Standard LiFePO4 battery platforms
12.8V, 25.6V, 38.4V, and 51.2V LiFePO4 battery packs can be configured around 100Ah, 200Ah, or project-specific capacity targets for deep-cycle use.
LiFePO4 replacement batteries
Staricell supplies drop-in LiFePO4 battery packs built around standard voltage platforms, deep-cycle capacity, long cycle life, BMS protection, enclosure fit, and export-ready documentation.
Product configuration
12.8V, 25.6V, 38.4V, and 51.2V LiFePO4 battery packs can be configured around 100Ah, 200Ah, or project-specific capacity targets for deep-cycle use.
Battery size, case format, terminal position, handle layout, mounting, vibration, and cable path are matched to the existing battery bay before sampling.
BMS current limits, low-voltage cutoff, temperature protection, charge voltage, charger behavior, and SOC display can be matched to the target LiFePO4 battery product.
Applications
Related product options
Deep-cycle module for RV, marine, backup, and portable power replacement projects.
Best fit
100A planning / RV / LiFePO4
Higher-capacity 12V deep-cycle battery for longer runtime in mobile and backup applications.
Best fit
100A-150A planning / RV / LiFePO4
Wall-mounted home battery for residential solar and backup power systems.
Best fit
100A planning / Home backup / LiFePO4
A rack-mount LiFePO4 battery module for solar storage, home backup, telecom UPS, and modular commercial power projects.
Best fit
100A continuous / 150A peak / Solar storage / LiFePO4
Related sourcing paths
FAQ
Many LiFePO4 battery packs can be configured as drop-in replacements, but voltage range, charger behavior, peak current, terminal layout, physical size, and BMS cutoff settings should be checked first.
Golf carts, RV auxiliary power, marine trolling motors, solar backup, telecom backup, UPS, cleaning equipment, and industrial service equipment commonly use drop-in LiFePO4 battery products.
Sometimes. Existing lead-acid chargers must be reviewed against the LiFePO4 battery charge voltage, charge current, termination behavior, and BMS requirements.
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.
Project quote
LiFePO4 battery products for 12V, 24V, 36V, and 48V lead-acid system upgrades, including deep-cycle modules for golf carts, RVs, marine power, solar backup, UPS, and industrial equipment.