The new SR 10 AOM and SR 25 AOM, both available at a wavelength of 9.3 micron and with rated powers of 150W for the SR 25 AOM and 75W for the SR 10 AOM, add value to the established SR series of sealed CO2 laser sources from Luxinar. The integrated acousto-optic modulator (AOM) creates much faster optical rise and fall times of less than 1 microsecond which can minimise unnecessary heat energy from typical pulse rise/fall times of approximately 60 microsecond.
Unique to the industry, the RF power supply, AOM, control driver and optical parts of the SR 25 AOM and SR 10 AOM are all hermetically sealed to IP66. This rating ensures a high level of protection against dust, heat and water spray, making them ideal for the harshest of industrial environments.
The AOM range provides superior pulse-to-pulse control, output power stability and an integrated and field replaceable RF power supply for ease of installation and servicing at customer sites. The simple control interface and compact mechanical design of the unit allow easy integration into a variety of laser-based processing machines giving distortion-free materials processing.
Andrew Chambers, Sales Director of Luxinar, explains: "Due to its precise pulse control, the SR AOM series is ideal for a variety of high precision processes such as microfilm cutting in the flat panel display market and scribing, engraving, marking and surface patterning applications that need less HAZ. Other thin film applications, including those in the automotive, electronics, lighting and flexible packaging industries, can benefit from the higher quality cutting edge which the SR AOM offers when compared to standard pulsed CO2 lasers."
In common with the rest of the SR series, the SR AOM range offers simple integration, clean and high-quality laser processing, and low running and maintenance costs; and, as with the whole of the Luxinar range of CO2 lasers, the minimum shipment power of the SR AOM range is 20 percent higher than the rated power to give extended lifetime and increased reliability.