WHA75RFET Resistors

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Though-hole Resistors are essential electronic components used for regulating current flow and providing the correct voltage to different areas of electronic equipment. The WHA75RFET is designed as a through-hole resistor with a wide range of applications in the computing and networking industries.

The WHA75RFET is a high-frequency power-rated resistor, designed with three levels of resistance values – the low-resistance value, middle-level resistance and high-level resistance. The low-resistance values provide a maximum resistance of 0.5 ohms, allowing for a lower current flow for various applications. The middle-level resistance is rated between 1 and 5 ohms, while the high-resistance is 10 ohms or higher. The resistor has a wide operating temperature range from -25°C to 105°C, which can handle wide temperature variances and allow them to be used in a number of applications.

The range of applications for the WHA75RFET is wide. This resistor is ideal for use in switching power supplies, to limit high-frequency currents from capacitors. High-frequency power supplies also use the WHA75RFET, to reduce the power consumption of integrated circuits and other chips. The durability of the WHA75RFET also makes it a good choice for lightning protection networks, by absorbing surges of current. The WHA75RFET is also used in industrial temperature sensing, as it provides accuracy and reliability in measuring temperatures and controlling the environment.

The working principle of the WHA75RFET is a combination of electrical and thermal principles. These principles are used to regulate current flow, by dissipating heat in the form of electricity. The resistor is constructed with a metal alloy, which causes resistance when electrons flow through it. This forces the current to be slowed down, which in turn places a decrease in power and current load.

The thermal component of the WHA75RFET is the dissipating of heat energy in the form of electricity. This happens when electrons flow through the metal alloy, causing it to convert heat energy into electrical energy. This energy is dissipated in the form of resistance, and is used to protect electronic components from overheating. The thermal resistance of the WHA75RFET, combined with the low-resistance value, gives the device an incredibly stable performance in a wide range of environments.

The WHA75RFET is one of the most commonly used through-hole resistors in the computing and networking industries. The wide range of applications it can be used for, along with its thermal and electrical resistance, make it a reliable and durable choice for numerous projects. With its comprehensive range of resistance values and operating temperatures, the WHA75RFET is an efficient and effective component for any project.

The specific data is subject to PDF, and the above content is for reference