Kokam SLPB98188216P Drones Mission feasibility assessment - asses what missions or use cases are possible or not using a go/no-go decision using simulation.
Explore the Kokam SLPB98188216P cell for drones, optimising mission feasibility with high energy density and performance for reliable operations.
Value Propositions
Pouch form factor for lightweight applications.
Nominal capacity of 111.0 Wh for extended flight times.
Top-quartile power density (+58% vs median 2,029 W/kg) for high discharge rates.
Gravimetric energy density of 128 Wh/kg, suitable for UAVs.
Maximum continuous discharge of 600 A, ideal for demanding missions.
About the Cell
The Kokam SLPB98188216P cell features a pouch form factor, providing a nominal capacity of 111.0 Wh and a nominal charge capacity of 30.0 Ah. With a volumetric energy density of 257 Wh/l and a gravimetric energy density of 128 Wh/kg, this cell is designed for high-performance applications. The volumetric power density is an impressive 5,148 W/l, placing it among the highest in the database, while the gravimetric power density reaches 2,552 W/kg, also in the top-quartile. This cell is engineered for demanding drone applications, ensuring reliability and efficiency under various operational conditions.
Application Challenges
In the context of drones, mission feasibility assessment is crucial for determining the viability of various missions. The Kokam SLPB98188216P cell's high energy density and power capabilities directly impact the ability to assess mission scenarios accurately. For instance, the ability to deliver a maximum continuous discharge of 600 A allows drones to perform complex tasks without the risk of power failure. Additionally, the cell's lightweight design contributes to improved flight times, making it suitable for long endurance missions. Accurate energy predictions are essential for ensuring that drones can complete their missions successfully, especially in challenging environments.
Why this Cell
The Kokam SLPB98188216P cell is an excellent choice for drone applications due to its impressive specifications. With a maximum continuous discharge of 600 A, it is positioned in the top-quartile compared to the median of 30 A in the database. This capability ensures that drones can handle high power demands during critical phases of flight. Furthermore, the cell's gravimetric energy density of 128 Wh/kg allows for lightweight designs, which is essential for enhancing UAV performance. The combination of high energy and power densities makes this cell ideal for mission feasibility assessments, ensuring that UAVs can operate effectively across various scenarios.
How Model-Based Design Helps
Simulation and model-based design play a pivotal role in optimising the performance of the Kokam SLPB98188216P cell for drone applications. By modelling load profiles and thermal behaviour, engineers can predict how the cell will perform under different conditions, such as varying temperatures and states of charge (SoC). This predictive capability allows for informed decision-making regarding mission feasibility, enabling operators to assess whether a drone can complete its mission without risking failure. Additionally, simulations can identify the optimal discharge rates and energy usage, ensuring that drones are not only efficient but also reliable in critical situations. By leveraging these advanced modelling techniques, the selection of the right cell for specific missions becomes a data-driven process, reducing the likelihood of costly errors and enhancing overall operational success.
