Thick acoustic high voltage resistor is a kind of electronic component specially used in high voltage circuit, its main function is to limit the path of current flow and play the role of current limiting. This resistor has outstanding characteristics in high voltage resistance and is suitable for wave soldering and reflow welding. Its technical parameters and production process is excellent, widely used in a variety of high-demand circuits, to improve the performance of electronic products YAGEO (Yageo) is a world-renowned manufacturer of passive components, especially in the field of high-voltage resistance outstanding performance. YAGEO's high voltage resistor series products are mainly used in industrial automation, power supplies and battery chargers.
YAGEO's high-voltage resistor products are designed in two specifications: one is the maximum voltage within 500V, the size specifications from 0603 to 2512 (RV); The other is a maximum voltage of up to 3000V, size specifications from 2010 to 2512 (HV). These products are suitable for production and installation through automatic handling mount systems.
YAGEO's high voltage resistors enjoy a high reputation in the market, and its products are known for excellent voltage resistance and stable quality. These characteristics enable YAGEO's high voltage resistors to meet the application needs of a variety of high voltage environments, thus expanding the diversity of its application scenarios. Important support.
The thick sound and high voltage patch resistor adopts fine wire non-inductive design, which has high precision, low temperature coefficient, low voltage coefficient, high stability and low noise. These characteristics make thick acoustic high voltage resistors show high stability and reliability in practical applications. In addition, the surface mount of the thick acoustic high voltage resistor saves assembly and board space and is able to withstand higher voltage ratings (up to 2000 volts).
In the selection of thick acoustic high voltage resistance, it is necessary to determine according to the specific requirements of the circuit, including resistance value, power dissipation capacity, voltage resistance and so on. For example, some applications may require higher operating voltages and current ratings, while others may focus more on the accuracy and stability of the resistance.