Power that meets the standard of care.
Custom Li-ion battery packs and BMS engineered for medical devices — built for safety, consistency, and the documentation rigor that regulated medical programs require.
Why Medical Device OEMs Choose Custom
Where battery failure isn't an acceptable outcome.
Medical devices place patients and clinicians directly in the loop. Power systems need to meet a higher bar for safety, consistency, and documentation than almost any other application.
Patient & operator safety
Protection circuitry and cell selection prioritize fail-safe behavior over marginal performance gains — safety margins are not negotiable.
Traceability & documentation
Batch records, sourcing traceability, and test documentation built for the rigor of medical device quality management systems.
Batch-to-batch consistency
Devices used across clinical settings need predictable performance from every unit — not just the units that happened to test well.
Device-specific form factor
Medical device housings rarely accommodate standard pack dimensions — our custom designs fits the device
What We Offer
Power systems for medical devices.
From cell selection through documentation — built for devices that can't afford to fail.
Custom battery packs
NMC and LFP Li-ion packs engineered around your device's housing, voltage, and capacity requirements.
Safety-focused BMS
Protection circuitry designed with conservative safety margins, prioritizing fail-safe behavior across every operating condition.
Smart chargers
Chargers engineered for consistent, predictable charge behavior suited to clinical and point-of-care environments.
Documentation & traceability
Batch records, testing documentation, and sourcing traceability built to support your device's quality management system.
Monitoring & diagnostics
State-of-health and state-of-charge data to support device-level safety monitoring and maintenance scheduling.
Custom form factor engineering
Pack geometry designed to fit device housings precisely, including low-profile and irregular-shape configurations.
(case-by-case)Engineering Considerations
What goes into a medical device battery.
Cell chemistry & safety margin
Chemistry selection weighted toward thermal stability and predictable failure modes, often favoring LFP for its safety profile.
Low self-discharge design
Devices that sit on a shelf between uses need packs engineered to retain charge reliably over extended storage periods.
Consistent discharge behavior
Predictable voltage curves that support accurate device-level battery indicators clinicians and patients can rely on.
Documentation & traceability
Batch testing records and sourcing traceability built to support the documentation rigor of medical device quality systems.
Devices We Power
Applications
Scoping a battery requirement for a medical device?
Our engineering team works from your device's safety, regulatory, and form factor requirements to design a power system you can document and defend.
Talk to Our Engineering Team