Enpower Greentech XNP0094J Maximise flight time - optimise the cell selection, duty cycle and flight speed to maximise flight time.
Discover the Enpower Greentech XNP0094J cell, optimised for EVTOL applications to maximise flight time and enhance UAV performance in challenging conditions.
Value Propositions
Nominal capacity of 32.9 Wh and 9.4 Ah, ideal for extended UAV missions.
Volumetric energy density of 607 Wh/l, top-quartile vs median of 541 Wh/l.
Gravimetric energy density of 281 Wh/kg, around median of 210 Wh/kg.
Maximum continuous discharge of 47 A, top-quartile vs median of 30 A.
Volumetric power density of 3036 W/l, among the highest in database.
About the Cell
The Enpower Greentech XNP0094J cell features a pouch form factor, with a nominal capacity of 32.9 Wh and 9.4 Ah. It boasts a volumetric energy density of 607 Wh/l, which is in the top-quartile compared to the median of 541 Wh/l in the database. The gravimetric energy density stands at 281 Wh/kg, which is around the median of 210 Wh/kg. Additionally, the cell has a maximum continuous discharge rate of 47 A, placing it in the top-quartile against the median of 30 A. The volumetric power density is an impressive 3036 W/l, which is among the highest in the database, making it suitable for demanding UAV applications.
Application Challenges
In the EVTOL sector, maximising flight time is crucial. The challenge lies in optimising cell selection, duty cycle, and flight speed to achieve this goal. Current energy levels and discharge rates directly impact flight duration and mission success. For UAVs, ensuring that the battery can sustain high discharge rates while maintaining thermal stability is essential. The Enpower Greentech XNP0094J cell addresses these challenges with its high energy density and robust performance metrics, allowing for longer missions without compromising safety or efficiency.
Why this Cell
The Enpower Greentech XNP0094J cell is specifically designed to meet the demands of EVTOL applications. With a maximum continuous discharge of 47 A, it is in the top-quartile compared to the median of 30 A, ensuring that it can handle the high power requirements of UAVs during critical phases of flight. Its volumetric energy density of 607 Wh/l, which is in the top-quartile, allows for longer flight times, making it an ideal choice for applications requiring extended endurance. The combination of high energy and power densities ensures that this cell can deliver the performance needed for demanding UAV missions.
How Model-Based Design Helps
Simulation and model-based design play a vital role in optimising battery performance for UAV applications. By modelling load profiles, thermal behaviour, and voltage response, engineers can accurately predict how the Enpower Greentech XNP0094J cell will perform under various conditions. This approach allows for the identification of optimal duty cycles and flight speeds, ensuring that the cell operates within safe thermal limits while delivering the required energy. The ability to simulate different scenarios helps in selecting the best cell for specific missions, ultimately enhancing UAV reliability and efficiency.
