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UGPCB RO4350B Ceramic Hybrid High Frequency PCB | 4-Layer Mixing Board, Dk 3.48 - UGPCB

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UGPCB RO4350B Ceramic Hybrid High Frequency PCB – 4-Layer Mixing Board, Strict Dk 3.48, Stable Output

UGPCB RO4350B Ceramic Hybrid High Frequency PCB – 4-Layer Mixing Board, Strict Dk 3.48, Stable Output

Model : Ro4350B Ceramic Hybrid High Frequency PCB

Material : Rogers RO4350B+FR4 Mixing Press

Layer : 4L

D K : 3.48

Finished Thickness : 1.2MM

Copper Thickness : 1OZ

Dielectric Thickness : 0.508mm
Thermal Conductivity : 0.69w/m.k

Flammability :94 V-0

Surface Treatment : Immersion Gold

Application : Communication Instrument PCB

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  • Product Details

1. Product Overview

In modern wireless communication and high-speed digital designs, signal integrity and system reliability depend heavily on the PCB base material. UGPCB introduces the RO4350B ceramic hybrid high frequency PCB. This is a 4-layer board that combines Rogers RO4350B high-frequency laminate with standard FR-4 material using advanced mixing press technology.

This product inherits the stable dielectric constant (Dk 3.48) and low-loss properties of RO4350B. It also leverages the mechanical support and cost benefits of FR-4. It is an ideal solution for communication base stations, instruments, and RF front-end modules.

2. Product Definition and Classification

2.1 Product Definition

A RO4350B ceramic hybrid high frequency PCB uses both Rogers RO4350B high-frequency material and standard FR-4 within a single multilayer board stackup. The ceramic-filled hydrocarbon resin system ensures low-loss transmission for RF signals.

2.2 Scientific Classification

  • By Material: Composite dielectric hybrid PCB (Hybrid Laminate PCB).

  • By Application Frequency: Microwave RF PCB (typical operating range: 500 MHz to 10 GHz+).

  • By Layer Count: 4-layer multilayer hybrid board.

3. Core Parameters and Design Essentials

Below are the key specifications for this UGPCB product. All data is strictly controlled to ensure consistency between design and fabrication.

Parameter Value Notes
Model RO4350B Ceramic Hybrid High Frequency PCB
Material Combination Rogers RO4350B + FR4 Mixing Press
Layer Count 4L
Dielectric Constant (Dk) 3.48 ±0.05 @ 10 GHz Tight tolerance for impedance control
Loss Tangent (Df) 0.0037 @ 10 GHz Ensures low signal attenuation
Finished Thickness 1.2 mm ±5%
Copper Thickness 1 OZ (approx. 35 μm)
Single Dielectric Thickness 0.508 mm RO4350B core layer
Thermal Conductivity 0.69 W/m·K Better heat dissipation than FR-4
Flammability Rating 94 V-0 Meets UL safety standards
Surface Treatment Immersion Gold (ENIG) Flat surface, reduces skin effect loss
Z-Axis CTE 32 ppm/°C Enhances via reliability during thermal cycling

Design Tips for Engineers:
In hybrid layer stackups, CTE mismatch (RO4350B CTE is lower than FR-4 CTE) can cause warpage during reflow. UGPCB engineers use symmetric stackup designs. We select compatible prepregs and control the lamination profile to keep warpage below 0.7%.

4. Working Principle

This PCB serves two core functions: signal transmission and energy transfer.

For high-frequency signals, the conductor (copper) and dielectric (RO4350B) form transmission lines (microstrip or stripline). The stable Dk (3.48) determines signal propagation speed. The low Df (0.0037) ensures minimal signal attenuation, preserving signal integrity.

5. Materials and Performance Analysis

5.1 Rogers RO4350B

  • Composition: Hydrocarbon resin system with ceramic fillers, reinforced with woven glass.

  • Performance Benefits:

    • Frequency Stability: Dk shows minimal variation with frequency, ideal for broadband applications.

    • Insertion Loss: Significantly lower than standard FR-4, suitable for 5G and microwave circuits.

    • Lead-Free Compatible: Withstands 260°C assembly temperatures.

5.2 FR-4

  • Composition: Epoxy resin with glass fabric.

  • Performance Benefits: High mechanical strength, lower cost. Used for power planes, ground layers, and non-critical signals. This reduces overall material costs.

5.3 Copper Foil

  • Type: 1 OZ electrolytic copper. It provides good peel strength (typical 5.0 lb/in).

5.4 Surface Finish (Immersion Gold / ENIG)

  • Why ENIG? For high-frequency PCBs, ENIG offers a very flat surface. It minimizes skin effect losses for high-frequency signals. It also provides good solderability and oxidation resistance.

6. Structural Features

  • Hybrid Laminate Structure: A typical 4-layer build uses a symmetric stackup. High-frequency signals route on the surface or RO4350B core layers. Power and ground are on FR-4 layers. This design ensures RF performance while using FR-4’s thermal stability.

  • Through-Hole Reliability: The Z-axis CTE of RO4350B (32 ppm/°C) is relatively close to copper’s CTE (around 17 ppm/°C). During thermal cycles, the plated through-hole walls resist cracking. This greatly improves board lifetime.

7. Production Process Flow

UGPCB follows these critical steps for this hybrid product. This ensures material compatibility and high quality.

  1. Incoming Inspection: Verify properties of RO4350B cores and FR-4 cores separately.

  2. Inner Layer Imaging: Create inner layer circuits on each material.

  3. Oxide Treatment: Apply special chemistry to RO4350B surfaces. This enhances bonding with prepregs.

  4. Lay-Up (Critical Step): Precisely align RO4350B, prepregs, and FR-4 according to the symmetric stackup design.

  5. Lamination: Use a stepped temperature curve. Control resin flow. Minimize internal stress and warpage caused by CTE differences.

  6. Drilling & Desmear: Optimize drill bits and feed rates (RO4350B is brittle). Use plasma treatment to remove resin smear from hole walls.

  7. Plating: Achieve reliable interlayer connections.

  8. Outer Layer Imaging/Etching: Control line widths precisely to meet impedance targets.

  9. Surface Finish: Apply Immersion Gold (ENIG).

  10. Testing: 100% electrical test + impedance coupon test + thermal stress test.

8. Typical Applications

This hybrid PCB combines high-frequency performance with cost efficiency. It is widely used in these fields:

  1. Communication Instruments: RF boards in signal analyzers and network analyzers.

  2. Wireless Infrastructure: 5G base station antennas, power amplifiers, control circuits in RRU/AAU.

  3. Automotive Electronics: Signal processing boards for 77 GHz mmWave radar.

  4. Industrial Automation: High-frequency data acquisition modules, microwave sensors.

  5. Aerospace & Defense: Modules for satellite communication receivers and radar systems.

RO4350B ceramic hybrid high-frequency PCBs are primarily used in wireless communication applications such as power amplifiers.

9. Why Choose UGPCB?

  • Precise Matching: We strictly control Dk within ±0.05 tolerance. We provide TDR impedance test reports. Electrical performance matches your design.

  • Hybrid Press Expertise: We have mature processes for RO4350B+FR4 hybrid lamination. We solve delamination and warpage issues caused by CTE mismatch.

  • High Reliability: We use Immersion Gold (ENIG) surface finish. It supports precision soldering. It meets the strict reliability demands of communication instruments.

Get Your Quote. Drive Your RF Products to Market.

Do you need a 4-layer high-frequency board that meets Dk 3.48 requirements while also balancing cost?

UGPCB uses genuine Rogers RO4350B material. We also have mature FR-4 hybrid pressing processes. We help you maintain signal integrity while optimizing your BOM cost.

Free Engineering Review
Impedance Testing Support
Fast Prototyping & Volume Production

Click Here to Upload Your Gerber Files. Get your exclusive quote for RO4350B hybrid high frequency PCBs today!

Or email us at: [Your Sales Email]

Make UGPCB your most reliable partner for RF circuits!

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