In the rapidly evolving world of technology, the demand for more reliable and efficient battery systems is at an all-time high. From powering the latest smartphones to fueling the electric vehicle revolution, batteries are at the heart of modern innovation. Enter the NEWARE CT-9000-5V5A, a battery testing system that sets new standards in precision, safety, and versatility. This article delves into the features and functionalities of the CT-9000-5V5A, showcasing why it's a game-changer for battery testing.
At the core of the NEWARE CT-9000-5V5A is its unparalleled precision and performance capability. Designed to cater to a wide range of batteries, including button batteries, 18650 rechargeable batteries, laptop batteries, and cell phone batteries, this system ensures that no stone is left unturned in the quest for optimal battery efficiency and reliability.
The CT-9000-5V5A boasts four distinct ranges across two voltage and current settings (5V6A and 5V12A), ensuring that it can accommodate the varied demands of different battery types and sizes. From ultra-low current measurements starting at 0.1μA to high current applications reaching up to 12A, this system covers an extensive spectrum. This wide dynamic range, coupled with high-speed sampling and high accuracy, makes the CT-9000-5V5A a versatile tool in any battery testing laboratory.
Safety is a paramount concern when dealing with battery testing. The NEWARE CT-9000-5V5A addresses this with several safety protection features, including discharge data protection, offline testing functionality, and comprehensive voltage and current limit settings. These features not only ensure the longevity of the testing equipment but also protect the batteries being tested, thereby enhancing overall testing efficiency.
One of the standout features of the CT-9000-5V5A is its high precision sampling capability, which can perceive even the smallest fluctuation in battery performance. With a data recording frequency of up to 1000Hz, this system surpasses many of its counterparts in the market. This high-frequency data set is crucial for accurately determining the DC internal resistance (DCIR) values, a key metric in assessing battery performance.
The NEWARE CT-9000-5V5A isn't just a standalone device; it's part of an integrated system designed for comprehensive battery testing. It supports the inclusion of auxiliary voltage and temperature measurements, as well as compatibility with environmental test chambers. This multi-dimensional approach allows for a more thorough evaluation of battery performance under various conditions, making it an invaluable tool for mass production testing and research.
In today's interconnected world, the ability to seamlessly integrate with other devices and systems is crucial. The CT-9000-5V5A supports SMBus communication, facilitating easy data transfer and system integration. This feature is particularly beneficial in complex testing environments where multiple devices need to communicate and operate in harmony.
The CT-9000-5V5A is not just a tool for quality control; it's also an asset for research and development. With support for differential capacity curve tests, this system is perfectly suited for battery research in universities, research institutes, and development labs. The insights gained from these tests can drive innovation in battery technology, leading to more efficient and reliable energy storage solutions.
The NEWARE CT-9000-5V5A represents the pinnacle of battery testing technology, offering unmatched precision, safety, and versatility. Whether it's for quality control in mass production or groundbreaking research in energy storage, this system provides the tools necessary for in-depth analysis and evaluation of battery performance. As we continue to push the boundaries of what's possible with battery technology, the CT-9000-5V5A will undoubtedly play a crucial role in shaping the future of energy storage systems.
NEWARE
755 Ames Avenue, Milpitas, CA, USA, 95035
● Voltage&Current Accuracy:±0.01% F.S.
● Recording Frequency:100Hz
● Current Response Time:≤1ms
● Minimum Pulse Width:500ms
● Off-Line Test:1GB/CH
● Cycle Life, GITT Test, DCIR Test, dQ/dV Curve
● Voltage & Current Accuracy:±0.01% F.S.
● Recording Frequency:10Hz
● Sampling Time:100ms
● Current Response Time:≤1ms
● Minimum Pulse Width:500ms
● Off-Line Test: 1GB
● Voltage & Current Accuracy:±0.05% F.S.
● Recording Frequency:10Hz
● Sampling Time:100ms
● Current Response Time:≤1ms
● Energy Efficiency:>65%
● Off-Line Test: 1GB
● Voltage & Current Accuracy:±0.05% F.S.
● Recording Frequency:10Hz
● Sampling Time:100ms
● Current Response Time:≤1ms
● Energy Efficiency:>65%
● Off-Line Test: 1GB
● Voltage & Current Accuracy:±0.05% F.S.
● Recording Frequency:10Hz
● Sampling Time:100ms
● Current Response Time:≤1ms
● Energy Efficiency:>65%
● Off-Line Test: 1GB
● Voltage Accuracy:±0.02% F.S.
● Current Accuracy:±0.05% F.S.
● Resolution Ratio AD/DA:16bit
● Current Response Time:≤1ms
● Minimum Pulse Width:100ms
● Off-Line Test:1GB/CH
● Voltage & Current Accuracy:±0.05% F.S.
● Recording Frequency:100Hz
● Current Conversion Time:≤6ms
● Current Response Time:≤3ms
● Minimum Pulse Width:100ms
● Feedback Efficiency (Max) :75%
● Voltage & Current Accuracy:±0.02% F.S.
● Voltage & Current Stability:±0.01% F.S.
● Recording Frequency:1000Hz
● Resolution AD:16bit
● Current Response Time:≤100μs
● Off-Line Test: 1GB
