ENERGY RESILIENCY
Commercial & Industrial Energy Storage Systems (ESS)
Trusted since 2019 with pioneering UL 924 emergency power deployments, Sinclair Digital designs, deploys, and operates resilient behind-the-meter battery energy storage systems—from 70 kWh to 6 MWh—engineered for performance, reliability, and ROI.
Whether you need a compact system for peak shaving or a turnkey multi-megawatt installation supporting resilience and electrification, Sinclair Digital delivers ESS solutions.
Today's Energy Challenges Solved
Owners, contractors, and design engineers are increasingly turning to Energy Storage Systems to reduce energy costs, provide critical backup power, integrate renewables, and deliver cleaner, more resilient power
Sinclair Digital deployed the world’s first Energy Storage System (ESS) approved for UL 924 emergency power at a Marriott Hotel. Our team brings deep technical expertise across system architecture and design, electrical equipment selection, grounding and protection, grid-forming generator integration, sequencing of operations, precise system sizing, and comprehensive technical documentation.
Sinclair Digital's Advantages
Deep Expertise in Behind-the-Meter Deployments
Fully Integrated Systems Approach
Custom Designs – Never One-Size-Fits-All
Focus on Energy Resilience & Cost Savings
Scalable Architectures to Evolve with Your Facility
Request an
ESS Consultation
with a Sinclair Digital
Energy Storage Expert
Sinclair Digital Builds for Performance, Designs for ROI, & Delivers Turnkey.
Empowering Clients with the following Benefits:
Lower Utility Demand
Increased Energy Resilience & Uptime
Optimized On-Site Energy Use
Scalable Support for EV Charging Infrastructure
Reliable Backup Power for Critical Loads
Achieve Net Zero Goals
UL 924 Emergency Power – No Diesel Generator
Real World Success Stories
From Concept to Commissioning and Beyond
Sinclair Digital delivers true turnkey energy storage projects, supporting clients at every stage of the lifecycle.
Consultation & Assessment
- Site evaluation and load analysis
- Utility tariff and demand charge review
- Resilience and backup power needs assessment
System Design
- Comprehensive system architecture
- Detailed product specifications
- Defined sequence of operations
- Integration with microgrid controller and EMS
Financial & ROI Modeling
- Project-specific ROI analysis
- Demand charge reduction modeling
- Incentive and program alignment
- Investment performance validation
Implementation & Deployment
- Procurement and logistics coordination
- Installation oversight
- Testing and commissioning
- Utility and authority coordination
Ongoing Support
- Operational support and optimization
- Performance monitoring
- Lifecycle planning and expansion support
FAQ
We deploy lithium-ion battery as well as lithium iron phosphate (LFP) chemistries, optimized for commercial and industrial applications.
The exact chemistry is selected based on:
- Energy density requirements
- Cycle life expectations
- Temperature and environmental conditions
- Compliance with UL, BMS, and safety standards
All Sinclair Digital BESS solutions are paired with a microgrid controller or energy management system (EMS) that provides:
- Automated dispatch and load management
- Integration with solar PV, generators, and EV charging
- Real-time performance monitoring and reporting
- Safety and fault management
Yes. Our BESS solutions can operate grid-connected or in island mode, maintaining power to critical loads when the utility is unavailable. The EMS ensures seamless transitions and prioritized load control.
Indoor systems: Designed for conditioned spaces with standard temperature and humidity limits
Outdoor systems: Weatherproof enclosures rated for rain, snow, heat, and UV exposure. Optional customizations include climate control and protective wraps
- All systems comply with UL 9540 / 9540A / UL 924 (where applicable) and local building/electrical codes
- BESS includes Battery Management System (BMS), fire suppression options, and fault monitoring
- Both BABA-compliant and non-BABA-compliant options are available
- Indoor and outdoor layouts are engineered for safe service access and code adherence
Yes. Integration options include:
- Solar PV or wind generation
- Diesel or natural gas generators
- Grid interconnection
- EMS-managed hybrid operation for cost optimization and resilience
Cycle life depends on battery chemistry and operational profile. Typical ranges:
- 3,000–6,000 cycles at 80% Depth of Discharge (DoD) for lithium-ion systems
- Lifecycle modeling provided in your project-specific ROI analysis to ensure financial performance
- Remote monitoring via EMS dashboard
- Real-time state-of-charge (SOC), state-of-health (SOH), and energy usage metrics
- Alerts for faults or abnormal performance
- Data export for facility management and reporting
Our modular architecture allows for:
- Incremental additions of batteries or inverters
- Parallel deployment for multi-megawatt systems
- Integration with existing infrastructure without downtime
Yes. Our BESS can charge during off-peak hours and discharge during high-demand periods, minimizing utility demand spikes and enabling EV charging without expensive infrastructure upgrades.
Routine inspections: BMS health checks, inverter firmware updates, enclosure condition
Predictive maintenance: Performance monitoring identifies issues before failures occur
Full lifecycle support: Our team provides ongoing support and optimization
Ready to Build a Smarter Energy Strategy?
Whether your goal is cost reduction, resilience, electrification, or all three, Sinclair Digital delivers battery energy storage systems designed for real-world performance.
- Schedule a Consultation
- Talk to an Energy Storage Expert
