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Are you in need of high-performance Rogers PCBs? Turn to South-Electronic for exceptional quality, reliability, and outstanding value in your PCB needs. Experience the superiority with our comprehensive Rogers PCB solutions—from initial design through final production, we ensure accuracy, robustness, and compliance with rigorous industry standards.

Your Trusted Supplier of Rogers PCBs

Welcome to South-Electronic, your destination for premium Rogers PCBs renowned for their superior dielectric properties and thermal stability. Our Rogers PCBs deliver exceptional performance, perfect for sophisticated applications in critical sectors. Explore options from single-layer, double-layer to complex multi-layer configurations, all crafted to cater to your specific electronic needs. Whether you’re advancing technology in aerospace or seeking high-end PCBs for telecommunications, our Rogers PCBs are designed to provide reliability and precision. Trust South-Electronic for unmatched quality and consistency in your high-tech projects. Our Rogers PCBs elevate your devices’ functionality with outstanding signal integrity and reduced thermal issues. Collaborate with us to drive innovation and success in your industry.

Rogers RO4350B™ PCB

Low loss dielectric ideal for high frequency applications. Used widely in cellular base station antennas and power amplifiers due to its excellent thermal stability and low cost.

Rogers RO4003C™ PCB

Features a low dielectric constant and low loss, which makes it suitable for high-speed digital and RF/microwave applications. Common in aerospace and defense sectors for radar and sensor applications.

Rogers RT/duroid® 5880 PCB

Known for its extremely low dielectric constant and loss. Ideal for critical microwave and millimeter-wave applications. Used in automotive radar systems, satellite communications, and point-to-point wireless system

Rogers TMM® PCBs

Thermoset microwave materials that offer a range of dielectric constants. Suitable for phased array antennas, microwave components, and aerospace electronics due to their thermal performance and mechanical rigidity.

Rogers ULTRALAM® 3000 PCB

Liquid crystalline polymer (LCP) material used for flexible and multilayer circuit constructions. Excellent for high-frequency flexible circuits in telecommunications and high-reliability applications.

Rogers RO3003™ PCB

Utilized where high frequency performance and low loss are critical. Often used in automotive radar applications, telecommunications, and precision instrumentation.

Enhance Your Projects with South-Electronic's Rogers PCB Solutions!

At South-Electronic, we specialize in tailored solutions that meet the unique demands of your projects. We are pioneers in Rogers PCB technology, offering unmatched customization and accuracy. Our team is dedicated to delivering the expertise and solutions essential for your project’s success. Depend on our Rogers PCBs for unparalleled performance and durability in your most crucial electronic devices.

Seamlessly Integrate Your Rogers PCBs with South-Electronic

Consultation and Design

We begin by understanding your specific requirements to design the perfect Rogers PCB for your application.

Material Selection and Prototyping

Choose from a range of Rogers materials and finishes, and we’ll craft prototypes to verify that the design meets your standards

Precision Manufacturing

We employ cutting-edge manufacturing techniques to produce high-quality, bespoke Rogers PCBs.

Quality Assurance and Delivery

Each PCB is subjected to stringent testing to meet our elevated standards before timely delivery.
Common Questions

Most Popular Questions

A Rogers PCB is a high-performance circuit board made using Rogers Corporation’s advanced composite materials, which are known for their superior electrical properties, particularly in high-frequency applications.
Rogers PCBs offer improved signal integrity, reduced signal loss at high frequencies, and better thermal management compared to standard FR-4 materials. This makes them ideal for critical applications in aerospace, telecommunications, and automotive industries.
Rogers PCBs are commonly used in high-frequency applications such as antennas, RF components, microwave equipment, and high-speed digital interfaces. They are also used in sensitive medical instruments and aerospace electronics due to their reliability and performance in extreme conditions.
Yes, certain Rogers materials like ULTRALAM® 3000 are specifically designed for flexible and multilayer circuits, providing excellent high-frequency performance in applications that require flexibility.
Rogers RT/duroid® 5880 PCBs are known for their extremely low dielectric constant and loss, making them perfect for high-frequency applications that require minimal signal attenuation, such as automotive radars and satellite communications.
Rogers PCBs generally have better thermal management capabilities due to their high thermal conductivity, which helps in dissipating heat more efficiently than standard PCB materials, enhancing the durability and performance of electronic components.
Rogers PCBs are available in various thicknesses to suit different applications, typically ranging from 0.5 mm to 3.0 mm. Custom thicknesses can also be provided based on specific design requirements.
Rogers PCBs tend to be more expensive than standard PCBs due to their advanced material properties and manufacturing processes. However, the cost is often justified by the superior performance and reliability in demanding applications.
Yes, Rogers PCBs can be designed as multi-layer boards, allowing for complex circuits that require multiple layers of conductive paths and insulating materials, suitable for high-density applications.
The choice of Rogers material depends on your specific application needs, including frequency requirements, thermal properties, and mechanical stability. Consulting with material experts or your PCB manufacturer can help you select the most appropriate Rogers material for your project.

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The complete guide to rogers pcb

内容目录

Cahpter 1

Introduction to Rogers PCB

Definition and Significance: Rogers PCBs are advanced circuit boards that use high-quality materials manufactured by Rogers Corporation, known for their exceptional electrical properties, particularly at high frequencies. These PCBs are essential in applications where signal integrity and thermal management are critical. Comparison with FR-4: Unlike standard FR-4 PCBs, Rogers PCBs offer better thermal resistance and significantly lower dielectric losses, making them more suitable for high-frequency applications. This leads to improved performance in demanding environments such as aerospace and telecommunications. Scope of the Guide: This guide will provide a comprehensive look at Rogers PCBs, including their material properties, manufacturing processes, design considerations, and applications. It aims to equip engineers and designers with the knowledge to effectively utilize Rogers PCBs in their projects.

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Material Properties of Rogers PCB

Dielectric Constant: Rogers materials feature a stable dielectric constant over a wide range of frequencies, which is vital for applications involving microwave and radio frequency transmission where consistent impedance is critical. Thermal Properties: These materials are designed to withstand higher temperatures without degrading, making them ideal for power amplifiers and other devices that generate significant heat. This attribute helps maintain the longevity and reliability of the devices. Mechanical Properties: Rogers PCBs are robust, offering enhanced durability against mechanical stresses. They can be tailored for flexibility or rigidity, depending on the application, providing versatility in their use across various electronic components.

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Types of Rogers PCB Materials

Rogers RO4350B™: This material is widely used for its excellent thermal stability and low cost, making it suitable for commercial RF applications, including antennas and wireless broadband systems. Rogers RT/duroid® Series: This series includes materials with different dielectric constants and loss tangents, allowing for their use in a broad range of high-frequency applications, from aerospace to telecommunications. Rogers TMM® and ULTRALAM®: TMM® materials are used for their high mechanical stability and thermal management capabilities in phased array antennas, while ULTRALAM® 3000 is utilized for flexible electronic applications due to its excellent electrical properties and flexibility.

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Manufacturing Processes

Lamination Process: The lamination process for Rogers PCBs involves careful control of pressure and temperature to ensure that the layers bond perfectly without affecting the dielectric properties. Etching Techniques: Specialized etching techniques are required to maintain the integrity of the Rogers materials, as they can be sensitive to standard PCB etching chemicals. Drilling and Plating: Drilling Rogers PCBs requires precision to avoid damaging the internal layers, and the plating process must be meticulously managed to ensure strong adhesion and conductivity.

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Design Considerations

Impedance Control: Designing with Rogers materials requires precise calculations and adjustments to achieve the desired impedance, particularly in high-frequency circuits. Layer Stack-up Recommendations: Optimal layer stack-ups must be designed to take full advantage of the material properties, such as minimizing cross-talk and improving signal integrity. Thermal Management: Effective thermal management strategies must be incorporated into the PCB design to leverage the high thermal conductivity of Rogers materials, ensuring the removal of excess heat from critical components.

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Applications of Rogers PCBs

Telecommunications: Rogers PCBs are extensively used in telecommunications for their ability to maintain signal integrity over a wide frequency range. This includes applications in base station antennas, power amplifiers, and RF signal processors. Aerospace and Defense: In aerospace and defense, Rogers PCBs are chosen for their reliability and performance in extreme conditions. They are used in satellite communications, radar systems, and other high-reliability military electronics that require durability and precision. Automotive: The automotive industry uses Rogers PCBs in applications such as collision avoidance systems, GPS antennas, and other critical communication devices. Their high-frequency performance and thermal stability make them ideal for these demanding applications.

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Performance and Reliability

Signal Integrity: Rogers PCBs excel in maintaining excellent signal integrity, which is crucial for high-frequency electronic circuits. This reduces signal loss and increases the efficiency of the communication systems. Durability: These PCBs offer superior durability against environmental stressors such as temperature fluctuations and mechanical vibrations, which is essential for aerospace and automotive applications. Certifications and Standards: Rogers PCBs meet various industry standards and certifications, ensuring they meet strict quality and performance criteria. This includes ISO certifications and specific military and aerospace compliance standards.

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Advantages Over Other PCB Materials

Frequency Handling: Rogers PCBs handle higher frequencies much more efficiently than traditional FR-4 PCBs, which is crucial for modern RF and microwave applications. Thermal Advantages: The materials used in Rogers PCBs have better thermal management properties, which is vital for maintaining performance in devices that generate significant amounts of heat. Longevity and Reliability: The robust nature of Rogers materials leads to longer-lasting PCBs that are less likely to fail, reducing downtime and maintenance costs.

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Choosing the Right Rogers Material

Application-Specific Selection: The selection of the right Rogers material depends heavily on the specific requirements of the application, such as frequency, thermal properties, and mechanical demands. Cost-Benefit Analysis: Although Rogers PCBs are generally more expensive than standard materials, their enhanced performance can justify the additional cost in critical applications. It’s important to conduct a thorough cost-benefit analysis to determine the most economically viable option. Consulting with Experts: Given the technical nuances and the variety of Rogers materials available, consulting with experts or manufacturers can provide invaluable guidance in selecting the appropriate material for your specific needs.

Cahpter 10

Future Trends and Innovations

Emerging Technologies: The development of Rogers PCB materials continues to evolve, with new formulations designed to meet the ever-increasing demands of modern electronics, such as higher frequencies and greater thermal loads. Sustainability Considerations: Rogers Corporation is actively working to make their PCB materials more environmentally friendly, focusing on reducing the ecological impact of their production processes and products. Market Trends: As the demand for more sophisticated electronic devices grows, the need for high-performance PCBs like those made from Rogers materials is expected to increase. This section will explore how these trends are shaping the future of the PCB industry and Rogers Corporation’s role in it.
Get in touch

Where Are We?

Factory Address

Industrial Park, No. 438 Donghuan Road, No. 438, Shajing Donghuan Road, Bao'an District, Shenzhen, Guangdong, China

Head Office Address

Floor 4, Zhihui Creative Building, No.2005 Xihuan Road, Shajing, Baoan District, Shenzhen, China

HK Office Address

ROOM A1-13,FLOOR 3,YEE LIM INDUSTRIAL CENTRE 2-28 KWAI LOK STREET, KWAI CHUNG HK

Email Support

service@southelectronicpcb.com

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Phone : +86 400 878 3488

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Microchip Removal
Get in touch

Where Are We?

Factory Address

Industrial Park, No. 438, Shajing Donghuan Road, Bao'an District, Shenzhen, Guangdong, China

HK Office Address

ROOM A1-13,FLOOR 3,YEE LIM INDUSTRIAL CENTRE 2-28 KWAI LOK STREET, KWAI CHUNG HK,CHINA

Let's Talk

Phone : +86 400 878 3488

Send Us A Message

The more detailed you fill out, the faster we can move to the next step.

Microchip Removal