The TSM13N50ACI C0G is a 500V, 13A N-Channel MOSFET from Taiwan Semiconductor. This power MOSFET is designed for high-voltage, high-speed switching applications, offering efficient performance and reliability.
Applications
- Switch-mode power supplies (SMPS)
- Power factor correction (PFC) circuits
- DC-DC converters
- AC-DC adapters
- LED lighting
- Motor control
Features
- High voltage: 500V drain-source voltage allows for use in high-voltage applications.
- Low on-resistance (RDS(on)): Minimizes power loss and improves efficiency.
- Fast switching speed: Reduces switching losses and improves overall system performance.
- Avalanche rated: Provides ruggedness and reliability in demanding applications.
- High avalanche energy: Enhances the MOSFET's ability to withstand transient voltage spikes.
- Lead-free and RoHS compliant: Meets environmental regulations.
Benefits
- High efficiency: The low on-resistance minimizes power loss, resulting in higher efficiency and reduced heat dissipation.
- Reliability: Avalanche rating and high avalanche energy ensure robust performance under transient voltage conditions.
- Simplified thermal management: Lower power dissipation simplifies heat sink design and reduces overall system cost.
- Reduced switching losses: Fast switching speed minimizes losses during switching transitions, improving overall efficiency.
- Compliance: Lead-free and RoHS compliant, making it suitable for environmentally conscious applications.
Additional Details
The TSM13N50ACI C0G is widely used in power supplies for computers, servers, and consumer electronics. Its fast switching speed and low on-resistance make it an excellent choice for high-frequency switching applications. The avalanche rating ensures that the MOSFET can withstand transient voltage spikes that may occur during switching. This MOSFET's ability to handle high avalanche energy is particularly important in applications where inductive loads are present. Its lead-free and RoHS compliant design makes it suitable for use in environmentally sensitive applications.