Drone technology has come a long way since its first introduction into non-military consumer use in 2010, becoming lighter, faster, and more compact over the years. Improvement in battery technology and battery testing equipment has greatly contributed to the advancement in drones, allowing smaller batteries with higher volumetric and energy densities to carry drones further […]
得益于电池测试设备,无人机飞得更远了 Read More »
Arbin is expanding in 2019 to increase production line testing capability. Dozens of new input power lines have already been installed in our 65,000 sqft. headquarters in Texas. There has been extreme demand for our high-power battery testing systems and we are working hard to keep up.
Join Arbin in celebrating NASA’s 60 years of achievements! USA Today released a Special Edition publication looking back at NASA’s past 60 years, and looking forward at what is on the horizon. View this special edition publication for free and check out Arbin’s ad on page 33. Energy storage is a critical requirement to achieve
Batteries are a critical component of many products, and energy storage plays a very active role in our lives even outside of the research/industry setting. Therefore, selecting the right battery test equipment is an important decision for companies and the individual researchers who are responsible for producing results, whether they are starting small, or at
All battery test equipment requires software to operate the instrument. The software interface can be one of the main differentiating points besides hardware performance. It is important to confirm the software communicates using a modern high-speed standard such as TCP/IP (Ethernet) protocol and whether high-performance microcontrollers are used internally. This helps future-proof the system as
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Accuracy represents the trueness of test equipment measurement; the closeness of average sample to its true value. Specifying this metric requires comparison to a known source such as a high-performance meter. Accuracy should not be confused with noise. The relationship between “accuracy” and “precision” relates to the measurement noise. As stated above, accuracy is how
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Robustness – the quality of materials and quality of construction have a major impact on how long the test equipment lasts and how long it will hold calibration. Resistance to corrosion and temperature fluctuations are significant attributes of high-quality test equipment. The instruments duty cycle and the maximum power rating also heavily contribute the usefulness and
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Temperature variance of the test equipment and the device under test will always affect the measurement. This is a physical property that cannot be escaped, but it can be minimized. Knowing how temperature affects the measurement empowers the researcher when determining the experimental error. When test equipment resolution and precision are sufficient, measurement fluctuation due
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Precision determines the level of noise/fluctuation present in the test equipment’s measurement. Precision also indicates the consistency and repeatability of the instrument’s measurement circuitry. A measurement with very little noise/fluctuation is considered to be precise. Measurement precision at “100ppm” indicates it will vary by no more than 0.01% (100/1,000,000). Many instruments will not specify their
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Resolution indicates the smallest change in measurement that can be detected by the instrument’s sense and control circuitry. Typically referred to in “bits” of resolution or an absolute unit of measurement such as µV or µA. For battery test equipment, resolution is determined by the analog to digital and digital to analog conversion, commonly known
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