Description
The Max 3.7V High Nickel Ternary 320WH/KG 32,000mAh delivers 118.4Wh — the highest energy in the 87×187mm format. It outperforms comparable cells with more energy while being lighter and thinner. It supports 1C charging, 3C continuous, and 5C peak, offering strong performance in a compact form.
- 320WH/KG — 118.4Wh, The Highest Stored Energy in the 87×187mm Footprint
The Max series High Nickel Ternary semi-solid cathode delivers 320WH/KG — the highest energy density of any cell in the 87×187mm format. At 118.4Wh, the 32,000mAh stores more energy than every other cell in this footprint: 7.4Wh more than the Prime HN Ternary 30,000mAh (111.0Wh at 280WH/KG), 7.8Wh more than the Prime SHV LCO 28,000mAh (110.6Wh at 280WH/KG), and 12.0Wh more than the Volt HV Li-Co 28,000mAh (106.4Wh at 240WH/KG). The 14.3% density advantage of 320WH/KG over 280WH/KG, compounding at the highest capacity tier of the 87×187mm format, delivers the widest energy lead over all alternatives here of any Max cell in the lineup.
- More Energy, Less Weight, Thinner — Than Both Prime Semi-Solid Cells at This Footprint
Against the Prime HN Ternary 30,000mAh: the Max 32,000mAh stores 118.4Wh vs 111.0Wh (+6.7%), weighs 380g vs 406g (26g lighter), and measures 10.6mm vs 10.8mm (0.2mm thinner). Against the Prime SHV LCO 28,000mAh: the Max 32,000mAh stores 118.4Wh vs 110.6Wh (+7.1%), weighs 380g vs 410g (30g lighter), and measures 10.6mm vs 11.3mm (0.7mm thinner). On all three physical metrics — energy, weight, and thickness — the Max 32,000mAh leads both competing semi-solid cells in this footprint simultaneously. This is the 320WH/KG platform producing its most decisive outcome: more energy in a lighter, thinner cell than the 280WH/KG alternatives at the same footprint.
- 80g Lighter Than the Volt HV Li-Co 28,000mAh — 11.3% More Energy
The Volt HV Li-Co 28,000mAh is the highest-capacity liquid-electrolyte cell in the 87×187mm footprint: 106.4Wh at 460g, 11.6mm, 3.8V, 25C/700A peak. The Max 32,000mAh stores 118.4Wh in 380g at 10.6mm — 80g lighter, 1.0mm thinner, 11.3% more energy. The only specification where the Volt HV Li-Co 28,000mAh leads is peak discharge: 25C/700A versus the Max’s 5C/160A. For any platform currently using the Volt HV Li-Co 28,000mAh where peak burst is not the primary requirement and maximum endurance is the objective, the Max 32,000mAh is the same-footprint replacement delivering more energy in a lighter, thinner, semi-solid cell.
- 0.2mm Thinner Stepping Up From the 25,000mAh
The Max 25,000mAh — the cell directly below this one in the family — measures 10.8mm in the 72×170mm footprint. The 32,000mAh moves to the larger 87×187mm bay and stores 28% more energy at 10.6mm — 0.2mm thinner. The larger planar area of the 87×187mm format distributes the additional cell material across a greater surface area, allowing the thickness to decrease even as capacity increases by nearly a third. For operators transitioning from the 25,000mAh to the 32,000mAh, the frame bay changes but the thickness constraint does not tighten.
- Entry Into the Max 87×187mm Group — The Footprint Transition Point
The 32,000mAh is the first Max cell in the 87×187mm bay. The two cells below it — the 20,000mAh and 25,000mAh — use the 72×170mm format. The 35,000mAh above it shares the 87×187mm bay. For operators stepping up from the Max 25,000mAh, this is the footprint transition: 28% more energy, 80g more weight, and a new frame bay. For operators already running any cell in the 87×187mm format from the Volt or Prime series, the Max 32,000mAh is a same-bay replacement delivering more energy than every existing alternative in the footprint.
- 28.0% More Energy Than the Max 25,000mAh — New Footprint
Stepping up from the 25,000mAh adds 25.9Wh of stored energy (+28.0%) and increases peak burst from 125A to 160A (+28.0%) by moving from the 72×170mm to the 87×187mm bay at a weight cost of 80g. For operators who have maximised the 72×170mm format with the 25,000mAh and need more endurance, the 32,000mAh is the next logical step — more energy, a new bay, and the same 320WH/KG platform and 1C / 3C / 5C rate architecture.
- 320WH/KG — New Solid-State Technology at the 87×187mm Format
The Max series achieves 320WH/KG through new high specific capacitance electrode materials and advanced semi-solid packaging technology — described by the manufacturer as new solid-state technology delivering industry-leading energy density in the semi-solid cell category. The semi-solid electrolyte construction reduces liquid electrolyte content versus conventional LiPo construction, providing lower risk of liquid leakage and fire, greater mechanical stability under vibration and impact loads, and more consistent internal geometry across the cell’s operational life. At 118.4Wh — the highest energy of any cell in the 87×187mm footprint — the safety advantage of semi-solid construction carries its greatest practical significance in this format.
- 5C Peak — 160A, 3C Continuous — 96A
The Max 32,000mAh delivers 160A peak burst and 96A continuous — the highest peak and continuous outputs of either Max cell in the 87×187mm format at the 320WH/KG tier. For mapping, logistics, emergency response, and fire-fighting UAVs where motor loads during cruise and standard operations fall within the 3C/96A continuous range and peak events do not exceed 5C/160A, this profile serves the endurance-first mission architecture this cell is designed for.
- 1C Charge — 32A Input, ~60 Min Full Charge
Standard 1C continuous charge delivers 32A input — the highest absolute charge current of any Max 320WH/KG cell in the 72×170mm or 87×187mm format — fully charging the cell in approximately 60 minutes. Consistent with every cell in the Max series. Three cells in rotation at 1C sustain continuous field operations without waiting across extended deployment windows.
- High-Precision Manufacturing — Electrode Preparation and Stacking
Automated, high-precision electrode preparation combined with advanced stacking and encapsulation technique ensures consistent internal structure and reduces performance fluctuations. At 118.4Wh and 320WH/KG — the energy ceiling of the 87×187mm format — manufacturing precision in electrode preparation and layer alignment is the direct determinant of both peak energy density realisation and safety behaviour across every production batch.
Core Specifications
| Parameter | Value |
|---|---|
| Series | Max |
| Product Type | High Density Semi-Solid Battery Cell |
| Material System | 3.7V High Nickel Ternary — 320WH/KG |
| Nominal Voltage | 3.7V |
| Capacity | 32,000 mAh (32Ah) |
| Continuous Charge Rate | 1C (32A) |
| Continuous Discharge Rate | 3C (96A) |
| Peak Discharge Rate | 5C (160A) |
| Dimensions (W×L) | 87 × 187 mm |
| Thickness | 10.6 mm |
| Weight | 380g (±5%) — 361g to 399g |
| Cell Form Factor | Soft Pack / Pouch Cell |
| Cell Technology | Semi-Solid — New Solid-State Technology |
| Chemistry | High Nickel Ternary |
| Nominal Energy | 118.4 Wh |
| Energy Density | 320 WH/KG |
| Full Charge Time | ~60 min (at 1C) |
Max 3.7V High Nickel Ternary 320WH/KG — Full Capacity Family
| Capacity | Dimensions (W×L) | Thickness | Weight | Energy | Cont. Discharge | Peak | Charge |
|---|---|---|---|---|---|---|---|
| 20,000 mAh | 72×170 mm | 8.8 mm | 245g | 74.0 Wh | 3C / 60A | 5C / 100A | 1C |
| 25,000 mAh | 72×170 mm | 10.8 mm | 300g | 92.5 Wh | 3C / 75A | 5C / 125A | 1C |
| 32,000 mAh ✅ | 87×187 mm | 10.6 mm | 380g | 118.4 Wh | 3C / 96A | 5C / 160A | 1C |
| 35,000 mAh | 87×187 mm | 11.0 mm | 410g | 129.5 Wh | 3C / 105A | 5C / 175A | 1C |
Why Choose the 32,000 mAh
| Reason | Detail |
|---|---|
| Highest stored energy in the entire 87×187mm footprint | 118.4Wh — more than Prime HN Ternary 30,000mAh (111.0Wh), Prime SHV LCO 28,000mAh (110.6Wh), Volt HV Li-Co 28,000mAh (106.4Wh) |
| More energy, less weight, thinner than Prime HN Ternary 30,000mAh | 118.4Wh vs 111.0Wh — 26g lighter and 0.2mm thinner simultaneously |
| 80g lighter than Volt HV Li-Co 28,000mAh — 11.3% more energy | 380g vs 460g, 118.4Wh vs 106.4Wh — same footprint, no frame modification |
| 0.2mm thinner than the 25,000mAh it steps up from | Larger footprint, 28% more energy, yet physically slimmer |
| Entry into the Max 87×187mm group | First Max cell in this bay — maximum 320WH/KG energy at the footprint transition point |
| 28.0% more energy than Max 25,000mAh | 92.5Wh → 118.4Wh — largest single energy step in the Max family |
Same Footprint — All 87×187mm Cells Compared
| Max HN Ternary 32,000mAh ✅ | Max HN Ternary 35,000mAh | Prime HN Ternary 30,000mAh | Prime SHV LCO 28,000mAh | Volt HV Li-Co 28,000mAh | Prime HN Ternary 27,000mAh | |
|---|---|---|---|---|---|---|
| Capacity | 32,000 mAh | 35,000 mAh | 30,000 mAh | 28,000 mAh | 28,000 mAh | 27,000 mAh |
| Thickness | 10.6 mm | 11.0 mm | 10.8 mm | 11.3 mm | 11.6 mm | 9.8 mm |
| Weight | 380g | 410g | 406g | 410g | 460g | 365g |
| Energy | 118.4 Wh | 129.5 Wh | 111.0 Wh | 110.6 Wh | 106.4 Wh | 99.9 Wh |
| Energy Density | 320 WH/KG | 320 WH/KG | 280 WH/KG | 280 WH/KG | 240 WH/KG | 280 WH/KG |
| Cont. Discharge | 3C / 96A | 3C / 105A | 5C / 150A | 5C / 140A | 10C / 280A | 5C / 135A |
| Peak Discharge | 5C / 160A | 5C / 175A | 10C / 300A | 10C / 280A | 25C / 700A | 10C / 270A |
| Charge Rate | 1C / 32A | 1C / 35A | 1C / 30A | 2C / 56A | 2C / 56A | 1C / 27A |
| Charge Time | ~60 min | ~60 min | ~60 min | ~30 min | ~30 min | ~60 min |
| Cell Technology | Semi-Solid | Semi-Solid | Semi-Solid | Semi-Solid | Liquid LiPo | Semi-Solid |
| Best For | Max energy in 87×187mm, lightest near-120Wh | Maximum 320WH/KG endurance | Higher rate, 280WH/KG | 2C charge, 3.95V | Maximum burst power | Lightest 87×187mm semi-solid |
Ideal Applications
| Application | Why This Cell Fits |
|---|---|
| Maximum endurance mapping & survey drones | 118.4Wh — the highest stored energy in the 87×187mm format for the longest possible survey coverage |
| Long-range logistics & delivery UAVs | 320WH/KG flagship energy in the 87×187mm bay — maximum range at the lightest weight in this format |
| Emergency response platforms | New solid-state semi-solid technology at peak 87×187mm energy for the longest critical on-station operations |
| Fire-fighting UAVs | Semi-solid construction with lower leakage and fire risk at the highest energy density in this footprint |
| Prime HN Ternary 30,000mAh or SHV LCO 28,000mAh replacement | Same bay — more energy, less weight, same or better thickness |
| Volt HV Li-Co 28,000mAh endurance upgrade | Same 87×187mm footprint — 80g lighter, 11.3% more energy, semi-solid construction |
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