Integrated Thin Film Resistor Materials for High Frequency Applications
In this session from Ohmega Ticer, we dive into how next-generation embedded resistive materials are reshaping high-frequency PCB design as RF and microwave systems push beyond 40 GHz.
Traditional surface-mount resistors can introduce parasitic inductance, solder-joint reliability risks, and layout limitations that impact signal integrity and system density. By embedding precision resistors directly into the PCB laminate using OhmegaPly® and Ticer TCR™ thin-film resistive materials now unified within a single technology portfolio designers can:
- Reduce parasitics
- Shrink form factors
- Simplify assembly
- Improve tolerance control and thermal stability
Learn how embedded resistive technology is enabling higher performance and reliability in demanding applications like 5G infrastructure, radar systems, and phased-array antennas, and how you can build more compact, scalable, and robust RF designs.