The UBA2213BP/N1,112 is an advanced high-voltage Integrated Circuit (IC) manufactured by NXP Semiconductors, designed for driving Compact Fluorescent Lamps (CFLs) and TL lamps. This IC is part of the UBA2213 series, which is well-known for its efficiency and reliability in lighting solutions. The UBA2213BP/N1,112 is specifically crafted to meet the rigorous demands of modern lighting systems, providing an optimal solution for electronic ballast applications.

Key Features

• High-Voltage IC: Capable of withstanding and efficiently managing high voltage applications, which is essential for driving fluorescent lamps.
• Zero-Voltage Switching (ZVS): The IC supports ZVS for all switches to minimize switching losses and improve overall efficiency.
• Integrated Half-Bridge Controller: The inclusion of a half-bridge controller simplifies the circuit design and reduces component count, leading to cost savings and increased reliability.
• Adjustable Preheat and Ignition Times: This feature allows for the customization of lamp startup procedures, ensuring optimal conditions for lamp ignition and extending the lamp's lifespan.
• Protection Features: The UBA2213BP/N1,112 is equipped with multiple protection features, including overcurrent protection, to ensure safe and reliable operation under various conditions.
• Frequency Control: The IC includes frequency control during dimming and preheat, which helps to avoid acoustic resonance in the lamp and improve the user experience.

Applications

The UBA2213BP/N1,112 is ideal for a wide range of lighting applications, particularly in areas where energy efficiency and long lamp life are priorities. These include residential lighting, commercial lighting, and industrial lighting systems. It is also suitable for use in emergency lighting systems where reliability is crucial.

Product Specifications

The UBA2213BP/N1,112 is offered in a DIP-16 package, making it suitable for through-hole mounting techniques. The device operates over a wide temperature range, ensuring performance stability across different environmental conditions. Its design is optimized for cost-effective production while maintaining high-quality performance, making it a popular choice among manufacturers and designers of modern lighting systems.