New LCP Compound Permits Micro-Components with Delicate Conductor Path Structures — LED professional

For more than ten years now, Ensinger has been developing high-temperature compounds for three-dimensional micro-components with conductive structures (Molded Interconnect Devices, MID). “The requirements being placed on integrated electronics components are increasing: On the one hand, installation spaces are getting smaller, while on the other hand, more and more functions are having to be accommodated even on micro-components. The mobile phone standard 5G is also increasing the frequency requirements for circuit carriers”, says Thomas Wallner, Head of Sales and Marketing of Compounds at Ensinger. “Our new compound based on an LCP permits very good fine pitch performance and metallization that is not too rough. Both these things are basic prerequisites for high-frequency applications. TECACOMP LCP LDS is also reflow-solderable up to 260°C, and this property profile gives it an important edge on the market.”

The innovative filler concept of the new compound increases the reliability of the conductor structures when exposed to varying stresses of a climate-related or mechanical nature. The first achievement is a low level of moisture absorption, and the second an adapted coefficient of thermal expansion (CTE) comparable to that of copper. Mineral fillers (< 10 μm) permit very fine conductor path structures, so that very narrow pitch widths (conductor path width plus the space in between) of less than 70 μm are made possible in 3D.

TECACOMP LCP LDS 1049426 black stands out for good dimensional stability and rigidity. Liquid crystal materials have a particularly low melt viscosity. In other words, they are fluid when molten and hence particularly suitable for making delicate components with thin walls. The thermally conductive substrate can dissipate the heat loss in a targeted manner (thermal conduction capacity approx. 2 W/mK in-plane), as a result of which the lifespan of electronic components increases. A low heat capacity ensures short injection molding cycle times. Tool construction becomes simpler thanks to the low molding shrinkage. Furthermore, continuous bonding of the chemical-resistant and flame-retardant material by means of laser drilling is possible.

Comprehensive Advice

Three-dimensional circuit carriers made from high-temperature plastics combine electrical and mechanical functions in one component and thereby permit smaller, lighter and more affordable components than conventional circuit boards. Laser direct structuring is a complex process and requires know-how from a wide variety of areas – from injection molding through to electronics, laser activation and metallization. Ensinger advises customers not only with the selection of polymers, fillers and additives but also throughout the entire production process.

Further information is available at www.ensingerplastics.com/en/compounds/laser-structuring

About Ensinger Group:

The Ensinger Group is engaged in the development, manufacture and sale of compounds, semi-finished materials, composites, finished parts and profiles made from engineering plastics. To process the thermoplastic engineering and high-performance plastics, Ensinger uses a number of production techniques, such as extrusion, machining, injection molding, custom casting, sintering and pressing. With a total of 2,600 employees at 35 locations, the family-owned enterprise is represented worldwide in all major industrial regions with manufacturing facilities or sales offices. – ensingerplastics.com/