Ampace JP30 Drones Maximise flight time - optimise the cell selection, duty cycle and flight speed to maximise flight time.
Discover the Ampace JP30 cell for drones, designed to maximise flight time and optimise performance in demanding applications. Learn more now.
Value Propositions
Cylindrical 18650 form factor for compact integration.
Nominal capacity of 11.1 Wh and 3.0 Ah for reliable energy supply.
Top-quartile gravimetric power density of 4,144 W/kg for high discharge rates.
Volumetric energy density of 629 Wh/l, ideal for lightweight drone battery packs.
Maximum continuous discharge of 56.0 A, ensuring robust performance under load.
About the Cell
The Ampace JP30 cell is a cylindrical 18650 lithium-ion battery designed specifically for drone applications. With a nominal capacity of 11.1 Wh and 3.0 Ah, it provides a reliable energy source for various UAV operations. The cell boasts a volumetric energy density of 629 Wh/l, which is significantly above the database median of 542 Wh/l, making it an excellent choice for lightweight drone battery packs. Additionally, its gravimetric energy density of 222 Wh/kg positions it well within the top quartile compared to the median of 210 Wh/kg. The JP30 also features a volumetric power density of 11,739 W/l, which is among the highest in the database, ensuring that it can deliver power efficiently when needed. With a maximum continuous discharge rate of 56.0 A, this cell is capable of handling demanding applications without overheating, making it suitable for high-performance drones.
Application Challenges
In the realm of drones, maximising flight time is crucial for operational efficiency. The challenge lies in optimising the cell selection, duty cycle, and flight speed to achieve this goal. Drones often operate in varying conditions, requiring batteries that can deliver consistent performance. The Ampace JP30 cell addresses these challenges by providing high energy density and robust discharge capabilities. In practical terms, the ability to extend drone flight time directly impacts mission success, especially in applications such as industrial inspections, where every minute of airtime counts. Furthermore, ensuring that the battery does not overheat during operation is vital for maintaining safety and reliability in the field.
Why this Cell
The Ampace JP30 cell is specifically engineered for drone applications, making it an ideal choice for maximising flight time. With a maximum continuous discharge rate of 56.0 A, it is positioned in the top quartile compared to the median of 30 A in the database, allowing for high discharge rates that are essential for UAV performance. Its volumetric energy density of 629 Wh/l is significantly above the median, enabling lightweight drone battery packs that do not compromise on energy supply. Additionally, the cell's gravimetric power density of 4,144 W/kg ensures that it can deliver power efficiently, making it suitable for demanding flight profiles. This combination of features allows for effective UAV battery optimisation, ensuring that operators can achieve longer missions without the need for frequent recharges.
How Model-Based Design Helps
Simulation and model-based design play a critical role in optimising battery selection for drones. By modelling load profiles, thermal behaviour, and voltage response, engineers can predict how the Ampace JP30 cell will perform under various conditions. For instance, simulating the thermal rise during high discharge scenarios helps identify potential overheating issues, allowing for proactive design adjustments. Furthermore, modelling usable energy across different duty cycles ensures that the selected cell meets the specific energy demands of the mission. This approach not only streamlines the cell selection process but also enhances overall UAV performance by ensuring that the battery can deliver the required thrust and energy throughout the flight envelope. By leveraging these advanced simulation techniques, operators can make informed decisions that improve mission reliability and efficiency.
