The TEA1507P/N1,112 is a high-performance GreenChip™ II Switch Mode Power Supply (SMPS) control IC from NXP Semiconductors. This innovative and eco-friendly component is designed to drive power supplies in a wide array of electronic devices, ensuring efficient energy conversion and power regulation.

Key Features

• GreenChip™ II Technology: The TEA1507P/N1,112 incorporates NXP's GreenChip™ II technology, which is aimed at achieving high efficiency and low standby power consumption, making it an ideal choice for energy-saving applications.
• High Efficiency: With its ability to operate in quasi-resonant mode at high power levels and in fixed frequency mode at lower power levels, this IC ensures optimal efficiency across a wide load range.
• Integrated Protection Features: The device includes various protection mechanisms such as overvoltage protection (OVP), overcurrent protection (OCP), and undervoltage lockout (UVLO), enhancing the reliability and safety of the power supply.
• Low Standby Power: The TEA1507P/N1,112 excels in reducing standby power consumption, which is crucial for meeting energy regulations and reducing the environmental impact.
• Frequency Modulation: To minimize ElectroMagnetic Interference (EMI), the IC features frequency modulation, allowing for a cleaner power supply design.

Applications

The versatility of the TEA1507P/N1,112 makes it suitable for a broad range of applications, including but not limited to:

• Adapters and chargers for mobile devices
• Standby and auxiliary power supplies
• LED lighting systems
• Consumer electronics such as TVs and audio systems

Technical Specifications

• Package: DIP-8 (Dual In-line Package)
• Supply Voltage Range: 10.5 V to 18 V
• Switching Frequency: Up to 130 kHz in quasi-resonant mode

The TEA1507P/N1,112 by NXP is a sophisticated solution for modern power supply requirements, offering a blend of high efficiency, robust protection features, and compliance with green standards. Its advanced capabilities ensure that it remains a preferred choice for designers looking to create compact, energy-efficient power supplies without compromising on performance.