HHV-50FT-52-7M5

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Through Hole Resistors, such as the HHV-50FT-52-7M5, have many applications and working principles behind them. This article will discuss the application field and working principles for the HHV-50FT-52-7M5.

The HHV-50FT-52-7M5 is a through-hole resistor designed for use in harsh environments with high vibration, high temperature, or exposure to liquids. It features a rugged, corrosion resistant, all-titanium construction and cryogenic testing that allows it to consistently handle temperatures ranging from -40°C to +125°C (-40°F to +257°F). Beyond its common applications in aerospace, marine, and automotive environments, this resistor also performs well in industrial, medical, energy, and defense applications.

The resistance of the HHV-50FT-52-7M5 is generated by the movement of making the nickel chromium wire which is passed through a series of hot wire planes. The resistance is proportional to the length of wire. The resistance value of the resistor is determined by the number of wire planes and the width of the wire.

The biggest advantage of the HHV-50FT-52-7M5 is its ability to maintain its resistance value over a wide range of temperatures. This is because the resistance of the resistor does not depend on temperature. Instead, the resistance of the resistor is determined by the length of the wire and the number of wire planes.

In order to achieve this stability, the resistor is constructed using a series of tubes that are sealed from the outside air. This ensures that the resistance of the wires does not change due to temperature or environmental influences. Additionally, the wires are sealed in such a way that they maintain their integrity, which helps protect them from corrosion.

The resistance of the HHV-50FT-52-7M5 is also affected by its contact resistance. Contact resistance is the amount of electricity that can flow through the resistor before it begins to heat up. This effect is usually caused by insufficient contact between the resistor and its leads. The most common way to reduce this effect is to use terminals that contact the resistor at all points.

The performance of the HHV-50FT-52-7M5 is based on its construction and the quality of its components. The resistance value of the resistor is determined by the number of wire planes and the thickness of the wire. The resistance is then further affected by contact resistance and environmental factors such as temperature and humidity. Additionally, the resistor must be designed in such a way that it does not degrade over time due to corrosion or oxidization.

In conclusion, the HHV-50FT-52-7M5 is a through-hole resistor designed to operate in harsh environments while maintaining its resistance value and performance. The resistor is constructed using a series of sealed tubes that contain nickel chromium wires. The resistance of the resistor is determined by the length of the wire and the number of wire planes. Additionally, contact resistance, temperature, and other environmental influences can affect the performance of the resistor. The HHV-50FT-52-7M5 is designed to perform well in aerospace, marine, automotive, industrial, medical, energy, and defense fields.

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