Nichicon recommends a voltage derating of 80% to ensure reliable operation and to prevent overheating.
The ESR of the UPW1J471MHD6 capacitor decreases with increasing frequency, but the datasheet does not provide a specific graph or equation. However, Nichicon provides a general ESR vs. frequency curve for similar capacitors, which can be used as a reference.
The maximum allowable ripple current for the UPW1J471MHD6 capacitor is not explicitly stated in the datasheet. However, Nichicon provides a ripple current calculation formula in their application notes, which can be used to determine the maximum allowable ripple current based on the capacitor's temperature and other factors.
The capacitance of the UPW1J471MHD6 capacitor decreases with increasing temperature, but the datasheet does not provide a specific temperature coefficient. However, Nichicon provides a general capacitance vs. temperature curve for similar capacitors, which can be used as a reference.
Yes, the UPW1J471MHD6 capacitor is suitable for use in high-reliability applications, such as in aerospace, automotive, and medical devices. Nichicon provides a range of reliability tests and certifications, including AEC-Q200 and ISO 9001, to ensure the capacitor's quality and reliability.
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UPW1J471MHD6 Overview
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