The EEEFC1H221P is an aluminum electrolytic capacitor manufactured by Panasonic, belonging to the FC series. These capacitors are well-regarded for their high reliability, low impedance, and long life, making them suitable for various demanding applications in electronics. The FC series is a popular choice among designers due to its excellent overall performance characteristics.

Applications:

• Power supplies
• Motherboards
• Audio equipment
• LCD TVs
• Other general electronic devices

Features:

• Low impedance
• Long life (up to 2000 hours at 105°C)
• High ripple current capability
• Small size
• RoHS compliant

Benefits:

• Improves the efficiency and stability of power supplies.
• Enhances the audio quality in audio equipment.
• Reduces noise and interference in electronic circuits.
• Extends the lifespan of electronic devices.

Specifications:

The EEEFC1H221P has a capacitance of 220µF (microfarads) and a voltage rating of 50V (volts). It is designed to operate within a temperature range of -40°C to +105°C, making it suitable for high-temperature environments. The capacitor is designed for through-hole mounting. Its low impedance ensures efficient filtering and smoothing in power circuits. The high ripple current capability allows it to handle significant current fluctuations without degradation, contributing to the overall reliability of the circuit. The long operational life under high-temperature conditions makes it a preferred choice for industrial and commercial applications.

Panasonic's FC series capacitors are manufactured using advanced technology and high-quality materials, ensuring consistent performance and reliability. This particular capacitor is an excellent option for applications where stable and efficient power delivery is essential. Proper soldering and handling techniques should be observed to maintain the integrity of the component and ensure its long-term performance. The robust design and stringent quality control measures employed by Panasonic make the EEEFC1H221P a dependable choice for demanding electronic designs.