NEWARE's CT-4008Q-5V12A-204 is an advanced battery testing solution that is suitable for testing cylindrical and pouch cells for 3C digital products. With its cutting-edge features, it meets various testing requirements of battery/3C manufacturers and research institutions. The CT-4008Q-5V12A-204 boasts the following features:
Voltage & Current :5V100mA
Range 1:0.5mA ~ 100mA
Range 2:100mA ~ 500mA
Range 3:500mA ~ 6A
Range 4:6A ~ 12A
- 8 independent channels: Each channel supports independent testing, allowing for comprehensive and simultaneous evaluation of multiple batteries.
- Versatile testing support: The CT-4008Q-5V12A-204 supports testing including cycle life, rate performance, pulse simulation, GITT, DCIR, and dQ/dV analysis, providing a wide range of testing capabilities.
- Charging & Discharging modes: It offers various charging and discharging modes, including constant current, constant voltage, constant current & voltage, constant power, and constant resistance, enabling flexibility in testing different battery types and performance metrics.
- Safety features: The system includes safety features such as shutdown, off-line testing, and overheating protection, ensuring the safety and integrity of the testing process.
- Unified control: The charge and discharge testing system and environmental test chamber can be controlled uniformly from a PC, streamlining the testing process and enhancing efficiency.
The NEWARE CT-4008Q-5V12A-204 is designed to provide invaluable support for battery material research, 3C products. Its versatile capabilities and precise testing mechanisms make it an indispensable tool for a wide range of applications, contributing to the advancement of battery technology and the development of innovative 3C products.
NEWARE is at the forefront of providing comprehensive battery testing solutions to meet the evolving needs of the industry. The CT-4000 Series, including the CT-4008Q-5V12A-204, offers accurate and reliable battery testing for a variety of battery types, including flow batteries, supercapacitors, cylindrical cells, and more. With NEWARE's advanced testing equipment, battery manufacturers and research institutions can benefit from:
- GITT testing: The inclusion of GITT testing capabilities enables precise current measurements, allowing for in-depth analysis of battery performance.
- Data storage and management: NEWARE's test equipment is equipped with efficient data storage and testing environment solutions, ensuring comprehensive data management and accessibility for valuable insights and analysis.
- Environmental test chambers: NEWARE's environmental test chambers provide a controlled testing environment for accurate and reliable testing, contributing to the development of robust and resilient battery solutions.
- Comprehensive battery testing solutions: NEWARE's commitment to comprehensive battery testing solutions encompasses cylinder batteries, battery racks, and efficient data management, offering a holistic approach to battery testing and evaluation.
For North American customers, NEWARE'swebsite[www.neware.net]
serves as a gateway to NEWARE's products and solutions. The website provides an extensive overview of NEWARE's advanced battery testing solutions, catering to the specific needs of North American customers. From advanced battery testers to environmental test chambers, NEWARE's solutions are designed to empower customers with the tools and insights needed to drive innovation and excellence in battery technology.
In conclusion, NEWARE's CT-4008Q-5V12A-204 and the broader CT-4000 Series represent a significant leap forward in battery testing technology. With a focus on precision, versatility, and safety, these advanced solutions are poised to shape the future of battery technology and 3C product development. Through NEWARE's commitment to innovation and excellence, customers can trust in the reliability and accuracy of their battery testing solutions, paving the way for groundbreaking advancements in the industry.
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.