PRESS RELEASE
DAV Tech offers customized solutions for automated Dam&Fill technology applications
DAV Tech, a company specialized in the development of fluid dispensing systems and automation, has developed custom systems for the implementation of Dam&Fill technology, in response to the increasingly complex needs of the industrial electronics sector. These systems combine automation, precision, and selective protection of components.
With growing market demands in terms of reliability, miniaturization, and functional protection, Dam&Fill technology represents a smart compromise between thin-film coating and full encapsulation. By using two materials with different viscosities — one to create a barrier (Dam) and the other to fill (Fill) — it is possible to obtain localized, protective coatings optimized for material usage.
“What makes this technology truly innovative is its integration into an automated system tailored to the customer’s specific needs,” says the DAV Tech technical team. “Our customized approach ensures maximum process control, geometric flexibility, and repeatability over time.”
The advantages of DAV Tech’s approach to Dam&Fill technology:
High precision and repeatability, even on complex geometries
Full control of process parameters: volumes, timings, and heights
Reduction of waste and material optimization
Ability to manage various barrier heights, including multi-layer applications
Integration with automatic lines or stand-alone workstations
Dam&Fill technology enables the selective protection of electronic components from moisture, vibrations, aggressive chemicals, and mechanical stress — without the need for full encapsulation. This results in robust protection with minimal impact on circuit layout and material consumption.
DAV Tech provides complete support: from system design to nozzle selection, from control software to on-site commissioning.
For further information or technical inquiries, contact:
DAV Tech Srl
Via Ravizza, 30 – 36075 Montecchio Maggiore (VI), Italy
2,046 characters including spaces. Free reproduction with source citation appreciated.
Please send a copy of the published material.