NEWARE high-performance battery testing system is designed to meet the demanding requirements of electric vehicle (EV) battery development and validation. This advanced solution enables comprehensive evaluation of battery performance under real-world operating conditions, while supporting cutting-edge testing methodologies such as pulse charging/discharging and high-rate testing. The system is built with precision engineering and flexible customization to deliver actionable insights for improving battery reliability, efficiency, and lifespan.
Real-world condition simulation:
Replicate complex, real-world driving scenarios to accurately assess battery performance in diverse operating environments.
Pulse charging/discharging:
Evaluate battery response to rapid charge and discharge events, ensuring optimal performance during acceleration and regenerative braking.
Cycle-life testing:
Conduct extensive cycle-life evaluations to measure battery durability over time, including calendar aging and high-rate endurance testing.
High-rate charging/discharging:
Test batteries at extreme charge/discharge rates to validate their ability to meet the power demands of modern EVs.
Multi-channel configurations:
Test multiple battery cells or modules in parallel, enabling efficient scalability for evaluating full battery packs.
Flexible customization:
Tailor testing profiles and protocols to align with specific customer needs, whether for standard EV applications or advanced use cases.
Energy recovery functionality:
Reduce power consumption during testing by recovering and recycling energy back to the grid, lowering operational costs and environmental impact.
The system incorporates high-precision measurement and control technologies to deliver accurate and repeatable test results. It supports a variety of test modes, including constant current, constant voltage, constant power, and pulse testing, ensuring comprehensive evaluation of battery characteristics.
Streamline your battery testing process with a scalable, customizable solution.
Reduce energy waste and operational costs with built-in energy recovery.
Gain insights into battery behavior under real-world conditions to improve design and performance.
This system is a critical tool for manufacturers and researchers in the EV industry, enabling them to innovate and deliver high-quality, reliable battery solutions. For more detailed information, please explore our documentation or reach out to our team of experts.
The lab focuses on solid-state battery research to overcome traditional lithium batteries' safety and energy density issues, supporting environmental sustainability. It develops innovative solid-state electrolytes, refines electrode materials, and investigates ion transfer and interface stability to revolutionize battery technology.
The electric vehicle battery industry is rapidly developing, focusing on technological innovation, market competition, and sustainability. Research hotspots include solid-state batteries, new types of electrolytes, BMS optimization, and recycling technologies. The environmental adaptability, safety, and economic viability of batteries are key research areas, and the industry is expected to undergo more innovation and transformation.
Specializing in battery preparation technology research, the focus is on overcoming existing energy storage challenges by innovating in electrode materials, battery chemistry, and manufacturing processes to improve performance, safety, and reduce costs. Sustainability and recycling technologies for batteries are also emphasized to mitigate environmental impacts and foster the growth of green energy.
