Apr 8, 2003
Leister Lasersystems is a division of LEISER Process Technologies, the market leader for over 50 years in the development, production and worldwide sale of hot-air and plastic welding systems. The laser systems unit, with its high-tech products for laser transmission welding and laser soldering provides advice to its customers in the conception, construction and material selection. This also includes process optimization in our applications laboratory, as well as advisory services for process integration in production environments.
In laser soldering, the laser beam is precisely directed to the desired contact point. The incident beam is primarily absorbed by the solder, leading to fast and non-destructive soldering of the contact. The very short heating and cooling times give rise to a fine-grained structure of the inter-metallic bond. This precise and contact-free process results in optimal quality of the soldered bond.
Sensors and electronics
NOVOLAS laser soldering systems are ideally suited for selective soldering processes in which the greatest possible flexibility is required. Precise and controllable heat delivery satisfies the requirements for a reliable production system. The contact-free soldering system, with its wide range of diverse conceptual methods, such as point, simultaneous or mask soldering, allows adaptation to suit numerous soldering applications. Whether SMT, THT or special applications, laser beam soldering avoids heat stress, which can damage sensitive components or substrate materials, such as flex or ceramic substrates.
We bond your components
As a result of the wide range of technical possibilities and the specialist knowledge available, your manufacturing contracts are in the best possible hands with us. Beside supplying complete Laser Soldering Systems we are pleased to develop your manufacturing process and take on the production of your small and medium scale series.
Laser soldering with NOVOLAS offers a way to consistently precise solder joints in a Non-Contact fashion.