The past five years have seen significant advances in both the performance and application of industrial laser systems. From the introduction of the Ytterbium fiber laser to ongoing improvements in the performance and reliability of more traditional laser sources, there has never been such a broad range of laser technologies available to manufacturing industries.
High Performance, Zero Maintenance with the Ytterbium Fiber Laser. The pulsed Ytterbium fiber has replaced the q-switched Nd:YAG and Nd:YV04 laser in many marking, cutting and welding applications. With shorter pulse widths, higher peak power and higher sustained power at higher pulse rates, the Ytterbium fiber laser significantly improves on the performance of the older solid-state-lasers. The Ytterbium fiber lasers are air-cooled, provide 100k+ hours diode life and are highly reliable with zero required maintenance.
Efficiency and Reliability Improve with New CO2 Laser Designs. The latest CO2 laser designs provide more power in smaller packages with lower operating costs and are often air-cooled. Improvements in laser beam quality and pulse characteristics have expanded the capabilities of this time-proven technology. The cost-per-watt of today's compact designs provides an attractive, cost-effective solution for many manufacturing challenges.
High-Speed, High-Accuracy Beam Steering Systems. For laser marking systems and other material processing applications that utilize galvanometer beam-steering systems, the latest scan systems provide unprecedented speed and accuracy. Increased process speed may significantly improve the cost-savings of a laser machine tool as compared to previous laser performance.
Advances in Today's Laser Technology Have Facilitated Improvements in Traditional Applications and the Development of Innovative New Laser Processes. Higher speeds, greater accuracy, higher quality, smaller feature size. Our application Lab continues to develop new uses for the latest laser technologies while continually improving on the benefits of lasers in established applications.
Advances in Portable Hand-held Laser Marking Systems. These systems offer a wide variety of laser sources for direct part marking of almost all metallic and non-metallic materials. This portable laser marker configuration is particularly well suited to marking IUID codes in compliance with the latest DOD directives. In addition to military use, our state-of-the-art portable laser marking system can be utilized for a variety of industries such as automotive, aerospace, appliance, defense-military, and many more. In addition to the above featured benefits, the portable laser marker system includes a tool balancer suspension of the emitter system (aka mark head) permitting an operation window from 1 foot to 6 feet off the ground and when suspended by the boom the system is effortlessly operated in a 15′X20′ foot print. Other configurations available. More importantly our high quality laser ensures that the 2D matrix specification remains readable even in challenging conditions. Control Micro Systems' portable laser marker can permanently mark readable UID bar code that includes serial numbers and other defined data formats.
CMS Laser | Control Micro Systems is a laser marking technology integrator specializing in the development of manufacturing solutions addressing each customers unique requirements. Established in 1983, Control Micro Systems stands at the forefront of turnkey system development. We are committed to providing you with the highest level of laser performance and the greatest return on your laser investment. Contact us today for a complimentary feasibility study on laser marking your parts! 407-679-9716
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