The STW9NA60 is a high-performance N-channel Power MOSFET produced by STMicroelectronics, a leader in the semiconductor industry. This device is designed to meet the rigorous demands of a variety of electronic applications, including switch-mode power supplies, motor control, and power conversion systems.

Key Features

• Voltage Rating: The STW9NA60 is capable of handling high voltages, with a drain-source voltage (V_DS) of 600V, making it suitable for high voltage applications.
• Current Capacity: This MOSFET has a continuous drain current (I_D) of 9A, ensuring it can manage significant power levels.
• Low On-Resistance: With an on-resistance (R_DS(on)) of 0.85Ω, the STW9NA60 is highly efficient, minimizing energy loss and heat generation during operation.
• Fast Switching: The device offers fast switching performance, a critical feature for reducing switching losses in power conversion applications.
• Gate Charge: A low gate charge (Q_g) enhances the STW9NA60's switching performance, further contributing to the efficiency of the overall system.

Applications

The STW9NA60's robustness and performance characteristics make it an ideal choice for a variety of applications, including:

• Power supply units for computers, TVs, and other electronics
• Uninterruptible power supplies (UPS)
• LED lighting systems
• High-efficiency DC/AC inverters
• Motor drives and controls

Advanced Technology

STMicroelectronics has incorporated their advanced MDmesh™ technology into the STW9NA60, which combines a vertical structure with a strip layout to achieve outstanding on-resistance and dynamic performance. The result is a product that offers both high efficiency and reliability for designers and engineers looking to optimize their power management solutions.

Package and Environmental Compliance

The STW9NA60 comes in a TO-247 package, which is known for its high power dissipation and ease of mounting on heat sinks. Additionally, this product complies with RoHS (Restriction of Hazardous Substances) directives, ensuring environmental friendliness by avoiding the use of hazardous materials in its construction.