6-Layer High-Frequency Hybrid PCB | Core Blind/Buried Vias & Resin Filling | UGPCB Advanced Manufacturing

Professional Definition: What is a 6-Layer High-Frequency Hybrid PCB?

In the fields of 5G communications, radar automotivo, and high-end computing, padrão FR-4 PCBs often fall short in meeting the demands for high-frequency, de alta velocidade, and high-stability signal transmission. This is where the Alta frequência PCB híbrido becomes critical.

A 6-layer high-frequency hybrid PCB is a multilayer circuit board that integrates different performance-grade high-frequency laminate Materiais (such as Rogers) with standard or specialized materials through precision lamination. Esse hybrid construction strategically places materials to optimize electrical, térmico, and cost performance across different circuit layers. It serves as the core hardware foundation for complex RF microwave circuits and high-speed digital designs.

Product Deep Dive: UGPCB’s High-Performance 6-Layer Hybrid Board

1. Especificações principais & Ciência dos Materiais

• Camada & Construção: 6 Camadas. This represents an optimal balance between complexity, desempenho, e custo, suitable for integrating digital control and RF front-end circuits.

• Material Stack-up (Hybrid Core): Rogers 4350B + Rogers 4450F + IT180A. This is the essence of the design.

  • Rogers 4350b: An industry-standard high-frequency circuit board material known for its stable Constante dielétrica (Dk) and low Fator de dissipação (Df), making it ideal for RF signal layers.

  • Rogers 4450F: A prepreg (Pp) with high glass transition temperature (Tg) and excellent thermal stability, used for bonding layers and ensuring reliability of the hybrid stack-up under thermal stress.

  • IT180A: A high-performance, mid-loss thermoset material often used for inner signal or power plane layers where good signal integrity is required at a managed cost. This hybrid approach applies the best material where it’s needed most.

• Grossura & Copper Weight: Padrão 1.6milímetros thickness for good mechanical rigidity. Copper weight is 1/H/H/H/H/1 oz, indicating 1 oz copper foil for outer layers e 0.5 onças (H oz) copper for inner layers. This facilitates fine-line etching and optimized impedance control.

• Acabamento superficial: Gold de imersão com eletrólito com níquel de níquel (Enepic): 120 μin Ni, 2 μin Pd, 2 μin Au. This is a premium finish offering excellent solderability, wire-bond capability, e resistência à corrosão. It is particularly suited for Substratos IC and assemblies requiring multiple reflow cycles or gold wire bonding.

2. Considerações de design & Operational Principle

• Considerações de design:

  1. Controle de impedância & Integridade do sinal: Utilizing the stable Dk of Rogers materials, combined with precise stack-up design and trace width/spacing control, enables tight PCB impedance control (por exemplo, 50Ω single-ended, 100Ω differential), which is crucial for high-speed PCB signal integrity.

  2. Stack-up Planning: High-speed RF traces are typically routed on the Rogers material layers, while power, ground, and lower-frequency digital signals are placed on IT180A layers. A symmetrical stack-up (as in this design) helps prevent warpage.

  3. Gerenciamento térmico: The superior thermal conductivity of Rogers materials, combined with strategic ground vias and thermal relief designs, aids in dissipating heat from high-power RF components.

• Operational Principle: This PCB acts as the “esqueleto” e “highway system” of an electronic device. Its core function is to mount and interconnect components (RF chips, CPUs, capacitores, etc.). High-frequency signals travel via PCB de microondas transmission lines on the Rogers layers with minimal loss and distortion; power is distributed stably through inner-layer copper planes; and complex interconnections are achieved via blind and buried vias, shortening paths and enhancing electrical performance.

3. Four Advanced Processes: Ensuring Reliability & Desempenho

1. Core Blind/Buried Vias: These vias connect adjacent layers within a core (por exemplo, Rogers laminate) without penetrating the entire board. This significantly increases routing density in Interconexão de alta densidade (IDH) PCB, reduces parasitic effects, and improves high-frequency performance.

2. Resin Filled Vias: After plating, through-holes or blind/buried vias are filled with epoxy resin. This prevents chemical entrapment, provides a flat surface for fine-line patterning of subsequent layers, and enhances via reliability.

3. Via-in-Pad (VIP): A via is placed directly within a component pad, then filled and planarized with resin and copper. This is a hallmark of advanced PCBs HDI, enabling further miniaturization and higher component density.

4. Metalized Edge (Edge Plating): A continuous metal layer (typically copper) is plated along the board edge. This provides excellent EMI shielding, protects internal circuits, and strengthens the edge for connector mating and mechanical wear.

4. Key Performance Characteristics

• Superior High-Frequency Performance: Baixa perda, stable Dk for pristine signal transmission in PCBs RF.

• Excelente integridade do sinal: Precision impedance control meets design de PCB de alta velocidade requisitos.

• Interconexão de alta densidade (IDH): Blind/buried vias and VIP technology support high-density PCB layouts.

• Confiabilidade aprimorada: Robust hybrid construction, ENEPIG finish, and metalized edges suit demanding environments.

• Improved Thermal & Shielding Performance: Good thermal conductivity and effective EMI suppression.

5. Scientific Classification

• Por contagem de camadas: PCB multicamadas

• By Material Type: Hybrid / Mixed Material PCB

• By Technology: Advanced HDI PCB

• Por aplicação: RF Microwave PCB / High-Speed Digital PCB

6. Standard Production Flow

Engineering Design → Material Prep & Shearing → Rogers Material Laser Drilling (Blind Vias) → Desmear & Metallization → Inner Layer Imaging & Etching → Core Lamination (Hybrid Bonding) → Mechanical Drilling → Resin Filling & Curing → Outer Layer Imaging → ENEPIG Surface Finish → Metalized Edge Plating → Solder Mask & Silkscreen → Electrical Test & Inspeção Final.

7. Aplicações primárias (Casos de uso)

This product is ideal for high-reliability electronic projects with stringent demands:

• 5G Communication Infrastructure: PCBs RF within AAUs (Active Antenna Units) and remote radio units.

• Eletrônica Automotiva: Radar PCBs for ADAS and autonomous vehicles (por exemplo, 77GHz radar).

• Aeroespacial & Defesa: High-Reliability PCBs in radar systems, satellite comms, and EW equipment.

• High-End Test & Measurement: Core boards for network analyzers and spectrum analyzers.

• Computação de alto desempenho & Data Centers: Backplanes or motherboards for high-speed servers/switches.

Why Choose UGPCB for Your 6-Layer High-Frequency Hybrid PCB?

In advanced Fabricação de placas de circuito impresso, consistency and attention to detail determine success. UGPCB possesses deep expertise across the entire complex process chain—from Rogers material processing e perfuração a laser para resin filling e ENEPIG plating. We deliver not just boards that meet specifications, but robust PCB solutions that ensure your product’s successful volume production.

Contact us today for dedicated technical support and a competitive quote for your 5G PCB, automotive radar PCB, ou high-frequency module PCB project. Let UGPCB be your trusted partner for high-frequency, high-speed PCB fabrication.