Global OEM delivery
Cell supply, pack engineering, BMS integration, production testing, and export documents are planned around each buyer's shipping country, application, and volume schedule.
LiFePO4 battery
LFP chemistry is a strong fit when buyers need cycle life, thermal stability, predictable safety behavior, and lower lifetime cost.
Final pack design depends on cell format, voltage, current, BMS, and enclosure constraints.
LiFePO4 product platforms
Current 12V deep-cycle products, project-configured 24V / 36V replacement platforms, 48V / 51.2V ESS systems, and rack batteries are different product platforms with different voltage, capacity, BMS, and installation requirements.
Deep-cycle catalog
Use this path for the current 12V 100Ah and 12V 200Ah replacement products used in RV, marine, mobile power, and backup projects.
Open page →ESS catalog
Use this path for server rack, wall-mounted, stacked, solar storage, UPS, and commercial ESS projects.
Open page →Example item
Open a structured product detail page with quick specs, technical tables, BMS protection, and RFQ routing.
Open page →Global delivery and project documentation
Staricell plans cell supply, pack engineering, BMS integration, test records, and shipment documents around each shipping country, application duty cycle, certification target, and production schedule.
Cell supply, pack engineering, BMS integration, production testing, and export documents are planned around each buyer's shipping country, application, and volume schedule.
Project files can cover UN38.3, MSDS / SDS, shipment labels, test summaries, and documentation paths for CE, IEC, UL, RoHS / REACH, and other requirements.
Operating temperature, continuous / peak current, enclosure protection, connectors, chargers, communication interfaces, and field-service needs are reviewed before mass production.
Cell batch data, matching records, BMS settings, inspection results, and aging summaries can be aligned before sampling or pilot production.
LiFePO4 batteries offer longer cycle life (2,000+ cycles), better thermal stability, safer chemistry with lower thermal runaway risk, and more predictable aging behavior compared to other lithium chemistries.
Common LiFePO4 pack voltages include 12V, 24V, 48V, 72V, and 96V. Custom voltages can be designed based on cell configuration and application requirements.
LiFePO4 batteries can operate in cold environments but with reduced capacity. For low-temperature applications, heating elements or insulation can be integrated into the pack design.
Project quote
Share voltage, capacity, application, quantity, target market, enclosure needs, and certification targets. Our team will map the pack architecture and quote path.