RNV14FTL470K

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Through Hole Resistors are key components of electronic systems and have a wide range of applications. One such resistor is the RNV14FTL470K, manufactured by Panasonic. This resistor is a four terminal design, offering superior miniaturization, high heat dissipation and high power handling. Below we discuss its application and working principles.

Application Fields

The RNV14FTL470K can be utilized in a variety of applications. This resistor is an excellent choice for high-end microphone amplifiers, automotive audio systems, and headphone amplifiers. Additionally, it offers superior performance under high thermal loads, and is suitable for wide bandgap semiconductor devices used in automotive, medical, aviation, and other industrial applications.

Aside from its electronic capabilities, the RNV14FTL470K can be utilized in a range of circuit structures. This resistor\'s shape allows it to be used in general-purpose and narrowband low noise circuits, such as those used in optical networks or telecom systems. Furthermore, this resistor features a ceramic body, providing optimum heat conducting material for extremely small, space-saving designs.

Working Principle

The RNV14FTL470K resistor\'s working principle is based on Ohm\'s Law. This law states that when a steady voltage is applied across two terminals of a resistor, a current will flow proportional to the value of the applied voltage. Subsequently, the current flowing through the resistor produces a voltage across the same two terminals that is equal to the product of the current times the resistance of the resistor.

The resistance of a resistor is determined by the material used in its construction, as well as the design parameters of the resistor itself. In this case, the RNV14FTL470K is a chip resistor with four terminals that are interconnected by a passive component, called a \'bond wire\' or \'film\' resistor. The size of the bond wire determines the resistance of the resistor, as the size of the wire corresponds to the amount of resistance to the flow of current.

The resistance of the RNV14FTL470K can be adjusted by changing the size of the bond wire. In addition, the low power rating of the RNV14FTL470K makes it suitable for use in low current applications, such as the amplification of microphones. Furthermore, its small size and ceramic body make it an ideal choice for miniaturized designs.

Conclusion

The RNV14FTL470K is a through hole resistor from Panasonic that offers superior miniaturization, high power handling, and high heat dissipation. Its application range includes high-end microphone amplifiers, automotive audio systems, headphone amplifiers, and low noise telecom networks. This resistor works on the principle of Ohm\'s Law, with the resistance determined by the material utilized and design parameters of the resistor. With its small size and ceramic body, the RNV14FTL470K is an ideal choice for miniaturized designs and low current applications.

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