Product Overview: STD130N4F6AG - STMicroelectronics
The STD130N4F6AG is a cutting-edge power MOSFET designed and manufactured by STMicroelectronics, a global semiconductor leader. This device is part of ST's STripFET™ VI DeepGATE™ technology, which offers an optimal trade-off between on-state resistance (RDS(on)) and gate charge (Qg), enhancing the efficiency of power management systems.
Key Features
- Low On-Resistance: The device boasts an exceptionally low on-resistance of only 130 mΩ (max), which minimizes conduction losses and improves overall energy efficiency.
- High Current Capability: With a continuous drain current (ID) of 80 A, the STD130N4F6AG can handle high current applications with ease, making it suitable for demanding environments.
- Enhanced Switching Performance: The MOSFET's optimized gate charge ensures fast switching performance, which is crucial for reducing switching losses in power conversion applications.
- 100% Avalanche Tested: Guaranteeing reliability, each device is subjected to rigorous avalanche testing, ensuring robustness against stress and unforeseen power surges.
- Low Gate Threshold Voltage: A low gate threshold voltage (VGS(th)) allows for the device to be driven at lower voltages, which can be beneficial in low-voltage applications.
Applications
The STD130N4F6AG is a versatile component suitable for a wide range of applications, including:
- High-efficiency DC/DC converters
- Motor control circuits
- Power management solutions
- Switch-mode power supplies (SMPS)
- Automotive applications and load switches
Quality and Environmental Compliance
STMicroelectronics is committed to environmental sustainability and quality. The STD130N4F6AG is compliant with RoHS (Restriction of Hazardous Substances) and is designed to meet the highest standards of reliability and performance.
Conclusion
The STD130N4F6AG from STMicroelectronics represents a blend of power efficiency and high-performance characteristics, making it an ideal choice for designers looking to optimize their power management systems. Its robustness, coupled with low power dissipation, ensures that it can meet the needs of various high-performance applications while contributing to energy-saving efforts.