DMG4466SSS-13 N-Channel Enhancement Mode MOSFET by Diodes Incorporated

The DMG4466SSS-13 is a high-performance, N-Channel enhancement mode Field Effect Transistor (MOSFET) designed and manufactured by Diodes Incorporated. This MOSFET is a part of Diodes Incorporated's extensive range of discrete, analog, and mixed-signal semiconductor products that cater to a wide array of applications. The DMG4466SSS-13 is specifically engineered to deliver efficient power management and high-speed switching in a compact package.

Key Features

• Low On-Resistance: The device features a low on-resistance (R_DS(on)), which enhances its efficiency by minimizing power loss during operation.
• High-Speed Switching: It is optimized for fast switching speeds, which is essential for applications that require rapid power regulation and control.
• High Threshold Voltage: With a high gate threshold voltage, this MOSFET ensures reliable operation even under fluctuating voltage conditions, making it suitable for robust applications.
• Surface Mount Package: The DMG4466SSS-13 comes in a space-saving SOP-8 package, ideal for designs where board space is at a premium.
• Lead-Free and RoHS Compliant: It adheres to environmental standards, being lead-free and compliant with the Restriction of Hazardous Substances (RoHS) directive.

Applications

The DMG4466SSS-13 is versatile and can be used in various applications, including:

• Power Management Circuits
• DC/DC Converters
• Motor Drives
• Battery Management Systems
• Load Switches
• Switching Regulators

Product Specifications

The DMG4466SSS-13 boasts an impressive set of specifications that make it a reliable choice for high-performance applications:

• Drain-Source Voltage (V_DSS): Up to 30V
• Continuous Drain Current (I_D): 8.5A
• Power Dissipation (P_D): 1.4W
• Operating Temperature Range: -55°C to +150°C

With its advanced features and robust performance, the DMG4466SSS-13 from Diodes Incorporated is an excellent choice for designers looking to enhance the efficiency and reliability of their electronic systems.