Though Hole Resistors play a major role in the electronics and electrical engineering industry. In particular, the RN60C2870FB14 Through Hole Resistor is a popular product with impressive specifications and features to offer. In this article, we will take a look at the application field of the RN60C2870FB14 and discuss its working principle.
Applications of RN60C2870FB14
The RN60C2870FB14 Through Hole Resistor is a lead-free, surface mount resistor providing 27 ohms of resistance with 1% tolerance and no temperature coefficient of resistance. Due to its excellent performance characteristics, the RN60C2870FB14 is well-suited for use in a variety of industrial and automotive applications.
Some of the application fields in which the RN60C2870FB14 Through Hole Resistor can be used include telecommunication, instrumentation and industrial equipment, automotive systems, medical equipment and consumer electronics. The resistor is ideal for use in high-frequency applications as its construction limits inductance and stray capacitance, resulting in superior signal integrity and application efficiency.
The RN60C2870FB14 Through Hole Resistor also has a high-temperature coefficient of resistance, and it is able to withstand voltage and current fluctuations over a wide range of temperatures. This makes it suitable for use in a variety of environments, including harsh and hazardous conditions.
Working Principle of RN60C2870FB14
The working principle of the RN60C2870FB14 Through Hole Resistor centers on its construction. This resistor is composed of two main components: a resistor body and a contact. The resistor body is made of a thick-film material, while the contact is usually constructed from a metal alloy.
When current passes through the RN60C2870FB14 Through Hole Resistor, the resistor body heats up due to electric resistance. This causes the resistor body to expand, which in turn moves the contact away from the resistor body. This distance between the resistor body and contact determines the level of resistance being provided. This process is known as Thermal Runaway.
Depending on the current passing through the connector, the resistance of the RN60C2870FB14 can be adjusted in two ways. The first is by increasing or decreasing the contact distance by physically moving the outer resistor body. The second is by applying a voltage to the contact itself, which will cause it to increase or decrease in size and, in turn, adjust the amount of current passing through the resistor.
Conclusion
In conclusion, the RN60C2870FB14 Through Hole Resistor is a versatile component that has a wide range of uses in various applications. Furthermore, its working principle is based on the process of Thermal Runaway, wherein a voltage and/or current is applied to the contact in order to adjust the distance between the resistor body and contact, thereby affecting the level of resistance.
Overall, the RN60C2870FB14 Through Hole Resistor is a reliable and dependable component that provides excellent performance and reliability for its users.