From the perspective of conductive mechanism, the increase in film thickness will change the movement trajectory of electrons in the metal oxide lattice.
In the microscopic world of modern electronic circuits, wirewound leadless resistors, acting as "silent energy regulators," quietly control the flow of current and stabilize voltage.
Whether a fuse resistor maintains precise impedance under normal operating conditions without affecting circuit performance is a key criterion for determining whether it truly delivers both protection and functionality.
In feedback control circuits, high-resistance and precision metal oxide film resistors are crucial for improving control accuracy.
In precision electronic circuits, resistors are not only fundamental components but also crucial to system accuracy and reliability.
Glass glaze resistors excel in high-frequency performance and are well-suited to the working environment of high-frequency circuits, making them suitable for a wide range of applications.
