Description
PACK OF 1000 PIECES
The R1/50 is a radial electrolytic capacitor with a capacitance of 1 microfarad (µF) and a voltage rating of 50 volts. Designed to operate reliably at high temperatures up to 105°C, this capacitor is suitable for electronic circuits that require precise, low capacitance at a moderate voltage level, especially in high-temperature environments. Its radial design makes it well-suited for a variety of applications where space efficiency and thermal resilience are important.
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Capacitance (1µF): The 1µF capacitance is ideal for applications needing precise energy storage and filtering, such as in timing circuits, signal processing, or power regulation.
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Voltage Rating (50V): With a 50-volt rating, 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): Its ability to function effectively at temperatures up to 105°C ensures reliable performance in high-temperature applications, suitable for industrial or automotive environments that experience elevated temperatures.
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Radial Design: The radial lead configuration allows for easy mounting on printed circuit boards, providing stability and ease of use in various electronic assemblies.
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Model (R1/50): The specific model number R1/50 accurately specifies the capacitor's features, aiding in proper selection and integration into suitable electronic designs.
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Applications: Commonly used in power supplies, industrial electronics, automotive systems, and other applications where high voltage and temperature endurance are crucial.
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Features: Known for its precision capacitance, moderate voltage handling, and excellent temperature resistance, the R1/50 capacitor is designed for stable and reliable operation in challenging conditions.
In essence, the R1/50 radial electrolytic capacitor, with its 1µF capacitance, 50V voltage rating, and high-temperature endurance, is an essential component for electronic systems that demand precision capacitance in moderate-voltage and high-temperature scenarios.