2026, Vol. 6, Issue 1, Part A
Signal integrity analysis of high-speed digital interfaces on consumer-grade PCB materials
Author(s): Willem van der Berg, Sophie de Vries and Jan Bakker
Abstract: High-speed digital interfaces including USB 3.2, PCIe Gen 4, and HDMI 2.1 operate at data rates exceeding 10 Gbps where PCB material properties significantly impact signal integrity. This research evaluated signal integrity performance of four PCB material categories spanning the cost-performance spectrum: standard FR-4, high-speed FR-4, Megtron 6, and Rogers 4350B. Test vehicles incorporating controlled impedance traces at 6-inch length were characterized using vector network analysis from 100 MHz to 20 GHz and time-domain eye diagram analysis at data rates from 1 Gbps to 12 Gbps. Standard FR-4 exhibited insertion loss of 4.1 dB/inch at 10 GHz with eye height degrading below the 200 mV minimum threshold at 6 Gbps data rate. High-speed FR-4 extended viable operation to 8 Gbps with insertion loss reduced to 3.2 dB/inch. Megtron 6 achieved 2.1 dB/inch insertion loss maintaining adequate eye opening to 10 Gbps. Rogers 4350B demonstrated lowest loss at 1.6 dB/inch with eye height remaining above 400 mV at 12 Gbps. Cost analysis revealed material expense ranging from €15/m² for standard FR-4 to €180/m² for Rogers, representing 12× cost differential. The crossover point where premium materials become cost-effective occurs when re-spin costs from signal integrity failures exceed material price premium, typically at data rates above 5 Gbps for consumer applications. These findings establish quantitative material selection criteria balancing signal integrity requirements against cost constraints for high-speed digital design.
DOI: 10.22271/27084493.2026.v6.i1a.85
Pages: 51-56 | Views: 40 | Downloads: 16
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How to cite this article:
Willem van der Berg, Sophie de Vries, Jan Bakker. Signal integrity analysis of high-speed digital interfaces on consumer-grade PCB materials. Int J Electron Microcircuits 2026;6(1):51-56. DOI: 10.22271/27084493.2026.v6.i1a.85
