MAX17006BETP - High-Efficiency, Quad-Output, Main Power-Supply Controllers for Notebook Computers

The MAX17006BETP is a versatile and high-performance power-supply controller from Maxim Integrated, specifically designed to meet the rigorous demands of notebook computer power supplies. This advanced integrated circuit is engineered to provide a reliable and efficient power management solution, ensuring that your notebook operates with optimal power efficiency and battery life.

Key Features

• Quad-Output Controller: The MAX17006BETP features four PWM outputs, making it capable of controlling multiple power rails within a notebook computer.
• High Efficiency: With its high-efficiency design, this controller helps to reduce power loss and improve battery life, making it ideal for portable applications.
• Adjustable Voltage Options: The device offers adjustable voltage settings for the CPU core, graphics, memory, and system voltages, providing flexibility and precision for various notebook configurations.
• Quick-PWM™ Mode: The Quick-PWM™ control architecture allows for fast transient response, which is critical for maintaining voltage stability during sudden changes in load.
• Power-Saving Modes: It includes various power-saving modes, such as skip mode and deep sleep mode, to minimize power consumption during light load conditions and standby, respectively.

Applications

The MAX17006BETP is ideal for a range of applications within the notebook computer market, including:

• Main CPU/GPU power supplies
• Memory and system auxiliary supplies
• High-performance portable electronics

Technical Specifications

• Package Type: TQFN-EP
• Operating Temperature Range: -40°C to +85°C
• Input Voltage Range: 5V to 24V
• Adjustable Switching Frequency: Up to 1MHz

The MAX17006BETP is a testament to Maxim Integrated's commitment to providing high-quality power management solutions that enhance the performance and efficiency of modern electronic devices. With its robust feature set and flexible design, the MAX17006BETP stands out as a top choice for powering the next generation of notebook computers.