The TEA1623P/N1,112 is a cutting-edge Switched Mode Power Supply (SMPS) control IC from NXP Semiconductors, designed to deliver high efficiency and performance for a wide range of power conversion applications. This component is part of NXP's acclaimed GreenChip series, which is renowned for its energy-saving capabilities and commitment to environmentally friendly solutions.

Key Features

• High Efficiency: The TEA1623P/N1,112 is optimized for high efficiency, which helps reduce energy consumption and heat generation, thereby extending the lifespan of the end product.
• Low Standby Power: It features an extremely low standby power consumption, making it ideal for applications where energy usage in standby mode is a critical factor.
• Frequency Modulation: The IC employs frequency modulation for reduced Electromagnetic Interference (EMI), ensuring compliance with international EMI standards.
• Integrated Protections: It includes various protection features such as OverVoltage Protection (OVP), OverCurrent Protection (OCP), and OverTemperature Protection (OTP), enhancing the safety and reliability of the power supply.
• GreenChip Technology: As part of the GreenChip family, this IC supports the development of green and energy-efficient power solutions.

Applications

The TEA1623P/N1,112 is versatile and can be used in a variety of applications including:

• Power supplies for personal computers and laptops
• Adapters for mobile phones and other portable devices
• LED lighting systems
• Consumer electronics such as TVs and audio systems

Technical Specifications

With a wide supply voltage range and a built-in high-voltage level-shift circuit, the TEA1623P/N1,112 is capable of handling various types of power supply designs. It supports both flyback and forward converter topologies. The IC comes in a DIP-8 package, making it suitable for through-hole PCB assembly processes.

By incorporating the TEA1623P/N1,112 into your power supply design, you can achieve an efficient, reliable, and eco-friendly power solution that meets the stringent requirements of modern electronic devices.