Battery Storage Technology
Advanced LFP-based energy storage systems for industrial deployment
Gigacore Systems focuses on advanced LFP-based battery energy storage systems for commercial, industrial and utility-scale energy applications
Our platform approach combines battery cells, liquid-cooled packs, outdoor cabinets, PCS integration, communication systems, thermal management and safety architecture — designed for high energy density, long cycle life, reliable outdoor operation and industrial-grade performance.
LFP Battery Chemistry
Lithium Iron Phosphate (LFP) battery systems are widely used for stationary energy storage because of their superior safety characteristics, extended cycle life, excellent thermal stability and suitability for large-scale deployment.
- Higher thermal stability and inherent safety
- Extended cycle life (3,000+ cycles at 80% capacity)
- Lower risk of thermal runaway
- Ideal for outdoor and extreme-environment deployment
- Proven performance across global commercial and utility projects
Liquid-Cooled Battery Architecture
Intelligent liquid cooling systems are essential for maintaining battery performance, consistency and long-term reliability. Liquid cooling helps distribute heat evenly across battery cells, reducing temperature gradients and extending system lifespan.
Modular Cabinet and Container Design
Our systems are deployed as scalable building blocks: commercial & industrial outdoor cabinets, all-in-one ESS units with integrated PCS, DC battery cabinets, and utility-scale containerized systems. This modular approach enables flexibility across project sizes and use cases.
- C&I Outdoor Cabinets (261–836 kWh)
- All-in-One ESS (100–125 kW integrated)
- DC-Only Cabinets (external PCS)
- Containerized Utility Scale (5–20 MWh)
- PV-Storage Charging Systems
PCS and Controls Integration
Power Conversion Systems (PCS) are the bridge between DC battery energy and AC grid power. Our PCS integrations support intelligent charge/discharge control, grid interface protocols, solar-plus-storage charging and sophisticated battery management algorithms.
- Converts DC battery energy to AC grid-compatible power
- Supports peak shaving, load shifting and backup power modes
- Enables solar charging, storage and discharge sequencing
- Integrated communication with battery management systems
- Supports grid interconnection standards and protocols
Safety and Compliance Architecture
Industrial BESS systems are engineered with multi-layer safety architecture: IP-rated outdoor cabinets, integrated fire suppression, advanced battery management, electrical protection systems, communication interfaces, and compliance with international standards.
Physical & Environmental Protection
- IP55-rated outdoor cabinets
- Thermal and shock protection
- Corrosion-resistant materials
Electrical & Fire Safety
- Multi-layer fire suppression
- Battery thermal monitoring
- Electrical isolation systems
Standards & Certifications
- UL9540, UL1973 (Energy Storage)
- IEC62477, IEC61000 (Grid Compatibility)
- UN38.3, UN3480 (Transportation)
- NFPA68/69 (Explosion Protection)
Communication Interfaces
Our BESS systems support multiple communication protocols for seamless grid and plant integration, remote monitoring and predictive maintenance.
CAN Protocol
Industrial real-time control and diagnostics
RS485/Modbus
Legacy SCADA and building management systems
Ethernet
Modern IP-based grid and cloud monitoring
DNP3 / IEC60870-5-104
Utility-grade grid interconnection protocols
BESS Applications
Gigacore BESS systems are deployed across a wide range of commercial, industrial and utility applications.
Peak Shaving
Reduce demand charges by storing energy during low-cost periods and discharging during peak demand.
Renewable Integration
Smooth solar and wind generation, enabling higher renewable penetration and grid stability.
Backup Power
Provide critical backup power to facilities during grid outages or emergency conditions.
Energy Arbitrage
Participate in wholesale markets by charging during low-price periods and discharging during high-price periods.
Microgrids
Enable islanding and autonomous microgrids for improved resilience and energy independence.
Solar + Storage
Integrate solar generation with energy storage for seamless 24/7 renewable power supply.