The demand for electronic devices has been increasing rapidly in recent years. From smartphones to laptops to smart home devices, our lives are becoming more and more connected. To meet this growing demand, manufacturers are constantly innovating and improving the components that make up these devices. One such component is the network resistor.
Network resistors are an essential part of electronic circuits. They are used to control the flow of electric current, limiting or "resisting" the amount of current that passes through a circuit. This is important because different components in a circuit often require different levels of current to function properly. Without network resistors, the flow of current could become too high, damaging the components or even causing them to fail.
The materials used in the manufacturing of network resistors play a crucial role in their performance and reliability. The most common material used is a ceramic compound called ruthenium oxide. This material has excellent electrical properties and can withstand high temperatures, making it ideal for use in electronic devices. Other materials such as carbon and metal alloys are also used, depending on the specific requirements of the circuit.
Manufacturing techniques for network resistors have also evolved over time. In the past, resistors were manufactured using a thick film deposition process, where a paste containing the resistor material was applied to a substrate and then heated to form a thin film. While this process was effective, it had its limitations in terms of precision and consistency.
Network Resistor
A104J 100K
A154J 150K
A204J 200K
A224J 220K
A274J 270K
A394J 390K
A474J 470K
A514J 510K
A105J 1M
A205J 2M Ohm
