<p>When selecting a surge diverter for your industrial or commercial application, it&#39;s crucial to consider the technical specifics that align with your operational needs. This particular surge diverter, designed for robust performance, offers a rated voltage of 2400 V and is capable of handling a substantial rated current of 40 kA. These specifications make it suitable for environments where high voltage protection is essential to maintain system integrity and prevent equipment damage.</p><p>The product features two poles, which indicates its capability to protect dual-phase systems effectively. This configuration ensures that both phases are safeguarded against potential surges, providing comprehensive coverage in various electrical setups. The inclusion of two poles also simplifies installation in systems where space and wiring complexity might be concerns.</p><p>One standout feature of this surge diverter is its impressive rated short circuit current capacity of 40 kA. This rating signifies the device&#39;s ability to withstand high fault currents without compromising on performance or safety, making it an ideal choice for facilities with heavy-duty electrical demands.</p><p>Incorporating this surge diverter into your setup can enhance the resilience of your infrastructure by mitigating the risks associated with transient overvoltages. It acts as a protective barrier between external power fluctuations and your critical equipment, ensuring continuity in operations and minimizing downtime due to electrical disturbances.</p><p>Given these specifications, this surge diverter serves as a reliable component within any robust electrical system design. Whether you&#39;re upgrading existing installations or planning new projects, its technical capabilities offer peace of mind and longevity in protecting valuable assets from unpredictable power anomalies.</p><p>For those seeking dependable performance in challenging conditions, this product provides an optimal balance between functionality and durability without unnecessary complexities.</p>