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DIC020ADH-LC2
Laser Chiller > Fiber Laser Chiller > DIC020ADH-LC2
DIC020ADH-LC2 Application Range: Suitable for 1200W to 1500W fiber lasers, cooling capacity of 5200W. Features and Functions:
High-quality refrigeration components with fan speed control and electronic expansion valve energy regulation, achieving temperature control accuracy of ±0.5°C to ±1.0°C.
Equipped with RS485 communication function for remote monitoring via PC.
Dual protections for high/low temperature and high/low pressure, with intelligent anti-freeze protection.
Flow display function with adjustable flow alarm values according to customer requirements.
Dual water temperature design: Automatic constant temperature function with two different set temperatures to meet varied demands. Dual signal output protection ensures one water temperature meets the cooling needs of the laser, while the other aligns with ambient temperature for laser output cooling.
Double water filter protection: Equipped with pure water and deionized water filters for enhanced equipment safety. Also includes conductivity detection device and signal output, with adjustable conductivity alarm values to effectively protect the laser.
The DIC020ADH-LC2 chiller is specifically designed to efficiently cool fiber lasers in the 1200W to 1500W power range. It provides precise temperature control, advanced safety features, remote monitoring capabilities, and water quality protection to ensure reliable operation and longevity of the laser system in industrial applications.
A chiller designed for 1200W to 1500W fiber lasers is essential for maintaining optimal operating conditions and ensuring the longevity and reliability of the laser system. Here are the key considerations and features typically associated with a chiller suitable for this power range:
Cooling Capacity: The chiller must have sufficient cooling capacity to dissipate the heat generated by a 1200W to 1500W fiber laser. The cooling capacity is typically specified in watts (W) and should match or exceed the heat load of the laser system to maintain stable operation.
Temperature Control: Precision temperature control is critical to prevent overheating and ensure consistent laser performance. The chiller should offer precise temperature regulation with control accuracy typically ranging from ±0.5°C to ±1.0°C.
Refrigeration System: This includes components such as compressors, evaporators, condensers, and circulation pumps, which circulate and cool the coolant (usually water or a water-glycol mixture). The efficiency and reliability of these components are crucial for continuous operation.
Safety and Protection Features: Essential features include high/low-temperature alarms, high/low-pressure protections, and anti-freeze mechanisms to protect the chiller and the laser system from temperature fluctuations and potential damage.
Energy Efficiency: Optimal energy usage helps minimize operational costs. Some chillers incorporate energy-saving features such as variable speed fans or intelligent cooling control systems to improve efficiency while meeting cooling requirements.
Monitoring and Control: Advanced models often include communication interfaces like RS485 for remote monitoring and control. This allows operators to monitor temperature levels, adjust settings, and receive alerts remotely, facilitating proactive maintenance and troubleshooting.
Water Quality Management: Proper water filtration systems are essential to maintain coolant purity and prevent contaminants from affecting laser optics and performance. This may include particle filters, carbon filters, and deionization units depending on water quality requirements.
Choosing the right chiller ensures efficient cooling, precise temperature control, and reliable operation of a 1200W to 1500W fiber laser system in industrial and manufacturing environments. It helps maximize laser performance and extends the lifespan of critical laser components. When selecting a chiller, consider the specific cooling requirements and environmental conditions of your laser application to ensure optimal performance and longevity.