
Allicdata Part #: | ECW-FD2J563KB-ND |
Manufacturer Part#: |
ECW-FD2J563KB |
Price: | $ 0.08 |
Product Category: | Capacitors |
Manufacturer: | Panasonic Electronic Components |
Short Description: | CAP FILM 0.056UF 10% 630V RADIAL |
More Detail: | 0.056µF Film Capacitor 630V Polypropylene (PP), M... |
DataSheet: | ![]() |
Quantity: | 1000 |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
1000 +: | $ 0.07069 |
Operating Temperature: | -40°C ~ 105°C |
Features: | -- |
Ratings: | -- |
Applications: | EMI, RFI Suppression; High Frequency, Switching; High Pulse, DV/DT |
Lead Spacing: | 0.295" (7.50mm) |
Termination: | PC Pins |
Height - Seated (Max): | 0.516" (13.10mm) |
Size / Dimension: | 0.496" L x 0.185" W (12.60mm x 4.70mm) |
Package / Case: | Radial |
Mounting Type: | Through Hole |
Series: | ECW-F(D) |
Dielectric Material: | Polypropylene (PP), Metallized |
Voltage Rating - DC: | 630V |
Voltage Rating - AC: | -- |
Tolerance: | ±10% |
Capacitance: | 0.056µF |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Packaging: | Bulk |
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Film capacitors, such as ECW-FD2J563KB, are usually insulated or non-electrically conductive and may comprise a variety of dielectrics such as polypropylene, polystyrene, polyester, polycarbonate, polyethylene naphthalate and polyphenylene sulphide (PPS). They have been produced since the 1950s and have much higher dielectric strength and improved stability compared to standard electrolytic capacitors. They have many applications from audio equipment to power supplies, here we are going to focus on ECW-FD2J563KB and its application fields and working principle.
ECW-FD2J563KB is a polypropylene film capacitor, the dielectric being polypropylene, a thermoplastic product of the polymerization of propylene, with electrodes provided by a pair of tin-coated copper wire. The high dielectric strength of polypropylene is ideal for capacitors, which must handle high voltages quickly.Generally, ECW-FD2J563KB have a low internal resistance value and therefore have a higher performance at high frequencies compared to other less expensive alternatives. They also have very low noise levels and are available in small packages, making them very suitable for high-precision applications such as electronics and automotive.
The key application fields of ECW-FD2J563KB mainly include signal processing, ignition systems, modems, power supply systems and audio equipment. The ECW-FD2J563KB can deliver maximum stability at high frequencies due to its high dielectric strength. It can deliver strong voltages quickly, making it an ideal choice for voltage spike protection. In addition, it can be used to filter high frequency interference within electronic circuitry, making it an indispensable part of many electronic devices. Due to its low noise and vibration, it is also commonly used in audio equipment.
ECW-FD2J563KB\' working principle is relatively simple to understand. These capacitors are basically two metal plates separated by a dielectric material, such as polypropylene. When voltage is applied, the electrical field between the plates causes electrons to move from one plate to the other, creating an electric charge. This charge is stored in the capacitor until the voltage is removed, at which point the electric field dissipates and the charge is returned to the plates. The capacitance is determined by the area of the plates and the distance between them, as well as the dielectric strength of the material used.
In conclusion, ECW-FD2J563KB is a specialized film capacitor designed for a variety of audio and electronic applications. Its key application areas include signal processing, ignition systems, modems, power supply systems and audio equipment. It is usually used to filter high frequency noise and provide protection against voltage spikes. The working principle is relatively straightforward, involving the build up of electric charge between two metal plates separated by a dielectric material. The capacitance is determined by the area of the plates and the distance between them, as well as the dielectric strength of the material used.
The specific data is subject to PDF, and the above content is for reference
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