EVE Energy 30P Drones Mission feasibility assessment - asses what missions or use cases are possible or not using a go/no-go decision using simulation.
Discover the EVE Energy 30P cell for drones, optimised for mission feasibility assessment with high energy density and reliable performance.
Value Propositions
Cylindrical 18650 form factor for versatile applications.
Nominal capacity of 10.44 Wh and 2.9 Ah for extended use.
Volumetric energy density of 598 Wh/l, top-quartile vs median.
Gravimetric energy density of 218 Wh/kg, around median.
Maximum continuous discharge of 30 A, among the highest in database.
About the Cell
The EVE Energy 30P cell features a cylindrical 18650 form factor, making it suitable for various drone applications. With a nominal capacity of 10.44 Wh (2.9 Ah), it provides reliable energy storage for extended missions. The cell boasts a volumetric energy density of 598 Wh/l, placing it in the top-quartile compared to the database median of 542 Wh/l. Its gravimetric energy density is 218 Wh/kg, which is around the median, ensuring a balance between weight and energy storage. Furthermore, the maximum continuous discharge rate of 30 A positions it among the highest in the database, allowing for robust performance in demanding scenarios. These specifications make the 30P an excellent choice for drone battery design, particularly in applications requiring high energy density and lightweight solutions.
Application Challenges
In the context of drones, mission feasibility assessment is critical for determining which missions can be executed successfully. The EVE Energy 30P cell's specifications directly impact its performance in various scenarios. For instance, the high volumetric energy density of 598 Wh/l allows for longer flight times, which is essential for missions that require extended endurance. Additionally, the maximum continuous discharge rate of 30 A ensures that the cell can handle the power demands of high-performance drones, making it suitable for heavy lift and VTOL applications. The ability to accurately predict battery performance under different conditions is vital for ensuring mission success, particularly in extreme environments where reliability is paramount. Therefore, the selection of the right cell, such as the EVE Energy 30P, is crucial for optimising UAV battery performance and achieving mission objectives.
Why this Cell
The EVE Energy 30P cell is an ideal choice for drones due to its impressive specifications. With a nominal capacity of 10.44 Wh and a maximum continuous discharge rate of 30 A, it meets the demands of high-energy applications. The cell's volumetric energy density of 598 Wh/l is in the top-quartile compared to the database median, allowing for efficient space utilisation in UAV battery pack design. Furthermore, its gravimetric energy density of 218 Wh/kg ensures that the battery remains lightweight, which is essential for improving UAV mission endurance. The combination of these metrics makes the 30P a strong contender for drone battery cell selection, particularly in applications where performance and reliability are critical.
How Model-Based Design Helps
Simulation and model-based design play a crucial role in optimising the performance of the EVE Energy 30P cell for drone applications. By modelling load profiles, thermal behaviour, and voltage response, engineers can accurately predict how the cell will perform under various conditions. This approach allows for the assessment of mission feasibility by simulating different flight scenarios, including varying temperatures and states of charge (SoC). For example, simulations can help determine the cell's ability to deliver the required thrust and energy throughout the flight envelope, ensuring that drones can complete their missions without mid-air failures. Additionally, understanding thermal rise and voltage sag through simulation aids in selecting the most suitable battery for specific applications, ultimately leading to improved UAV powertrain efficiency and safer battery packs for UAVs.
