The EEEFK1C470P is an aluminum electrolytic capacitor manufactured by Panasonic as part of their FK series. FK series capacitors are known for their compact size, long life, and high reliability, making them suitable for various applications, particularly in power supplies and general electronic circuits. They provide a good balance of performance and cost-effectiveness.

Applications:

• Power supplies
• AV equipment
• Digital appliances
• Industrial instruments
• LED lighting

Features:

• Long life (up to 5000 hours at 105°C)
• Compact size
• High ripple current capability
• Low ESR (Equivalent Series Resistance)
• RoHS compliant

Benefits:

• Ensures reliable operation even in high-temperature environments.
• Saves space on the circuit board, allowing for more compact designs.
• Reduces heat generation and improves overall efficiency.
• Contributes to the long-term reliability and stability of the electronic device.

Specifications:

The EEEFK1C470P has a capacitance of 47µF (microfarads) and a voltage rating of 16V (volts). Its operating temperature range extends from -40°C to +105°C. This capacitor is designed for through-hole mounting. Its compact size allows for use in space-constrained applications. The long operational life at high temperatures makes it suitable for demanding applications where reliability is crucial. The low ESR contributes to efficient power delivery and reduced heat generation within the circuit. The high ripple current rating ensures stable performance under fluctuating load conditions.

Panasonic's FK series capacitors are constructed with high-quality materials and undergo rigorous testing to ensure compliance with industry standards. This capacitor is well-suited for providing stable and reliable performance in a wide range of electronic devices. Proper mounting and soldering techniques are necessary to ensure the longevity and optimal performance of this component. The robust design and superior performance characteristics of the EEEFK1C470P make it a reliable choice for modern electronic applications.