The Carlo Gavazzi Heatsink Selector Tool helps users choose the optimal heatsink for their solid-state relays based on load, ambient temperature, and mounting configuration. Designed to simplify system design, it ensures proper thermal management and reliable SSR performance. With accurate calculations and user-friendly selection options, the tool prevents overheating and extends relay lifespan. Ideal for engineers and panel builders seeking fast, precise heatsink sizing.
The Carlo Gavazzi Heatsink Selector Tool is an engineering aid developed to determine the correct heatsink required for optimal solid-state relay performance. By evaluating key parameters such as load current, duty cycle, mounting position, and ambient temperature, the tool provides precise recommendations tailored to each application. This ensures that SSRs operate within safe thermal limits, reducing the risk of overheating and increasing the longevity of the electronic components.
Ideal for designers, OEMs, and panel builders, the tool streamlines the thermal design process by eliminating guesswork and manual calculations. Carlo Gavazzi’s Heatsink Selector Tool accounts for airflow conditions, relay type, and environmental factors, offering accurate heatsink options that match real-world operating requirements. Whether used for industrial machinery, HVAC systems, automation equipment, or power control panels, the tool helps ensure reliable, safe, and efficient SSR installations. With its intuitive interface and dependable results, it plays an essential role in designing robust and thermally optimized relay systems.
| Additional Information – Heatsink Selector Tool SSRs (Carlo Gavazzi) | |
|---|---|
| Mounting Type | Designed for direct PCB installation, ideal for compact electronic assemblies. |
| Switching Options | Available for both AC and DC load switching based on application requirements. |
| Operation | Silent, wear-free semiconductor switching with no mechanical components. |
| Typical Applications | Control boards, HVAC modules, compact automation devices, heating systems, appliances, and power electronics. |
| Advantages | Fast switching times, high reliability, reduced EMI, and extended service life. |
| Durability | Resistant to vibration, shock, and humidity—ideal for harsh industrial environments. |
| Space Saving | Miniature footprint allows efficient PCB layout and compact system design. |
| Electrical Isolation | Strong isolation between input and output ensures safe and stable operation. |
| Integration | Easy to integrate with control circuits, microcontrollers, and automation boards. |
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Website Updated On : 01 December 2025
