MaxAmps MA-5200 Drone Battery for Mission Feasibility Assessment - Core Technical Keywords
Explore the MaxAmps MA-5200 drone battery, designed for mission feasibility assessments, ensuring optimal performance and reliability in UAV applications.
Value Propositions
Pouch form factor for lightweight and compact design.
Nominal capacity of 19.24 Wh and 5.2 Ah for extended flight times.
Top-quartile volumetric energy density of 292 Wh/l for efficient space utilisation.
Maximum continuous discharge of 234 A, ensuring high performance under load.
Gravimetric power density of 6871 W/kg, ideal for dynamic UAV applications.
About the Cell
The MaxAmps MA-5200 is a pouch cell designed specifically for drone applications, featuring a nominal capacity of 19.24 Wh (5.2 Ah). Its volumetric energy density stands at 292 Wh/l, which is in the top-quartile compared to the database median of 541.67 Wh/l, making it an excellent choice for long endurance drone batteries. The gravimetric energy density is 153 Wh/kg, which is around the median, ensuring a good balance between weight and energy storage. The cell supports a maximum continuous discharge of 234 A, which is significantly higher than the median of 30 A, allowing for high discharge rate UAV batteries. Additionally, the cell's volumetric power density of 13158 W/l is among the highest in the database, providing robust performance for demanding applications.
Application Challenges
In the context of drones, mission feasibility assessment is crucial for determining what missions or use cases are viable. The MaxAmps MA-5200 cell's performance characteristics directly impact the ability to make informed go/no-go decisions. For example, its high energy density allows for longer flight times, which is essential for applications such as surveying or inspection. The ability to predict battery performance under various conditions, including temperature and state of charge (SoC), is vital for ensuring mission success. The challenge lies in accurately assessing whether the battery can deliver the required thrust and energy throughout the mission, especially in extreme environments where battery performance can vary significantly.
Why this Cell
The MaxAmps MA-5200 cell is particularly suited for mission feasibility assessments due to its impressive specifications. With a maximum continuous discharge of 234 A, it is well above the median of 30 A, making it capable of handling demanding UAV applications. Its volumetric energy density of 292 Wh/l positions it in the top-quartile compared to the database median, allowing for efficient energy storage in compact designs. This is crucial for applications requiring long endurance, such as heavy lift drone operations or fixed-wing UAV solutions. The cell's lightweight design, combined with high power density, ensures optimal performance while minimising the impact on overall drone weight, which is essential for extending flight times and improving mission endurance.
How Model-Based Design Helps
Simulation and model-based design play a critical role in optimising the selection of battery cells for UAV applications. By simulating load profiles, thermal behaviour, and voltage response, engineers can predict how the MaxAmps MA-5200 will perform under various mission scenarios. This includes assessing the impact of temperature on battery performance and the effects of different SoC levels on thrust and energy delivery. The ability to model these factors allows for informed decision-making regarding cell selection, ensuring that the chosen battery can meet the specific demands of the mission. This predictive capability is essential for preventing issues such as battery overheating and ensuring reliable operation in extreme environments.
