The ATS-58001-C1-R0 is a high-performance LED cooler from Advanced Thermal Solutions, designed to efficiently dissipate heat generated by high-power LEDs. This cooler is specifically engineered to maintain optimal operating temperatures for LEDs, ensuring their longevity and consistent performance. Its construction and design prioritize effective thermal management in demanding LED applications.

Applications

• High-brightness LED lighting systems
• Stage lighting
• Architectural lighting
• Street lighting
• Medical lighting equipment
• Industrial lighting applications

Features

• High-performance heat sink
• Designed for high-power LEDs
• Optimized fin geometry for efficient heat dissipation
• Lightweight construction
• Durable materials for long-term reliability
• RoHS compliant

Benefits

• Extends the lifespan of LEDs by preventing overheating
• Maintains consistent LED performance by stabilizing temperature
• Reduces the risk of LED failure due to thermal stress
• Enhances the overall reliability of LED lighting systems
• Easy to integrate into existing lighting designs
• Provides a cost-effective cooling solution

Additional Details

The ATS-58001-C1-R0 features a carefully designed fin array that maximizes surface area for effective heat transfer to the surrounding air. The heat sink is typically manufactured from aluminum, offering a balance of thermal conductivity, weight, and cost. It is compatible with a range of high-power LED packages and can be easily mounted using standard hardware. Proper thermal interface material (TIM) should be used between the LED and the heat sink to further enhance thermal performance. The cooler's dimensions are optimized to fit within common LED lighting fixture form factors, simplifying integration and design. The specific thermal resistance is a key performance parameter, indicating the cooler's ability to dissipate heat for a given temperature difference. ATS provides detailed specifications and thermal performance curves for this product, enabling engineers to accurately predict and optimize the thermal behavior of their LED systems.