ABB 5SHY4045L0006 3BHB030310R0001 Product Introduction
Product Description
The ABB 5SHY4045L0006 3BHB030310R0001 is a high-performance thyristor module, primarily designed for power conversion and control applications in industrial systems. It efficiently regulates the flow of electrical power, making it suitable for use in rectifiers, inverters, and other power electronic equipment. This module is built to handle high current and voltage levels, ensuring stable operation even in demanding industrial environments such as steel mills, power plants, and heavy manufacturing facilities. Its robust construction and advanced design contribute to reliable performance, minimizing downtime and enhancing the overall efficiency of power systems.
Technical Parameters
- Rated Current (IT(RMS)): 450 A, enabling it to handle large electrical currents.
- Repetitive Peak Off-State Voltage (VDRM/VRRM): 4000 V, providing high voltage withstand capability.
- Turn-On Time: ≤ 1.5 μs, ensuring fast response during operation.
- Turn-Off Time: ≤ 50 μs, facilitating quick switching between on and off states.
- Forward Voltage Drop (VT): Typ 1.8 V at 450 A, minimizing power loss.
- Operating Junction Temperature (TJ): -40 ~ 125 °C, adapting to a wide range of thermal conditions.
- Storage Temperature Range: -40 ~ 125 °C, maintaining integrity when not in use.
- Isolation Voltage (Viso): 4200 V RMS, ensuring safe isolation between different parts of the system.
- Mounting Torque: 25 Nm, ensuring secure installation.
- Weight: Approximately 1.2 kg, providing a sturdy build while remaining manageable for installation.
- Dimensions (L × W × H): 140 mm × 100 mm × 50 mm, compact enough for integration into various equipment.
- Terminal Type: Screw terminals, allowing for secure and reliable electrical connections.
The ABB 5SHY4045L0006 3BHB030310R0001 is available for sale worldwide, covering all major industrial markets. Orders are processed promptly, and delivery is guaranteed within 3 days, ensuring that you can quickly integrate it into your power systems with minimal delay.
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