Driving Innovation: Inner Layer Alignment Methods in PCB Production
Trouble in Your Tank: Metallizing Flexible Circuit Materials—Mitigating Deposit Stress
It’s Only Common Sense: Sales as a Team Sport
Material Selection and RF Design
April 21, 2025 | Andy Shaughnessy, Design007 MagazineEstimated reading time: 1 minute
Innovation rarely sleeps in this industry, and the RF laminate segment offers a perfect example. RF materials have continued to evolve, providing PCB designers much more than an either/or choice. I asked materials expert Alun Morgan, technology ambassador for the Ventec International Group, to walk us through the available RF material sets and how smart material selection can ease the burden on RF designers and design engineers.
Andy Shaughnessy: Alun, just give us a quick refresher: How are RF materials different from traditional PCB laminates?
Alun Morgan: RF covers a broad range of frequencies, often defined as the spectrum from 3 KHz to 300 GHz. At the low end, traditional materials are fine; however, the influence of the material becomes much more critical as frequency increases.
Shaughnessy: How does RF differ from HSD (high-speed digital)?
Morgan: They are two different worlds, with very different design requirements. RF is primarily concerned with the propagation of analog waveforms, whereas HSD is primarily concerned with the transmission of binary digital bitstreams. Each has its particular benefits and drawbacks. The good news is that materials designed for high-speed digital applications are also generally suitable for high-frequency analog circuits.
Shaughnessy: What do PCB designers moving into the RF space need to understand about material selection?
Morgan: There are some very specific electrical properties that are important when selecting materials for RF or HSD applications. The first is the dielectric constant (Dk) of the material. The Dk is the ability of the substrate to store electric energy in an electrical field. It is a dimensionless property and is quoted as a value relative to a vacuum, which has a Dk of 1. Why does it matter? It matters because it determines transmission speed and must be accounted for when calculating the timing and synchronization of high-speed signals; it is also crucial for impedance matching and control. The Dk is very much a design consideration, and specific designs may require higher or lower values.
To read this entire article, which appeared in the April 2025 issue of Design007 Magazine, click here.
Share on:
Testimonial
"Our marketing partnership with I-Connect007 is already delivering. Just a day after our press release went live, we received a direct inquiry about our updated products!"
Rachael Temple - AlltematedSuggested Items
Dymax Renews Connecticut Headquarters Lease, Reinforces Long-Term Commitment to Local Community
08/08/2025 | DymaxDymax, a global manufacturer of rapid light-curing materials and equipment, is pleased to announce the renewal and extension of its corporate lease at its 318 Industrial Lane, Torrington, headquarters.
EMC Taiwan Receives IPC-4101 Qualified Products Listing Certification
08/08/2025 | Global Electronics AssociationIPC’s Validation Services Program has awarded an IPC-4101 Qualified Products Listing (QPL) to Elite Materials Co. (EMC), an electronics base material manufacturing company headquartered in Taoyuan City, Taiwan.
DuPont Reports Second Quarter 2025 Results
08/06/2025 | PRNewswireNet sales increased 3% led by organic sales growth of 2% which consisted of a 4% increase in volume partially offset by a 2% decrease in price. Currency was a 1% benefit.
Brian O’Donnelly Appointed to Expanded Role, Strengthening Global Leadership to Drive Growth in the Fujifilm’s Electronic Materials Business
07/31/2025 | FujifilmFUJIFILM Corporation (President and CEO, Representative Director: Teiichi Goto) today announced that the company has appointed Brian O’Donnelly as its Corporate Vice President, strengthening global leadership to drive growth in the Electronic Materials Business.
Semiconductors Get Magnetic Boost with New Method from UCLA Researchers
07/31/2025 | UCLA NewsroomA new method for combining magnetic elements with semiconductors — which are vital materials for computers and other electronic devices — was unveiled by a research team led by the California NanoSystems Institute at UCLA.