Used TA LIANG TECHNOLOGY TL-RU6G #9404555 for sale

TA LIANG TECHNOLOGY TL-RU6G
Manufacturer
TA LIANG TECHNOLOGY
Model
TL-RU6G
ID: 9404555
Vintage: 2016
Router drill 2016 vintage.
TA LIANG TECHNOLOGY TL-RU6G is a laser device that is used for a variety of purposes in research, industrial, and medical applications. TL-RU6G is a diode-pumped, passively Q-switched, and ultrafast laser. It is a low divergence and compact laser device featuring an innovative optical design. TA LIANG TECHNOLOGY TL-RU6G laser's design is based on the incorporation of an advanced diode-pumped solid-state laser module and its optical output coupling. It is capable of producing up to 6.5W of high-power laser pulses at near-infrared (NIR) wavelengths between 1020 and 1085 nm. With a short pulse duration and a pulse width of less than 1 nsec, this device is well-suited for advanced research applications and industrial applications, including embroidery, cutting, and welding. In addition to its compact design, TL-RU6G laser is built for durability and longevity, with an advanced cooling system and enclosed optics that guarantee a low maintenance rate and a long operating life. It also has a user-friendly interface, and it is very easy to install and set up. The laser is equipped with advanced diagnostic and safety systems, including a range of infrared sensors, diagnostics and status alerts, and over-temperature protection. TA LIANG TECHNOLOGY TL-RU6G laser offers outstanding performance for its class, with a 23 mm beam diameter, an output power of 6.5W, and excellent beam quality. In particular, the laser displays M2 < 1.3 and has a pulse width of less than 1 nsec. These features, coupled with its low divergence, makes it well-suited for a wide range of applications, including laser engraving, laser cutting, and laser welding. TL-RU6G laser is an excellent choice for those looking for a robust and reliable device that offers excellent laser performance, durability, and user-friendly features. It offers an easy to use design and outstanding performance, making it ideal for a wide range of research and industrial applications.
There are no reviews yet