Maxim Integrated presents the MAX17139ETL, a state-of-the-art power supply solution designed for high-performance electronic devices. This advanced component is engineered to deliver high efficiency and reliability, making it an ideal choice for powering the latest generation of notebooks, ultrabooks, and other portable computing devices.

Key Features

• High Efficiency: The MAX17139ETL is optimized for maximum power efficiency, which helps extend battery life in portable devices.
• Multiple Outputs: It supports multiple output voltages, providing flexibility and compatibility with various system requirements.
• Small Footprint: The compact TQFN package is designed for space-constrained applications, allowing for a minimal impact on overall design size.
• Integrated MOSFETs: The inclusion of internal MOSFETs reduces external component count, simplifying design and reducing total solution cost.
• Programmable Switching Frequency: This feature allows designers to optimize the device for efficiency or size, depending on the application needs.
• Thermal Protection: Built-in thermal shutdown ensures the device operates within safe temperature ranges, enhancing system reliability.

Applications

The MAX17139ETL is versatile and can be used in a wide array of applications. It is particularly well-suited for:

• Notebook Computers
• Ultrabooks
• Tablets
• Other Portable Computing Devices

Technical Specifications

With its advanced technical specifications, the MAX17139ETL delivers performance that meets the demands of modern portable electronics:

• Input Voltage Range: Wide range to accommodate various battery technologies.
• Output Voltage Accuracy: High precision to ensure stable operation of powered devices.
• Protection Features: Overvoltage, overcurrent, and undervoltage lockout provide comprehensive safety measures.

Maxim Integrated's commitment to quality and performance is evident in the MAX17139ETL, providing designers with a reliable and efficient power supply solution that stands up to the challenges of today's mobile computing requirements.