Of all the devices our clients call on us to make, ultra-miniature flex circuits are among the most challenging. Success often requires spending considerable upfront time with customers to gain a full understanding of their specific requirements as well [...] Read More
Sputtering and photolithography vs. chemical etching—the advantages are clear. Device makers have a choice of whether to specify an additive or subtractive process for fabricating the micron-scale circuits used in their products. Knowing the [...] Read More
Ultra miniature flexible circuits are highly complex devices with some amazing characteristics. We make circuits with feature sizes ranging from 3 to 10 microns, some of which are so flexible they can wrap around a pencil. Some of our ultra miniature [...] Read More
Medical design is increasingly impacting miniaturization. Testament to this, as a micron-scale process developer and manufacturer, we’re receiving more and more requests from biosensor and device designers looking to push the limits. Circuits now [...] Read More
In an earlier blog post we discussed why micron-scale circuits tend to perform better when made using an additive versus a subtractive process. The additive process defines circuit lines by adding (electroplating) conductive material on top [...] Read More
Does your product or application call for a very tiny part? If so, nano-scale electroforming may be your best or even your only option. To find out for sure you’ll need to talk to someone with expertise and experience in this highly specialized [...] Read More
Are you looking for a reliable photolithography partner? Our proprietary photolithography process ensures that you get more consistent trace definition, thinner and therefore more flexible circuits (where needed) AND more uniform circuit lines (i.e., [...] Read More
For more than 50 years we've been a trusted supplier of precise optical components for motion control, analytical instrumentation, test and other optics markets — all designed and manufactured to impossibly high standards of precision and reliability. We [...] Read More
Giving Our Customers What They Want Our customers have very high standards when it comes to selecting the source of their electroformed parts. They look for extreme capabilities in areas like: • Feature size • Feature controllability • [...] Read More
Precision electroforming is an additive process in which 2-D and 3-D microstructures are formed by electrochemically depositing metal into a precisely formed photoresist mold. Electroforming is ideal for fabricating micron-scale, metallic components as [...] Read More
Though a medical device designer may be an expert in the specific application and sensing technology employed in a device, this expertise does not necessarily translate to building that technology on a large scale with stringent reliability constraints. [...] Read More
Though a device designer may be an expert in knowing the specific technology needed in a device, this expertise does not necessarily translate into knowing how to design and produce the necessary circuitry for the size, reliability, and mass production [...] Read More
The ultimate factor in deciding when not to use the Kapton polyimide film manufacturing method is a combination of desired size and flexibility. Basically, the moment you’re uttering “micron” as opposed to “mils”, best to [...] Read More
Electroforming, electrochemical machining, and electrical discharge machining all use electrolytic baths. But only one is additive, which helps explain why it’s also more precise. Electrolytic baths have a long history as a way to add [...] Read More
Our micron-scale flexible circuits can be produced in multi-layers and with circuit lines as narrow as 3 microns. They’re flexible enough to wrap around small objects and are durable enough for harsh MIL-COM environments. Circuits are achieved [...] Read More