170823J630IE Datasheet/PDFFilm Capacitors
Film capacitors, also known as plastic film capacitors or film dielectric capacitors, are capacitors that use plastic films as the dielectric. Film capacitors have a wide range of applications, particularly in high frequency, high voltage, and high stability applications. The 170823J630IE film capacitor is a tantalum-doped polyethylene naphthal ate foil capacitor that is ideal for use in resonant circuit applications, such as power supplies, DC/DC converters, AC/DC inverters, and other high-performance power systems.
170823J630IE Application Field
The 170823J630IE film capacitor is a high-performance spatial capacitor designed for a range of applications that include:
- High-power DC/DC converters
- DC/AC inverters
- Power supplies
- Power supply filtering
- Switched mode power supplies
- High-speed power rectifying
- Motor controllers
- High frequency/high voltage switching applications
170823J630IE Working Principle
The 170823J630IE film capacitor works on the principle of electrostatic capacitance, which is caused by the attraction and repulsion of opposite electric charges in the capacitor\'s parallel plates. When a voltage is applied between the plates, charges build up on each plate, creating an electrostatic field between them. This field acts as a kind of barrier, blocking the direct flow of current between the plates. The capacitor stores energy in this field, which can then be released when the voltage is removed. This allows the capacitor to act as a source of power in applications with high frequency or high voltage.
Conclusion
The 170823J630IE film capacitor is an advanced spatial capacitor designed for use in a wide range of high-performance applications, such as DC/DC converters, DC/AC inverters, power supplies, and power supply filtering. This capacitor works on the principle of electrostatic capacitance, wherein charges accumulate on each plate of the capacitor, creating a barrier between them that can store energy and supply power during high frequency or high voltage applications.