The PME264NB4680MR30 is a Class X1 metallized paper capacitor from Kemet, designed for interference suppression and safety applications. These capacitors are particularly well-suited for applications where safety standards compliance and reliable performance under harsh conditions are paramount.

Applications:

• Across-the-line applications in power supplies.
• Input filters for variable frequency drives (VFDs).
• EMI suppression in consumer electronics.
• Lighting ballasts
• Motor controllers

Features:

• Class X1 Safety Capacitor: Designed for across-the-line applications with high safety requirements.
• Metallized Paper Dielectric: Offers excellent self-healing properties, enhancing reliability and preventing catastrophic failures.
• High Pulse Strength: Capable of withstanding high voltage and current pulses, making it suitable for demanding applications.
• Flame Retardant Encapsulation: Provides enhanced safety and protection against fire hazards.
• Excellent self-healing properties: Prevents catastrophic failures, enhancing long-term reliability.

Benefits:

• Enhanced Safety: Meets stringent safety standards, providing reliable protection against electrical hazards.
• Long Lifespan: The metallized paper construction and self-healing properties ensure a long and reliable operating life.
• EMI Suppression: Effectively reduces electromagnetic interference, improving the performance and reliability of electronic devices.
• Robust Performance: Withstands harsh environmental conditions and high voltage stresses.
• Compliance: Meets or exceeds industry safety standards for X1 class capacitors.

Additional Details:

The PME264NB4680MR30 features a capacitance value of 0.68 µF (microfarads) and a rated voltage of 440 VAC. It is designed to operate within a wide temperature range, ensuring stable performance in various environments. The capacitor's construction includes a metallized paper dielectric and a flame-retardant epoxy resin encapsulation, which contributes to its robustness and safety characteristics. Its compact size allows for easy integration into various electronic circuits.