Enpower Greentech XNP0120J EVTOL Maximise flight time - optimise the cell selection, duty cycle and flight speed to maximise flight time.
Explore the Enpower Greentech XNP0120J cell for EVTOL applications, designed to maximise flight time and optimise performance under demanding conditions.
Value Propositions
Pouch form factor with a nominal capacity of 43.2 Wh and 12.0 Ah.
Volumetric energy density of 655 Wh/l, top-quartile vs median of 542 Wh/l.
Gravimetric energy density of 279 Wh/kg, around median of 210 Wh/kg.
Maximum continuous discharge of 60 A, top-quartile vs median of 30 A.
Volumetric power density of 3,273 W/l, +61% vs median of 2,029 W/l.
About the Cell
The Enpower Greentech XNP0120J is a pouch cell designed for high-performance applications, particularly in EVTOL systems. With a nominal capacity of 43.2 Wh and 12.0 Ah, it offers a robust solution for drone battery design. The cell features a volumetric energy density of 655 Wh/l, placing it in the top-quartile compared to the database median of 542 Wh/l. Its gravimetric energy density of 279 Wh/kg is around the median of 210 Wh/kg, making it a competitive choice for lightweight drone battery packs. Additionally, the cell boasts a maximum continuous discharge of 60 A, which is significantly higher than the median of 30 A, ensuring reliable performance under demanding conditions. The volumetric power density of 3,273 W/l is also impressive, exceeding the median by 61%, making it suitable for applications requiring high power output.
Application Challenges
In EVTOL applications, maximising flight time is critical. The XNP0120J cell's high energy density and discharge capabilities directly contribute to extending drone flight time. By optimising cell selection, duty cycles, and flight speeds, operators can achieve longer missions without compromising safety or performance. The challenge lies in balancing energy output with thermal management, especially in high-demand scenarios. The ability to predict battery performance under varying conditions is essential for ensuring mission success, particularly in extreme environments where reliability is paramount.
Why this Cell
The Enpower Greentech XNP0120J cell is ideal for EVTOL applications due to its impressive specifications. With a maximum continuous discharge of 60 A, it is in the top-quartile compared to the median of 30 A, allowing for high discharge rates necessary for demanding flight profiles. Its volumetric energy density of 655 Wh/l ensures that operators can maximise flight time while maintaining a lightweight design. The cell's gravimetric energy density of 279 Wh/kg, while around the median, still provides a competitive edge in terms of weight-to-energy ratio, crucial for UAV battery optimisation. These metrics combined make the XNP0120J a strong candidate for custom UAV battery packs.
How Model-Based Design Helps
Simulation and model-based design play a vital role in optimising the performance of the Enpower Greentech XNP0120J cell in EVTOL applications. By modelling load profiles, engineers can accurately predict how the cell will perform under various conditions, including thermal rise and voltage sag. This predictive capability allows for informed decisions regarding cell selection and configuration, ensuring that the chosen battery can deliver the required energy output throughout the flight envelope. Additionally, simulations can help identify potential overheating issues, enabling proactive thermal management strategies. By leveraging these advanced modelling techniques, operators can enhance drone powertrain efficiency and improve overall mission reliability.
