Linear Technology's LTM4620AV: A High-Efficiency, Dual 13A or Single 26A μModule Regulator

The LTM4620AV from Linear Technology is a versatile and powerful μModule (micromodule) regulator designed to cater to a wide range of power supply requirements. This advanced component is capable of delivering dual 13A outputs or a single 26A output with exceptional efficiency and thermal performance.

Key Features:

• Dual 13A or Single 26A Output: The LTM4620AV can be configured to provide either two independent 13A outputs or one combined 26A output, offering flexibility for various applications.
• Wide Input Voltage Range: With an input voltage range of 4.5V to 16V, this regulator supports a broad spectrum of supply voltages, making it suitable for diverse systems.
• High-Efficiency Operation: Designed with efficiency in mind, the LTM4620AV ensures minimal power loss and heat generation, even at full load conditions.
• Advanced Thermal Design: The integrated heat sink and the μModule package technology enable excellent thermal management, allowing for operation in high-temperature environments without compromising performance.
• Precision Output Voltage Regulation: The regulator maintains tight control over output voltage, ensuring reliable and consistent power delivery to sensitive electronic components.

Applications:

• Telecommunications infrastructure
• Datacom and Storage Systems
• Industrial and Medical Equipment
• Advanced Computing Systems

The LTM4620AV is not only a testament to Linear Technology's commitment to high-performance power solutions but also an embodiment of cutting-edge design in the field of voltage regulation. With its robust construction and advanced features, the LTM4620AV stands out as a reliable choice for engineers and designers seeking to optimize their power systems for efficiency, space-saving, and thermal management.

Whether it's for high-density server farms, complex industrial machinery, or precision medical devices, the LTM4620AV delivers the power and performance needed to meet the demands of today's most challenging applications.