Tenpower 30TG Mission feasibility assessment - asses what missions or use cases are possible or not using a go/no-go decision using simulation.
Explore the Tenpower 30TG cell for mission feasibility assessments in EVTOL applications, optimising drone battery performance and reliability.
Value Propositions
Cylindrical 21700 form factor for compact design.
Nominal capacity of 10.8 Wh (3.0 Ah) for efficient energy storage.
Top-quartile volumetric power density of 5,687 W/l for high performance.
Gravimetric energy density of 161 Wh/kg supports lightweight designs.
Maximum continuous discharge of 40 A for demanding applications.
About the Cell
The Tenpower 30TG cell features a cylindrical 21700 form factor, providing a nominal capacity of 10.8 Wh and 3.0 Ah. With a volumetric energy density of 426 Wh/l and a gravimetric energy density of 161 Wh/kg, it is designed for high-performance applications. The cell boasts a volumetric power density of 5,687 W/l, placing it among the highest in the database, and a gravimetric power density of 2,149 W/kg, which is also top-quartile compared to the median. The standard charge current is 1.5 A, with a maximum continuous charge of 6.0 A, allowing for efficient energy management. The cell's specifications make it ideal for UAV applications, particularly in mission feasibility assessments where energy efficiency and reliability are paramount.
Application Challenges
In the context of EVTOL and mission feasibility assessment, the ability to accurately predict what missions or use cases are viable is crucial. The performance of the Tenpower 30TG cell, with its high energy density and robust discharge capabilities, directly impacts the feasibility of various drone missions. For instance, in scenarios requiring long endurance, the cell's nominal capacity and discharge rates are essential for ensuring that drones can complete their missions without mid-air failures. The challenge lies in balancing energy consumption with operational requirements, particularly in extreme environments where temperature and load conditions can vary significantly. Simulation plays a key role in assessing these factors, enabling operators to make informed go/no-go decisions based on real-time data.
Why this Cell
The Tenpower 30TG cell is particularly suited for EVTOL applications due to its impressive specifications. With a maximum continuous discharge of 40 A, it is positioned in the top-quartile compared to the median of 30 A, ensuring that it can handle demanding power requirements during flight. Additionally, its volumetric energy density of 426 Wh/l is significantly above the median of 541 Wh/l, making it a strong candidate for applications where space and weight are critical. The cell's design allows for effective thermal management, which is crucial in preventing overheating during high discharge scenarios. This combination of features not only enhances mission feasibility but also improves overall UAV performance, making it a preferred choice for drone battery design.
How Model-Based Design Helps
Simulation and model-based design are integral to optimising the performance of the Tenpower 30TG cell in UAV applications. By modelling load profiles, thermal behaviour, and voltage responses, engineers can predict how the cell will perform under various conditions. This predictive capability allows for the identification of the optimal charge and discharge rates, ensuring that the cell operates within safe limits while delivering the required power. Furthermore, simulations can help in assessing the impact of environmental factors, such as temperature variations, on battery performance. This data-driven approach not only aids in selecting the right cell for specific missions but also enhances the reliability of go/no-go decision-making processes, ultimately leading to more successful UAV operations.
