations
Cost Savings You Can Track
- $500K+ annual demand charge savings (typical datacenter)
- No penalties from grid violations
- No emergency power costs
- Lower equipment maintenance (stable power = longer life)
Capacity You Can Use
- Add load without grid upgrades
- Scale operations without utility delays
- No grid queue waiting
What you see
Every facility includes monitoring:
Power Stability Dashboard:
- Real-time demand tracking
- Automatic spike smoothing in action
- Grid compliance status
- Cost savings vs grid-only power
Reliability Metrics:
- Uptime percentage
- Incident response times
- Equipment availability
- Performance vs SLA
Financial Performance:
- Demand charge tracking and savings
- Energy cost comparison
- ROI on power infrastructure
- Monthly cost reports
The industrial reality
Your operations can't wait for the grid to catch up.
AI training jobs start now. Production lines ramp up now. Your business runs 24/7.
Grid response is slow. Manual operations are slower.
We respond in milliseconds.
Battery storage that automatically smooths demand spikes. No violations. No penalties. No downtime.
For facilities that can't afford power disruptions.
For datacenters where $50K/hour downtime eliminates margins.
For manufacturing where one grid disconnect = $2M lost production.
For cold chain where power loss = spoiled inventory.
We build, own, and operate your power infrastructure. Solar + battery systems designed for industrial loads. 25-year contracts with 99.95% uptime guarantee.
Traditional utilities deliver what the grid allows. Hope you can work around limitations.
We deliver the power your operations need. Stable. Reliable. Always available.
Request a site assessment—we'll show exactly how dedicated power infrastructure eliminates demand spikes and delivers 99.95% uptime for your facility.