Through Hole Resistors are components used in electronics to provide electrical resistance to a circuit. The KNP100JR-73-100R is a type of through-hole resistor that is made of an element, usually carbon (or a metal-oxide film) pressed between two contact pins, and is packaged into a cylindrical package.
Choosing the right resistor for a particular application can be challenging, and depends upon the performance requirements of the circuit board. The KNP100JR-73-100R is designed to provide resistance in a range of 150KOhms and is suitable for a variety of applications. This resistor is widely used to provide a precise and repeatable resistance value for a variety of circuit configurations.
At its core, the KNP100JR-73-100R is a discrete variable resistor which features a single-turn 6mm potentiometer with a range of 150KOhms. Its superior design and construction provide a precision resistance element that is suitable for a variety of applications including audio amplifiers, broadcast and radio equipment, HVAC/R systems, and power supplies. Due to its high operating temperature rating, it is also suitable for use in harsh environmental conditions.
The KNP100JR-73-100R is a precision, variable through-hole resistor and can be used in a variety of ways. As with most other variable resistors, the resistance value can be adjusted by varying the position of a slider or adjustment knob on the component itself. The resistance value can also be controlled and varied remotely by applying a voltage or current signal to one or both of its two leads, providing an effective way to vary the resistance in a circuit.
The KNP100JR-73-100R is a reliable and robust through-hole resistor which provides a high precision resistance value, a long operating life, and a high operating temperature rating. Its variable characteristics make it suitable for a variety of applications where precision and variability of resistance are required. For applications where stability and reliability of resistance is required, the KNP100JR-73-100R is an ideal component.