Ship and store at zero volts.
Fully discharged to zero volts, our cells travel inert — no state-of-charge limits, no transport fire risk, no special handling from factory to field.
Battery systems built for defense, aerospace, and the world's harshest environments — from sub-arctic surveillance to high-altitude propulsion. Charge in minutes. Ship at zero volts. Deploy anywhere.
Our cells are designed against the conditions, not the spec sheet — engineered to ship at zero volts, charge fast while staying cool, run at temperature extremes, and endure thousands of cycles.
Fully discharged to zero volts, our cells travel inert — no state-of-charge limits, no transport fire risk, no special handling from factory to field.
High charge currents and full output across temperature extremes — without the lithium plating that slows, degrades, and endangers conventional cells.
Low mechanical strain per cycle means long calendar and cycle life, and eliminating lithium plating removes a primary trigger for thermal runaway.
A niobium-based cell engineered to fast-charge from zero volts and hold performance at temperature extremes — without the lithium plating that limits conventional cells.
DHC Power's niobium-based cells enable rapid recharge in minutes, not hours; high-rate discharge for dynamic mission loads; reduced thermal risk during high-current operation; and longer cycle life through high coulombic efficiency — all while remaining compatible with existing lithium-ion manufacturing.
DHC cells power systems that operate when the conditions don't. Sub-arctic to high-tempo, dismounted to automated — one cell qualified for the field, not the bench.
Sustained operation in unheated enclosures across multi-week deployments.
DetailsField-charge to 100% in under ten minutes, in any operational climate.
DetailsConformal, lightweight power for dismounted soldier systems across multi-day missions.
DetailsHigh-cycle packs and fast opportunity charging for AMR and automation fleets.
DetailsPerformance numbers across the DHC Sentinel cell at end-of-life cycle 3,000 in a controlled −60°C environment. Independent verification on request.
Most DHC programs begin with a one-page operating brief — your envelope, your form factor, your unknowns. We'll respond inside two business days.