Ampace JP30 Mission feasibility assessment - asses what missions or use cases are possible or not using a go/no-go decision using simulation.
Explore the Ampace JP30 for mission feasibility assessments in EVTOL applications, optimising drone battery performance and reliability for critical missions.
Value Propositions
Cylindrical 18650 form factor for versatile applications.
Nominal capacity of 11.1 Wh and 3.0 Ah for reliable energy supply.
Top-quartile volumetric power density of 11,739 W/l for high performance.
Gravimetric energy density of 222 Wh/kg, ideal for lightweight designs.
Maximum continuous discharge of 56 A, supporting demanding UAV operations.
About the Cell
The Ampace JP30 is designed in a cylindrical 18650 form factor, boasting a nominal capacity of 11.1 Wh and 3.0 Ah. With a volumetric energy density of 629 Wh/l, it stands out in the market, being around the median compared to other cells. Its gravimetric energy density of 222 Wh/kg is also competitive, providing a lightweight solution for UAV applications. The cell's volumetric power density of 11,739 W/l is among the highest in the database, ensuring that it can deliver high performance during critical missions. Additionally, the maximum continuous discharge rate of 56 A allows for robust performance under demanding conditions, making it suitable for various UAV applications.
Application Challenges
In the context of EVTOL and mission feasibility assessment, the Ampace JP30 cell addresses critical challenges. The ability to assess what missions or use cases are possible or not using a go/no-go decision is paramount. The high energy density and power output of the JP30 enable drones to operate efficiently, even in extreme environments. For instance, the ability to maintain performance in cold weather or with partial charge is crucial for mission success. The JP30's specifications allow for extended flight times, which is essential for applications requiring long endurance, such as surveillance or emergency response. Accurate predictions of battery state of charge (SOC) and performance under varying conditions are vital to prevent mid-air failures and ensure mission reliability.
Why this Cell
The Ampace JP30 is an excellent choice for EVTOL applications due to its impressive specifications. With a maximum continuous discharge rate of 56 A, it is in the top-quartile compared to the median of 30 A in the database, allowing for high discharge rates necessary for demanding UAV operations. Its volumetric energy density of 629 Wh/l is also noteworthy, being around the median, which supports long endurance missions. The combination of high power density and energy capacity means that the JP30 can effectively support mission feasibility assessments, ensuring that drones can perform reliably across various scenarios. This cell is particularly suited for applications that require lightweight and high-performance battery solutions.
How Model-Based Design Helps
Simulation and model-based design play a crucial role in optimising the performance of the Ampace JP30 in UAV applications. By modelling load profiles, thermal behaviour, and voltage response, engineers can accurately predict how the cell will perform under different conditions. This allows for the selection of the most suitable cell for specific missions, ensuring that the drone can deliver the required thrust and energy throughout its flight. For example, simulating the thermal rise and internal temperature of the JP30 during high discharge scenarios helps prevent overheating and ensures safe operation. Additionally, these simulations enable real-time go/no-go decision-making, which is essential for mission-critical applications. By leveraging cell-specific data, operators can confidently assess mission feasibility and improve overall UAV performance.
