STY30NK90Z - N-Channel 900V - 0.085Ω - 30A - TO-247 - SuperMESH™ Power MOSFET
The STY30NK90Z is a high-performance N-Channel Power MOSFET designed by STMicroelectronics, a global semiconductor leader. This MOSFET is part of the SuperMESH™ family, which is well-known for its excellent RDS(on) area ratio and reduced gate charge. These features make the STY30NK90Z ideal for a wide range of high-efficiency applications.
Key Features:
- Voltage Rating: The device is rated for a drain-source voltage (VDS) of 900V, making it suitable for high-voltage applications.
- Low On-Resistance: With an on-resistance (RDS(on)) of only 0.085Ω, it provides high efficiency and minimizes power losses during operation.
- High Current Capacity: It can handle a continuous drain current (ID) of 30A, which is adequate for handling high current loads.
- TO-247 Package: The device comes in a TO-247 package, known for its high power dissipation and ease of mounting on heat sinks.
- Reduced Gate Charge (Qg): This helps in achieving fast switching performance, which is critical for reducing switching losses in power conversion applications.
- Zener-Protected: The MOSFET features an integrated Zener diode for gate-source protection, enhancing its reliability in adverse conditions.
Applications:
The STY30NK90Z Power MOSFET is versatile and can be used in a variety of applications, such as:
- Switching applications including Power Supply Units (PSUs)
- Motor control systems
- Lighting solutions such as LED drivers
- High-performance computing and server power systems
- Renewable energy inverters, including solar and wind power converters
- Electric vehicle (EV) charging stations and power management systems
Conclusion:
The STY30NK90Z from STMicroelectronics is a testament to the company's commitment to providing advanced power solutions that enhance energy efficiency and reliability. With its robust design, high voltage capability, and low on-resistance, this Power MOSFET is an excellent choice for designers looking to optimize their high-power applications.