H4169RDYA

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Through Hole Resistors

A through hole resistor is a component that is included in an electric circuit for the purpose of limiting the current that flows through the circuit. This is done in order to prevent the circuit components from being damaged by overcurrents. Through hole resistors are generally constructed from either metal or ceramic materials and are specific types of resistors that employ a through-hole mounting method.

H4169RDYA Application Field and Working Principle

The H4169RDYA is a ceramic-type through hole resistor. It is an ultra-high precision resistor with a standard tolerance range from 0.02% to 0.05%. The H4169RDYA resistor is widely applicable for all high-precision, high-linearity applications such as factory automation, medical, instrumentation, communications, Data Analytics, and other industrial, scientific, and engineering processes.

The general working principle of a through hole resistor is to limit current flow in the circuit. The resistor helps set a constant current in the circuit without changing the voltage in the circuit. The resistor is designed with an electrical component that resists current flow, and is placed in series with the electrical circuit. The resistor can be adjusted by changing the resistance value, which is based on the resistor\'s physical characteristics. The resistance value of the resistor is typically determined by its thickness, width, and resistance material.

The H4169RDYA is designed to provide precise and accurate current measurements. The design of the H4169RDYA allows it to be mounted in both vertical and horizontal orientations. The resistor features an insulated body which provides additional protection against heat and electrostatic discharge (ESD) damage. The ESD capability of the H4169RDYA improves the reliability and accuracy of the resistor. The operating temperature of the resistor is rated at 175°C which allows it to be used in high–temperature environments.

The H4169RDYA is a high-precision resistor with a maximized power rating of 2.2 Watts. The resistor features a low-distortion resistive element which ensures maximum accuracy and reliability. The resistor is designed to maximize efficiency during use and has a high-temperature stability down to 0.0001%. The resistor is designed with a low-pass filter which allows for minimal power dissipation and a low thermal noise level. Additionally, the H4169RDYA has a low-capacitance and an improved frequency response which allows it to be used in high-frequency devices.

The H4169RDYA also features an additional dielectric coating that improves the insulation of the resistor and provides additional protection against ESD. The high-precision resistive element allows the resistor to handle high levels of temperature and power without affecting the accuracy and reliability of the resistor. The resistor also uses a low-resistance connector that makes it suited for applications where the connection needs to be fast and efficient.

In conclusion, the H4169RDYA is a high-precision resistor designed for use in industrial, scientific, and engineering processes. The resistor has a high-temperature stability down to 0.0001%, a low-pass filter, and a low-distortion resistive element. Additionally, the H4169RDYA has an additional dielectric coating that improves its insulation and provides additional protection against ESD. The resistor is also designed with a low-resistance connector that makes it suitable for applications where the connection needs to be fast and efficient.

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