H416R9BDA

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Through Hole Resistors are widely used in a variety of applications due to their simple construction and reliable operation. The H416R9BDA is an example of a through hole resistor that is designed for harsh environments and is appropriate for a variety of applications. This article will discuss the application field and working principle of the H416R9BDA.

Overview

The H416R9BDA is a through hole resistor for electrical applications. It is manufactured by combining a ceramic body with metal electrodes and a dielectric insulator. The resistor is then coated with a protective material to increase its durability and corrosion resistance. The H416R9BDA\'s resistance value can range from 70 ohms to 375 kilo-ohms. This resistor is suitable for surface mount technology, as its body is only 0.59 mm thick and the thread pin diameter is 1.05 mm. The H416R9BDA\'s tinning material is nickel plated.

Application Field

The H416R9BDA is designed for use in harsh environments, such as high temperatures, dust, and exposure to chemical materials. It is suitable for use in temperature-sensitive applications, such as low-power electronics and optical instruments. The resistor is also suitable for applications requiring high input impedances, such as high-frequency amplifiers and radio receivers. It is also ideal for applications with high alternating current (AC) or direct current (DC) voltages, such as signal processing systems and power supply systems. The H416R9BDA is also commonly used for military and aerospace applications due to its reliable performance.

Working Principle

The H416R9BDA works by converting electrical energy into heat energy. When a direct current is applied to the resistor, the electric current will flow through the resistor\'s metal electrodes, which will then cause the resistor to heat up. The heat produced will vary, depending on the amount of current that is applied to the resistor. The greater the current, the greater the amount of heat that is produced. The resistor will also dissipate some of the heat energy as radiation, depending on the amount of heat generated. The resistor will therefore maintain a constant resistance value for a given amount of current.

In addition, the resistor is designed to reduce the risk of overloading the system. An overload occurs when too much current is applied to the resistor, which can lead to sudden voltage drops or circuit failures. The H416R9BDA is designed to have a high operating voltage, which helps to prevent these types of failures by preventing the excessive current from passing through the resistor. This safe operation makes the H416R9BDA ideal for applications that require reliable performance in harsh environments.

Conclusion

The H416R9BDA is a through hole resistor designed for use in harsh environments. Its resistance value ranges from 70 ohms to 375 kilo-ohms. It is designed for use in temperature-sensitive, high-input impedance, and AC/DC voltage applications. It is also suitable for military and aerospace applications. The H416R9BDA works by converting electrical energy into heat energy. It is also designed to prevent overloading, which helps to ensure safe operation. The H416R9BDA is thus an ideal component for reliable performance in harsh environments.

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