Greater Capacity.
Lower Complexity.
Longer Life.
Trydan Tech's HPE Prime Max 314 Ah LFP prismatic cell is designed for energy storage systems that need high capacity, simplified pack architecture, and dependable long-term performance. Its large-format 314 Ah design helps reduce the number of cells required per system, improving pack efficiency while supporting strong cycle life, stable output, and lower integration complexity. Built for utility-scale storage, commercial and industrial ESS, residential solar storage, and more, the HPE Prime Max delivers scalable energy storage performance in a durable LFP platform.
Large-format 314 Ah LFP performance for high-capacity energy storage systems that need long cycle life, stable output, and simplified pack architecture.
Engineered for high-capacity energy storage, simplified pack design, and dependable long-term performance in stationary power applications.
The 314 Ah large-format design helps battery pack builders store more energy with fewer cells, reducing pack complexity, electrical connections, and assembly requirements.
Higher cell capacity can help reduce the number of components needed in a battery system, supporting lower integration cost, simpler manufacturing, and improved total project value.
With an 8,000-cycle cycle life rating, the cell is designed for long-duration use in stationary storage projects where service life, reliability, and replacement cost matter.
Strong energy efficiency at normal and elevated temperatures helps the system deliver more usable energy while reducing losses during charge and discharge operation.
Wide operating temperature capability supports dependable performance across commercial, residential, telecom, microgrid, and backup power environments.
The 314 Ah format is well suited for modular battery systems, helping manufacturers build larger-capacity packs for utility-scale, C&I, residential storage, and backup power applications.
Designed for next-generation energy storage builds, the HPE Prime Max cell brings large-format capacity, dependable LFP chemistry, and system-level efficiency to demanding storage applications.
High-capacity cell design supports grid-scale battery systems for renewable energy storage, peak shifting, load balancing, and long-duration energy deployment.
Built for large stationary systems that help businesses manage backup power, demand charges, solar self-consumption, and facility-level energy resilience.
Supports home battery systems that require dependable daily cycling, solar backup, and long-term usable energy in a compact LFP storage platform.
The 314 Ah format helps reduce cell count per pack, simplify module design, and support scalable pack architecture for ESS, backup, and renewable storage products.