H813K7BZA

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Through Hole Resistors provide many kinds of features and functions for a given application. Among the most popular is the H813K7BZA, a precision resistor which has become a popular choice for many of today\'s high-precision applications. Here we will discuss the application field and working principle of the H813K7BZA.

The H813K7BZA is a through-hole resistor designed specifically for high-precision applications, with galvanically isolated and low thermal drift. It has an operating temperature range from -55°C to +150°C and stable performance from -50°C to +125°C. The combination of ultimate accuracy and access space of this through-hole resistor makes it an ideal choice for many high-precision applications, such as frequency measurement, power line protection, home automation, and medical equipment.

The working principle of the H813K7BZA is based on resistors made of resistors made of carbon film deposited onto a ceramic or glass substrate. The substrate is then molded into the shape of a flexible disc, which is then inserted into the through-hole substrate. This design helps to ensure a uniform and consistent thermal conductivity as the resistor changes its temperature. When a voltage is applied to the resistor, it produces an electrical field that is then converted into a current flow, which generates heat. This heat is then dissipated through the thermal conductivity of the substrate.

The H813K7BZA is highly resistant to noise, vibration, and temperature. Its low thermal drift and high thermal stability makes it suitable for many high-precision applications. Furthermore, the resistor is built with a self-insulating coating on the substrate for protection against environmental influences such as moisture, dust, and corrosion. The unique combination of high thermal stability and low thermal drift makes it ideal for a wide range of applications, from military and aerospace to medical and industrial.

The H813K7BZA is designed for use in enclosed, air-cooled environments where temperature stability is critical. It provides significant advantages in terms of precision and repeatability. The device is widely used in temperature compensation, frequency control, and other precision applications. Its high noise immunity, low thermal drift, and high thermal stability make it an ideal choice for many applications.

In conclusion, the H813K7BZA is a through-hole resistor designed specifically for high-precision applications. Its combination of ultimate accuracy and access space makes it an ideal choice for many of today\'s high-precision applications, such as frequency measurement, power line protection, home automation, and medical equipment. Its features and functions, including its low thermal drift, high thermal stability, noise immunity, and self-insulating coating, make the H813K7BZA a suitable choice for many applications, from military and aerospace to medical and industrial.

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