The F339MX222231MDI2B0 is a safety film capacitor manufactured by Vishay. It is part of the F339X2 series, designed for X2 electromagnetic interference (EMI) suppression and safety applications. These capacitors provide reliable performance in harsh environments and are suitable for use in across-the-line applications.

Applications:

• EMI suppression in power supplies: Filters noise and interference from AC power lines.
• Across-the-line applications: Connects between line and neutral in AC circuits.
• Input filtering in electronic devices: Reduces noise and improves signal quality.
• Motor control circuits: Protects against voltage surges and transients.
• Lighting ballasts: Provides reliable operation in lighting systems.

Features:

• X2 safety rating: Certified for across-the-line applications.
• Self-healing properties: Ensures reliable performance and prevents catastrophic failures.
• Flame-retardant epoxy resin coating: Provides excellent protection against environmental factors.
• High pulse strength: Withstands high voltage transients and surges.
• Excellent electrical characteristics: Offers low ESR and stable capacitance.

Benefits:

• Enhanced safety: Protects against electrical hazards and ensures safe operation.
• Improved EMI suppression: Reduces noise and interference in electronic devices.
• Extended product lifespan: Offers long-term durability and reliability.
• Compliance with safety standards: Meets industry requirements for safety and performance.
• Versatile application: Suitable for a wide range of electronic devices and systems.

Technical Specifications:

The F339MX222231MDI2B0 has a capacitance of 0.0022uF (2200pF) and a rated voltage of 305VAC. It features a lead spacing of 15mm and operates within a temperature range typically from -40°C to +110°C. The dielectric material is polypropylene (PP) film, chosen for its excellent electrical properties and reliability. It has a tolerance of ±20%. These capacitors are designed to meet stringent safety standards and are often used in applications where safety is critical.