All-in-One Battery Testing System

Integrating charge-discharge and temperature testing into one.

NEWARE All-in-One Testing System series has become the preferred tool for the research of solid-state batteries, electrochemical materials, and new energy power batteries, thanks to its fast switching between high and low-temperature environments, high-precision temperature control, and intelligent design. Suitable for both laboratory and industrial environments, it supports customized requirements and facilitates scientific research and innovation.

NEWARE All-in-One Battery Testing System

The battery testing system integrates with the environmental test chamber, saving experimental space.

Multi-zone temperature design: dual-zone/multi-zone design with independent control of each zone to increase testing efficiency.
Rapid high and low temperature environment switching: it adopts advanced temperature control technology, enabling fast switching between high and low temperatures, which greatly shortens the testing cycle and improves work efficiency.
High-precision temperature control: through high-precision temperature sensors and controllers, the internal temperature is stabilized within ±1.8℉(1℃) fully meeting the strict requirements for temperature accuracy in research on solid-state batteries, electrochemical materials, and battery materials.
Intelligent design: equipped with a touchscreen display and automatic control system, users can easily complete parameter setting, real-time experimental monitoring, and data collection via an intuitive interface. It supports remote control and data processing functions.
High-security design: equipped with safety protection devices such as alarm system, automatic explosion-proof pressure relief, over-temperature protection, double-lock structure and etc., it comprehensively ensures the safety of the experimental process and is suitable for laboratory and industrial scenarios.

NEWARE All-in-One Battery Testing System

Solid-State Battery Testing System

Integrates charge/discharge and temperature control for a stable and efficient testing process.

Constant Temperature Chamber: provides a stable and precise temperature environment.
Battery Charge/Discharge Tester: for battery performance testing, with high dynamic response and stable precision.
Solid-State Battery Mold: mimics the internal structure of batteries.
Wide temperature range regulation: capable of simulating battery performance under extreme temperature conditions to help researchers explore the low-temperature characteristics of solid-state batteries.
Leading technology: utilizes PID+Fuzzy control algorithms and a dual-cycle refrigeration system to ensure precision and stability in temperature control during solid-state battery testing.
Comprehensiveafter-sales service: provides customized solutions and thorough after-sales support to ensure customers have no concerns during operation.

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32 ~ 185°F (0 ~ 85°C)

Stable temperature control for routine battery performance and lifecycle testing.

Engineered for standard battery R&D and quality assurance (QA/QC) workflows — ensures consistent, highly repeatable thermal stability for long-duration cycling and performance characterization tests.

Supports constant temperature and humidity testing within the range of 32 ~ 185°F (0 ~ 85°C).
Under controlled conditions, it is ideally suited for capacity evaluation, cycle life testing, and DCIR (Direct Current Internal Resistance) testing.
Uniform airflow and stable thermal distribution ensure repeatable data across different samples.
Suited for lab-scale cell-level testing (coin, cylindrical, pouch, prismatic) and small module configurations.

Application Scenarios

Trusted testing solutions for global clients.

Battery Materials Research

We specialize in battery preparation technology research, focusing on overcoming existing energy storage challenges by innovating in electrode materials, battery chemistry, and manufacturing processes to improve performance, enhance safety, and reduce costs. Sustainability and recycling technologies for batteries are also emphasized to mitigate environmental impacts and foster the growth of green energy.

Solid-State Battery Research

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.

EV Parameter Assessment

Power battery technology faces multiple challenges, including enhancing energy density, enabling fast charging, ensuring safety, and improving cost-effectiveness. Laboratory research focuses on addressing these issues in EV power batteries. Researchers explore advanced materials, intelligent management, and green recycling technologies to improve battery performance and ensure safety. These efforts promote environmental sustainability and aid the global energy transition.

Cell Phone Battery

With the widespread use and increased frequency of cell phones, the endurance, safety, and lifespan of mobile phone batteries have become a focus of concern for both users and manufacturers. Cell phone batteries primarily use lithium-ion battery technology, but there are issues and challenges that drive the need for charge and discharge equipment to test cell

Electric Vehicle Battery

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.

Electric Transportation Battery

Electric Hoverboard, electric scooters, e bikes, and electric motorcycles are changing the way people travel, with the development of battery technology being at the core of this transformation. The main issues faced by electric bicycle batteries include battery cost, range, the popularity of charging infrastructure, thermal management of batteries, and safety. As battery technology continues to advance, it provides more reliable power support for these intelligent devices.