FOTEK NT-96LE Temperature Controller
$103.84
- Pricing: All prices are listed in U.S. dollars (USD).
- Secure Payments: We process payments securely through PayPal and Stripe.
- Free Shipping: Enjoy complimentary standard shipping within the United States (estimated delivery: 5–7 business days).
- International Shipping: For orders outside the U.S., please review our shipping policies for details.
The 7MBR50U2A060-50 is a high-performance IGBT module designed for inverter applications. Key features include low saturation voltage, high switching speed, and robust short-circuit capability. Ideal for motor drives, UPS systems, and renewable energy inverters, offering superior efficiency and reliability.
The 7MBR50U2A060-50 IGBT module is engineered for demanding power electronics applications, delivering exceptional performance and reliability. This module boasts a low saturation voltage, minimizing conduction losses and enhancing overall system efficiency. Its high switching speed allows for efficient operation at higher frequencies, reducing switching losses and improving dynamic performance.
Key features of the 7MBR50U2A060-50 include:
- Low saturation voltage for reduced conduction losses
- High switching speed for efficient high-frequency operation
- Robust short-circuit capability for enhanced system protection
- Optimized thermal performance for reliable operation
- Isolated baseplate for easy mounting and thermal management
The 7MBR50U2A060-50 is ideally suited for a variety of applications, including:
- Motor drives: Providing efficient and precise control of motor speed and torque.
- Uninterruptible Power Supplies (UPS): Ensuring reliable power backup in critical applications.
- Renewable energy inverters: Converting DC power from solar panels or wind turbines to AC power for grid connection.
- Welding power supplies: Delivering stable and controlled power for welding processes.
- Induction heating: Providing efficient and localized heating for industrial applications.
This IGBT module provides superior efficiency, reliability, and robustness, making it an excellent choice for demanding power conversion applications. Its optimized design and advanced features ensure long-term performance and contribute to the overall efficiency of the system.
