Description
PACK OF 200 PIECES
The R470/35 is an electrolytic radial capacitor with a capacitance of 470 microfarads (µF) and a voltage rating of 35 volts. Designed to withstand high temperatures up to 105°C, this capacitor is well-suited for electronic circuits that require a substantial level of capacitance with a moderate voltage tolerance in demanding thermal environments. The radial design of this capacitor makes it ideal for a wide range of applications, especially in scenarios where both significant capacitance and temperature resilience are important.
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Capacitance (470µF): The 470µF capacitance offers significant energy storage and filtering capabilities, making it suitable for applications requiring robust energy management, such as in power regulation, smoothing, and buffering circuits.
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Voltage Rating (35V): With a voltage rating of 35 volts, this capacitor can handle medium-voltage applications, making it versatile for use in various electronic devices and circuits.
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Temperature Rating (105°C): The ability to operate effectively at temperatures up to 105°C ensures stable performance in high-temperature applications, making it suitable for industrial, automotive, or other environments with elevated temperatures.
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Model (R470/35): The specific model number R470/35 accurately identifies the capacitor's features, aiding in proper selection and integration into suitable electronic designs.
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Applications: Frequently used in power electronics, automotive electronics, and industrial applications where a balance of high capacitance, medium voltage, and high-temperature endurance is required.
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Features: Known for its substantial capacitance, medium voltage rating, and excellent thermal resistance, the R470/35 capacitor is designed for reliable operation in demanding situations.
In summary, the R470/35 electrolytic radial capacitor, with its 470µF capacitance, 35V voltage rating, and high-temperature capability, is a vital component for electronic systems that require significant energy storage in medium-voltage and high-temperature conditions.
