Optical and electronic material industrial Inkjet WorkStation IWS3500Ultra
It is suitable for small and medium-scale trials in enterprises, and is used for digital deposition of precision optoelectronic materials such as photovoltaics, displays, perovskites, quantum dots, new energy, sensors, and functional devices. The standard configuration includes a CCD alignment system and an industrial printhead system. Functional modules are optional.

IWS 3500Ultra is a high-precision industrial inkjet printing platform for optoelectronic materials, which can realize precise deposition and patterning of optoelectronic functional inks and precise alignment between multiple layers. It can be used for flexible electronics, TFE packaging materials, OLED inks, QLED inks, quantum dot inks, electrode inks, dielectric inks, and is used to produce PV (CIGS, O-PV, Si wafers), PCBs (classic and multi-layer, 3D), semiconductors (sensors, power devices, MEMS), OLED (lighting, display, 3D), life sciences, optics, touch screens, and printed electronics.

IWS3500Ultra has CCD automatic calibration function, which can realize accurate positioning of substrates when they are repeatedly loaded. It has high-precision nozzles, granite marble base, linear motors, metal gratings, etc. to ensure printing accuracy and extremely high repeatability. Due to the modular design, customers can always customize the platform according to their specific needs.

  

  IWS3500Ultra

The IWS3500Ultra industrial inkjet printing equipment is suitable for functional materials for a variety of applications. These functional materials can have dielectric, conductive, adhesive, mechanical, optical or chemical properties and are printed using picoliter-sized droplets from digital files. Inkjet printing is an additive manufacturing technology and therefore has great advantages in terms of material usage, productivity, environmental impact and cost. Due to its precise droplet placement and volume, functional inkjet printing has a wide range of applications in printed and flexible electronics, displays, OLEDs, sensors, PCBs, semiconductor assembly, chemical processing, photovoltaics, life sciences and optics.


Inkjet printing can create very fine features and can replace traditional technologies such as lithography, screen printing, spraying and dispensing. Because it is fully digital, there is no need for templates and screens, significantly saving material usage and enabling fast product changeover times.

Since inkjet printing is compatible with a rich set of functional materials, it is a very versatile material shaping technology. It can be used for patterning from molecular materials, nanomaterials or direct deposition of uniform coatings.
It can also be used as a 3D printing method by overlapping and printing multiple layers of materials. Since industrial print heads have hundreds or thousands of parallel nozzles and operate at very high frequencies, inkjet achieves very high production capacity.
The IWS series inkjet printers can accommodate multiple printhead arrays, allowing high productivity and flexibility.