Description
PACK OF 1000 PIECES
The R47/50 is an electrolytic radial capacitor with a capacitance of 47 microfarads (µF) and a voltage rating of 50 volts. Designed to operate efficiently at high temperatures up to 105°C, this capacitor is suitable for electronic circuits that require a moderate level of capacitance with a medium voltage tolerance in demanding thermal environments. Its compact size of 6.3x11mm makes it ideal for applications where space efficiency is crucial, but reliable performance under high temperatures is required.
-
Capacitance (47µF): The 47µF capacitance offers effective energy storage and filtering capabilities, making it suitable for a range of electronic applications where a balance between size and performance is necessary.
-
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.
-
Temperature Rating (105°C): The ability to function effectively at temperatures up to 105°C ensures stable performance in high-temperature applications, ideal for industrial, automotive, or other environments with elevated temperatures.
-
Physical Size (6.3x11mm): The compact radial design of 6.3x11mm allows for efficient integration into electronic devices where space conservation is important.
-
Model (R47/50): The specific model number R47/50 accurately identifies the capacitor's features, aiding in proper selection and integration into suitable electronic designs.
-
Applications: Frequently used in power electronics, automotive systems, and industrial applications where stability is required in high-temperature conditions.
-
Features: Known for its moderate capacitance, medium voltage rating, and excellent thermal resistance, the R47/50 capacitor is designed for reliable performance in demanding situations.
In summary, the R47/50 electrolytic radial capacitor, with its 47µF capacitance, 50V voltage rating, and high-temperature endurance, is an essential component for electronic systems that require stable performance in environments with elevated temperatures.
