Turning Breakthrough MEMS Designs into
Manufacturing, with precision.
We are more than a pure-play MEMS foundry. We are the only independent MEMS foundry in Europe, empowering customers worldwide to bring high-value, complex technologies to life. Built on robust, IP-backed technology platforms and a rich portfolio of proven building blocks, we enable fast innovation, seamless collaboration, and long-term partnerships that scale with your ambitions.
We are a trusted partner for advanced thin-film technologies and MEMS components, with a strong track record in process development, industrialization, and high-volume manufacturing. Our sweet spot is delivering complex, high-performance products at medium to high volumes—combining flexibility, focus, and agility that global innovators rely on. With a team of over 110 highly skilled professionals, we build on decades of innovation rooted in our Philips heritage to deliver cutting-edge technology and truly out-of-the-box solutions.
Our platforms—including low-voltage capacitive micromachined ultrasound transducers (CMUT), Flex-to-Rigid integration, beam optics technologies, 3D micromachining, and the deposition and patterning of exotic materials—allow us to deliver value far beyond traditional foundry services.
Based at the High Tech Campus in Eindhoven, the Netherlands, we are proud to be a trusted technology partner to customers around the globe.
Our purpose
We unlock breakthrough innovations that enhance the well-being of individuals and society at large.
Our mission
We partner with customers to evolve their innovations into scalable, market-ready solutions – specialising in thin films, transducers, and photonics.
Our vision
To be at the forefront of developing, industrialising, and scaling micro system technology solutions.
Our purpose
We unlock breakthrough innovations that enhance the well-being of individuals and society at large.
Our mission
We partner with customers to evolve their innovations into scalable, market-ready solutions – specializing in thin films, transducers, and photonics.
Our vision
To be at the forefront of developing, industrializing, and scaling micro system technology solutions.
Our legacy
1968
Construction building FAB-WAG at NatLab, now HTC4 at High Tech Campus
Development of Silicon Repeater systems - predecessor of ASML Lithography tools (SiRe)
1979
Installation of ‘Silicon Repeater’ lithographic tool, Predecessor of ASML’s PAS series i-line stepper
1998
The process flow for high-speed double-poly bipolar transistor and volatile flash technology was brought to production ready maturity level and transferred to Philips Semi, now NXP
1999
Large area, wafer-size CCD process technology acquired and transferred to Dalsa
2002
In collaboration with WA clean room (now HTC 48) worked on developments of PISC - passive integration common Si-platform - an interposer for passive integration, predecessor of COP (co-packaged optics). Matured technology transferred to Philips semi, now NXP
2004
New 'More-than-Moore" fab infra-structure: (re)opening of the WAG clean room after the reconstruction; upgrade to 200 mm wafer facility; start working on heterogeneous integration -System in Package (SiP)
2006
Developed 3D capacitors: Using 3rd dimension in Si to decrease surface area usage and increase capacitance density. Process was transferred to Philips Semi, now Murata
2008
Dedicated technology developed for RF-MEMS for antenna adaption in mobile telephones and other applications. Technology was acquired by and transferred to Epcos
2012
Monolithic integration of CMUT on ASIC
2014
In direct collaboration with Sapiens a process flow for deep-brain stimulation electrodes was developed. Sapiens was acquired by Medtronic
2014
First one ever full size pellicle ever realised
2016
EUV pellicle manufacturing process flow was matured and transferred to Teledyne
2018
Start volume production IR filters
2020
Demonstrated IVUS using our CMUT and F2R platform
2025
Founding of XIVER
How to get to XIVER
Use the address High Tech Campus 1 into your navigation system. Not all navigation systems have updated software, you can find the High Tech Campus under its former address ‘Professor Holstlaan 4’. Upon arrival, follow campus signage to parking garage P0 and then proceed to building HTC 4.
If you are traveling by train, choose Eindhoven Central Station as your destination. From there, take a bus or a taxi to the High Tech Campus. Upon arrival, follow campus signage to parking garages P0, P1, or P2, and then proceed to building HTC 4.
When traveling by plane, you can choose either Schiphol Airport or Eindhoven Airport. From Schiphol Airport, you can take a train to Eindhoven Central Station. From Eindhoven Airport, bus line 20 goes to the High Tech Campus.