Built with the latest RTI semiconductor laser module technology and a yellow Coherent Taipan OPSL module! The RTI PIKO RYGB projectors are compact show laser systems in a robust, dust-proof housing. The high-end show lasers are ideal for highly professional laser show applications of all kinds. The projectors are completely manufactured in Germany and are built with the latest RTI semiconductor laser modules and a yellow OPSL module for even better visibility. The RSL modules with their very low divergence and a homogeneous beam shape make the RTI PIKO RYGB's highly professional laser systems. The small beam diameter of only approx. 5.0 mm enables the use of small scanner mirrors with less inertia, which enables high scanning speeds. The standard scanners can be operated with a maximum scan speed of 45 kpps @8¡ ILDA and a maximum scan angle of 50¡. CT-6210 scanners with LAS Turboscan drivers are optionally available, enabling even higher scanning speeds of up to 60kpps at ILDA 8¡ at a maximum of 60¡. The intelligent LaserAnimation Sollinger Mainboard is integrated into the laser projector, which provides the laser operator with a variety of control and setting options (e.g. via the LA.toolbox) or transmission options (such as AVB). Together with the optionally available FB4, ILDA, AVB as well as player operation, among others, are available, ensuring the highest possible flexibility. Thanks to the new LAS mainboard, the latest generation of PIKO projectors can be controlled via our Laser Disable Button Ð a special safety button to interrupt the laser output via Ethernet. Control signals can be looped through directly via the network switch, which is also integrated. In the RTI PIKO RYGB lasers, the standard integrated 525 nm green can be replaced by 10 Watt 532 nm OPSL if required. The powerful RTI PIKO RYGB systems are suitable for indoor and outdoor applications, e.g. at concerts, festivals and other big events. Demanding graphic projections and projections over long distances are no problem for these devices thanks to the low divergence.