The BW1600-SN is a 3P (three-pole) Air Circuit Breaker (ACB) designed for 440V systems, capable of handling up to 800 amps. Ideal for industrial applications, it ensures safety by interrupting currents during overloads or faults. Its robust design and air arc extinguishing medium make it reliable in high-demand electrical environments. Professional installation and maintenance are recommended for optimal performance.
The EC204-CT0A is a Human-Machine Interface (HMI) featuring a 4.3-inch TFT color display. This user-friendly interface provides a clear and vibrant visual experience, making it suitable for various industrial applications. The TFT technology ensures sharp and detailed graphics, enhancing the user's interaction with connected systems. With its compact design and advanced functionality, the EC204-CT0A HMI is well-suited for monitoring and controlling processes in automation and control systems.
The V12F06LFFF6F VCB is a high-performance Vacuum Circuit Breaker (VCB) designed for industrial applications. With a 3-pole configuration, it operates at 12 kV voltage, making it suitable for medium-voltage power distribution systems. The VCB is built to handle high short-circuit currents, offering a robust 25 kA breaking capacity. Featuring a current rating of 630 A, it provides reliable and efficient protection for electrical circuits. The V12F06LFFF6F VCB is a quality solution for ensuring the safety and stability of electrical systems in demanding environments.
The XSTN-6 is an Automatic Transfer Switch (ATS) Controller designed for both three-phase and four-phase electrical systems operating at 440 volts. This controller facilitates seamless power transfer between different sources, ensuring uninterrupted electrical supply. Ideal for critical applications, it enhances reliability by automatically switching between power sources in case of a failure. Its compatibility with both three and four-phase setups makes it versatile for various industrial and commercial environments. Professional installation and adherence to safety guidelines are recommended for optimal performance.