Samsung 50S Safety and risk management - particularly around overheating and thermal runaway during flight. Core Technical Keywords
Discover the Samsung 50S cell for UAV applications, designed to enhance safety and performance while managing thermal risks during flight.
Value Propositions
Cylindrical 21700 form factor for optimal integration.|Nominal capacity of 18.0 Wh and 5.0 Ah for reliable energy supply.|Top-quartile volumetric energy density of 719 Wh/l for compact designs.|Gravimetric energy density of 250 Wh/kg supports lightweight UAVs.|Maximum continuous discharge of 45 A for high-performance applications.
The Samsung 50S cell is engineered for UAV applications, focusing on safety and efficiency.|Designed to prevent overheating and thermal runaway during critical missions.|Ideal for drone battery design and UAV battery pack design.|Optimised for high energy density and lightweight configurations.|Supports custom UAV battery packs for various operational needs.
With a standard charge current of 2.5 A, it ensures quick turnaround times.|Maximum continuous charge of 6.0 A allows for rapid energy replenishment.|Standard discharge current of 1.0 A provides stable power delivery.|Volumetric power density of 6467 W/l enhances performance under load.|Gravimetric power density of 2250 W/kg for demanding applications.
The Samsung 50S cell is suitable for long endurance drone batteries.|Perfect for VTOL drone battery pack design and heavy lift applications.|Provides reliable energy for fixed-wing UAV battery solutions.|Designed to meet the needs of swarming drone battery requirements.|Ensures performance in extreme environments.
Engineered for optimal battery thermal management for drones.|Supports accurate drone battery SOC prediction for mission planning.|Facilitates UAV battery performance testing for reliability.|Enhances drone powertrain efficiency for extended flight times.|Addresses pain points in extending drone flight time battery.
About the Cell
The Samsung 50S cell features a cylindrical 21700 form factor, providing a nominal capacity of 18.0 Wh and 5.0 Ah. Its volumetric energy density of 719 Wh/l places it in the top-quartile compared to the database median of 542 Wh/l, making it an excellent choice for compact UAV designs. Additionally, the gravimetric energy density of 250 Wh/kg is significantly above the median of 210 Wh/kg, ensuring lightweight solutions for drone applications. With a maximum continuous discharge of 45 A, this cell is among the highest in the database, allowing for robust performance in demanding scenarios. The standard charge current of 2.5 A and maximum continuous charge of 6.0 A provide flexibility in charging options, making it suitable for various operational needs.
Application Challenges
In the aerospace sector, safety and risk management are paramount, especially concerning overheating and thermal runaway during flight. The Samsung 50S cell addresses these challenges by providing high energy density and robust thermal management capabilities. The ability to maintain performance under high discharge rates is crucial for UAV applications, where reliability is essential. The cell's specifications ensure that it can handle the rigorous demands of drone operations, particularly in extreme environments where temperature fluctuations can impact battery performance. By optimising energy delivery and thermal stability, the Samsung 50S cell enhances mission success rates and operational safety.
Why this Cell
The Samsung 50S cell is specifically designed to meet the challenges of aerospace applications, particularly in safety and risk management. Its volumetric energy density of 719 Wh/l is significantly above the median, ensuring compact and efficient designs for UAVs. The maximum continuous discharge rate of 45 A positions it among the highest in the database, allowing for high-performance applications where rapid energy delivery is critical. Furthermore, the cell's gravimetric power density of 2250 W/kg supports lightweight drone designs, crucial for extending flight times and improving mission endurance. This combination of features makes the Samsung 50S an ideal choice for drone battery design and UAV battery optimisation.
How Model-Based Design Helps
Simulation and model-based design play a vital role in optimising the performance of the Samsung 50S cell in UAV applications. By modelling load profiles, thermal rise, and voltage sag, engineers can accurately predict the cell's behaviour under various operational conditions. This approach allows for the selection of the most suitable cells based on real-world scenarios, ensuring that the chosen battery meets the specific needs of the mission. For instance, simulating thermal behaviour helps identify potential overheating issues, enabling proactive measures to prevent thermal runaway. Additionally, modelling usable energy across different flight profiles aids in accurate drone battery SOC prediction, enhancing mission planning and execution. Overall, simulation supports informed decision-making, reducing the risks associated with drone operations.
