Advancing Laser Cooling Through Engineering Precision: TEYU's 2025 Milestones

In 2025, TEYU continued to strengthen its position in the laser cooling sector through steady technological refinement and application-driven innovation. Rather than short-term breakthroughs, TEYU's progress has been shaped by focused engineering, long-term product validation, and consistent performance in real industrial environments. Industry recognitions received during the year reflect how these fundamentals translate into reliable cooling solutions for increasingly advanced laser systems.

Precision Cooling for Ultrafast and UV Lasers
Among the year's highlights, the Ultrafast Laser Chiller CWUP-20ANP received both the Ringier Technology Innovation Award 2025 and the Secret Light Award 2025. Developed for high-precision ultrafast and UV laser applications, the CWUP-20ANP is designed to support stable laser output in processes where even minor thermal fluctuations can affect machining accuracy or product quality.
This laser chiller delivers ±0.08°C temperature stability through advanced PID temperature control, enabling precise thermal management for sensitive laser sources. Its RS-485 communication interface allows users to remotely monitor operating status, adjust parameters, and integrate the chiller into automated control systems. In addition, dual temperature control modes provide flexibility for different system architectures, supporting a wide range of ultrafast and UV laser configurations commonly used in precision manufacturing, electronics processing, and micro-machining.

Reliable Thermal Management for Ultrahigh-Power Fiber Lasers
At the other end of the power spectrum, TEYU's Ultrahigh Power Fiber Laser Chiller CWFL-240000 was recognized with the OFweek Laser Award 2025 and the China Laser Star Rising Award 2025. Designed to meet the demanding requirements of 240 kW fiber laser systems, this model addresses the growing need for stable, long-duration operation in heavy-duty laser cutting and industrial processing.
The CWFL-240000 adopts a dual-circuit cooling architecture, independently regulating the laser source and optical components. This design helps maintain thermal balance across the system, reducing thermal stress and supporting consistent laser performance under continuous high-load conditions. With built-in ModBus-485 communication, this chiller supports intelligent connectivity, making it suitable for modern production lines that require real-time monitoring, centralized control, and system-level integration.

A Consistent Approach to Laser Cooling Innovation
Together, these two award-recognized products illustrate TEYU's broader approach to laser cooling: focusing on thermal precision, system reliability, and intelligent control, while aligning product development with real-world application needs. From ultrafast micro-processing to ultrahigh-power industrial cutting, TEYU's chiller portfolio reflects a deep understanding of how thermal management influences laser performance, uptime, and overall system stability.
Looking ahead to 2026, TEYU plans to continue advancing its laser and machine-tool cooling technologies, supporting the evolving demands of advanced manufacturing and energy-efficient production worldwide. For laser equipment manufacturers and users seeking dependable, well-engineered chiller solutions, long-term performance and application suitability remain at the core of TEYU's development strategy.