Improving Power Integrity and EMI Suppression with Taconic RF-35 PCBs in High-Speed Laptop and Server Motherboards

1. Engineering Overview / Abstract

  As modern laptops and server motherboards transition toward 28–56 Gbps transmission lanes and high-core-count processors, the PCB substrate must ensure minimal voltage ripple, low EMI radiation, and stable impedance performance.
  Taconic RF-35, with its low-loss dielectric constant (Dk = 3.50 ± 0.05) and dissipation factor (Df = 0.0018 @ 10 GHz), delivers a controlled dielectric environment ideal for high-frequency power distribution and EMI suppression.
  KKPCB integrates Taconic RF-35 into hybrid core stackups to enhance power integrity (PI) and reduce electromagnetic interference (EMI) while maintaining manufacturability and thermal reliability.

2. Engineering Context & Technical Challenges

  In high-speed computing systems, where DDR5, PCIe Gen5, and high-current VRMs coexist on the same board, noise coupling and ground bounce can severely distort reference voltages.

  To mitigate these issues, the Taconic RF-35 PCB platform provides the consistent dielectric and loss characteristics required for both signal and power domain stability.

3. Material Science and RF-35 Performance

  Taconic RF-35 is a glass-reinforced PTFE laminate designed for RF and high-speed digital convergence:

• Dk = 3.50 ± 0.05, stable from –40 °C to +150 °C

• Df = 0.0018 @ 10 GHz, enabling low-loss power planes

• Thermal Conductivity = 0.25 W/m·K, dissipates localized VRM heat

• CTE (Z-axis): 35 ppm/°C, ideal for multilayer co-lamination

  Compared to FR-4, RF-35 reduces dielectric loss by nearly 90 %, ensuring lower IR-drop across large power planes and higher power-conversion efficiency.

4. KKPCB Case Study — High-Speed Laptop Motherboard

  Client & Application
  A global OEM laptop brand required a high-speed motherboard design supporting DDR5 and PCIe Gen5 lanes with sub-3% voltage ripple.

  Engineering Problem
  Legacy FR-4 cores caused EMI hot spots around CPU VRM regions, resulting in failed CISPR 22 EMI tests.

  KKPCB Solution

• Hybrid Taconic RF-35 + FR-408HR stackup with dielectric isolation layers

• Embedded planar decoupling capacitors and controlled copper distribution

• 3D field-solver optimization for uniform impedance and return paths

• Integrated power-ground resonance suppression network

  Outcome: 22% reduction in EMI radiation and 30% improvement in PI stability over legacy FR-4 motherboard design.

5. Stackup and Power Delivery Design

  KKPCB’s optimized 10-layer motherboard stackup with Taconic RF-35 cores includes:

• Dual 1 oz copper planes for core power and ground

• Controlled dielectric thickness (±8 µm tolerance)

• Differential pair impedance control at ±5%

• Embedded copper balancing to minimize EMI resonance

  Simulation via Ansys SIwave and Keysight ADS verified stable PDN impedance (<10 mΩ across 1 MHz–500 MHz).

6. Thermal and Reliability Validation

  These tests confirm the Taconic RF-35 substrate’s suitability for extended operation in server and laptop environments with high power density.

7. Conclusion — System-Level Power Integrity Integration

  By integrating Taconic RF-35 into multilayer hybrid designs, KKPCB achieves a balance of low dielectric loss, stable power distribution, and superior EMI suppression.
  This results in cleaner voltage regulation, extended component lifespan, and higher signal integrity across high-speed interfaces such as DDR5, USB4, and PCIe Gen5.
  RF-35’s dielectric uniformity ensures system reliability even under elevated thermal and frequency loads typical of modern computing platforms.

8. Contact / CTA

  For high-speed server or laptop motherboard PCB solutions with advanced power integrity and EMI suppression performance, contact KKPCB Engineering.
  We provide hybrid Taconic RF-35 PCB stackups, simulation-based PDN optimization, and mass-production validation for OEM and ODM clients worldwide.