Description

The highest peak current and highest sustained output in the entire 130C Ultra Ternary tier. The 3.7V Ternary 3,000mAh delivers 390A peak and 180A continuous from a 75g, 10.7mm soft pack in the 34×96mm format — the absolute performance ceiling of the 34×96mm footprint and the last cell in the entire Ultra Ternary lineup operating at the 130C rate. Built for larger FPV racing drones, RC cars, RC aircraft, and RC boats where the 130C rate architecture is the design requirement and maximum energy in the 34×96mm bay is the objective.

 

Key Specifications at a Glance

Why Choose the Midlands Power 3,000mAh Ultra Ternary Battery?

390A Peak — Highest Instantaneous Current in the Entire 130C Ultra Ternary Tier

Advanced electrode material formulation and the 34×96mm geometry deliver 390A of instantaneous peak burst current at 130C — the highest absolute peak current of any Ultra cell operating at the 130C rate across all formats and capacities. No 130C-rated Ultra cell at any format or capacity produces more. Against the full 130C rate tier:

390A is 65A more than the 2,500mAh (325A), 130A more than the 34×62mm 2,000mAh (260A), and 280A more than the highest peak of any 20-series Ultra cell. For motor and ESC configurations requiring above 325A instantaneous current within the 130C rate architecture, this is the only Ultra cell that delivers it.

 

180A Continuous — The First Ultra Cell to Sustain 180A in the 130C Tier

At 60C continuous from 3,000mAh, this cell delivers 180A of sustained output — the highest continuous current of any 130C-rated Ultra cell across all formats, and the first in the entire 130C tier to cross the 180A sustained threshold. The 34-series progression tells the story:

That is a 50% increase in sustained output over the 120A baseline established at the start of the 34-series, achieved progressively across four cells. For motor and ESC configurations sustaining draws above 150A during extended aggressive racing runs, the 3,000mAh is the last cell in the Ultra 130C lineup that meets this requirement.

 

The Last Cell in the Ultra Lineup at the 130C Rate

The 43×128mm format — the next tier above this cell in the Ultra lineup — operates at 75C peak and 45C continuous, a fundamentally different rate architecture. The 3,000mAh 34×96mm is therefore the final expression of the 130C Ultra Ternary platform. For competitive FPV and racing platforms specifically calibrated around 130C-rated cells — whether in ESC input design, motor winding specifications, or build architecture — the 3,000mAh is the maximum capacity and energy available before the lineup transitions to the lower C-rating 43×128mm format. There is no path to more 130C current or more 130C energy in the Ultra catalog above this cell.

 

20.0% More Energy Than the 2,500mAh — The Largest Step in the 34×96mm Format

Stepping from the 2,500mAh to the 3,000mAh adds 1.85Wh of stored energy (+20.0%) and raises peak burst from 325A to 390A (+20.0%) — the largest proportional energy gain of any step in the 34×96mm family — for 13g of additional weight and 1.8mm of additional thickness in the same bay. No frame modification is required. For racing runs where the 2,500mAh’s 9.25Wh falls short of the required mission duration, the 3,000mAh extends available energy by one fifth from the same 34×96mm slot.

 

11.10Wh — Highest Stored Energy in the 34×96mm Format and the 130C Tier

At 11.10Wh, the 3,000mAh stores more energy than any other cell in the 34×96mm family and more than any cell operating at the 130C peak rate across the entire Ultra Ternary lineup:

• 1.85Wh more than the 2,500mAh (9.25Wh)
• 2.96Wh more than the 2,200mAh (8.14Wh)

For racing applications where run duration within the 34×96mm format at the 130C rate is the primary performance variable, 11.10Wh provides approximately 20% longer potential run time than the 2,500mAh at equivalent power draw.

 

Ceramic Separator and PVDF Electrode — Racing-Grade Construction at the 130C Ceiling

Industry-first ceramic separator and PVDF electrode construction deliver the thermal resistance and structural integrity required at the highest output levels the 130C Ultra Ternary tier produces. At 130C peak and 390A output — the ceiling of the entire 130C rate tier — the ceramic separator’s thermal performance is at its most critical application across the entire 130C lineup. The PVDF binder maintains electrode structural integrity under the combined stress of 180A continuous discharge and 390A peak events through the full 96mm electrode length at 3,000mAh capacity, contributing to long cycle life and consistent performance across hundreds of high-rate charge-discharge cycles in the most demanding racing environments.

 

Full 34×96mm Format Comparison

Stepping Up From the 2,500mAh

Moving from the 2,500mAh to the 3,000mAh in the same 34×96mm bay adds 1.85Wh of stored energy (+20.0%), raises peak burst from 325A to 390A (+65A), and raises continuous from 150A to 180A (+30A) — for 13g of additional weight and 1.8mm of additional thickness. No frame modification is required. This is the largest proportional energy and current gain available within the 34×96mm format from a single capacity step, and it closes the format at its absolute performance ceiling.

 

The 34×96mm Format Ceiling — No Higher 130C Capacity Exists

The 3,000mAh is the highest capacity available in the 34×96mm footprint. There is no higher capacity in this bay, no higher 130C peak current, and no higher 130C stored energy in the Ultra catalog. Moving above 3,000mAh requires the 43×128mm format at 4,000mAh — a larger footprint operating at 75C peak, not 130C. For any build where the 34×96mm bay is the fixed constraint and the 130C rate architecture is the design requirement, the 3,000mAh is the definitive and only endpoint.

 

Charging: 2C / 6.0A — Full Charge in ~30 Minutes

The 2C continuous charge rate delivers 6.0A input — the highest absolute charge current in the 34×96mm family and the highest of any Ultra cell at the 130C rate tier — fully charging the cell in approximately 30 minutes. The clean 6.0A figure is the natural endpoint of the 34×96mm family’s charge progression: 4.4A at 2,200mAh, 5.0A at 2,500mAh, 6.0A at 3,000mAh. Running multiple cells in rotation at 2C sustains back-to-back racing sessions at the maximum energy level the 34×96mm format delivers.

 

Ideal Applications

Larger FPV racing drones — 130C / 390A peak and 180A continuous, the definitive maximum output of the 130C Ultra Ternary tier for the most demanding builds in the 34×96mm bay.

RC cars requiring above 325A peak — the only cell in the 130C Ultra lineup exceeding 325A instantaneous peak current, in the 34×96mm format.

RC aircraft with extended fuselage battery channels — 11.10Wh at 75g in the 34×96mm footprint, the maximum run time available in this format for large-scale 130C racing aircraft.

RC boats requiring above 150A sustained — 180A continuous is the highest sustained output in the 130C tier for the most demanding hull motor configurations.

2,500mAh upgrade builds — same 34×96mm bay, 20.0% more energy, 65A more peak, 30A more continuous, for 13g and 1.8mm, no frame modification required.

130C platform final build — the definitive endpoint for all 130C-rate Ultra Ternary builds before the lineup transitions to the 43×128mm 75C format.

 

Product Summary

The Midlands Power 3.7V Ternary 3,000mAh closes the 34×96mm format and the entire 130C Ultra Ternary tier at its absolute performance ceiling: 390A peak — the highest of any 130C-rated Ultra cell — 180A continuous, and 11.10Wh of stored energy, all from a 75g, 10.7mm cell that requires no frame modification from the 2,500mAh. For competitive racing builds fixed to the 34×96mm bay and the 130C rate architecture, there is nothing above this cell.

Series: Ultra | Chemistry: 3.7V Ternary | Construction: Ceramic separator / PVDF electrode | Form Factor: Soft Pack / Pouch Cell