HVW1\210M00KEK

Through Hole Resistors

HVW1\210M00KEK is a through hole resistor that is a feature of the HVW series of small size variable power resistors. They are used in many electrical and electronic applications and are suitable for both high-side and low-side mounting. The resistor is constructed from a single-piece ceramic body and has an adjustable contact which is held in place by a metal-tipped contact or spring element. It has a built-in thermal resistance and can withstand up to 1.0 W of power.

Application Field

HVW1\210M00KEK are used in a variety of applications, from industrial electronics to consumer applications. They can be used for low current applications, such as controlling the power flowing through LED lighting, controlling the speed of a DC motor, or adjusting the input signal level. They can also be used for higher power applications, such as controlling the output of an AC motor or protecting an amplifier from excessive current.

Working Principle

HVW1\210M00KEK works by adjusting the distance between the contact and the body of the resistor. As the contact is moved closer to the body, the resistance value increases. This is because the contact is effectively reducing the area between the contact and the body, allowing less current to flow through the resistor. By using the adjustable contact and the ceramic body, the resistor can be adjusted to precisely the desired resistance value.

Advantages

HVW1\210M00KEK have several advantages over other types of resistors. The ability to precisely adjust the resistance value means that it can be used in many applications where precise resistance values are necessary. Additionally, the through-hole design ensures that the contact is held securely in place, even under high vibration conditions. Additionally, the ceramic body of the resistor is capable of dissipating heat more effectively, meaning that it can be used for higher power applications than other resistors.

Conclusion

In conclusion, HVW1\210M00KEK is a through-hole variable resistor that is suitable for a wide variety of applications. Its adjustable contact and ceramic body allow for precise control of the resistance value, and its through-hole design ensures that it can be used under high vibration conditions. Additionally, its ability to dissipate heat more effectively means that it can be used in higher power applications.