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Rogers 4350B PCB Manufacturing. Professional Rogers series circuit board production. Ultra-thin, ultra-small trace, ultra-small pitch, high multi-layer HDI Rogers PCBs supplier.

RO4350B laminates provide tight control on dielectric constant (Dk) and maintain low loss while utilizing the same processing method as standard epoxy/glass. Available at a fraction of the cost of conventional microwave laminates, RO4350B laminates do not require the special through-hole treatments or handling procedures as PTFE based materials. These materials are UL 94 V-0 rated for active devices and high power RF designs.


  • Dk of 3.48 +/- 0.05
  • Dissipation factor of 0.0037 at 10 GHz
  • Low Z-axis coefficient of thermal expansion at 32 ppm/°C


  • Processes like FR-4 at lower fabrication cost
  • Competitively priced
  • Excellent dimensional stability

What is Rogers 4350B PCB?

The Rogers 4350B PCB is a standout member in the high-frequency laminate series, playing a crucial role in today’s electronic devices. Its exceptional electrical properties make it a symbol of reliability and efficiency in the electronics industry.

Designed specifically for high-frequency electronic equipment, the Rogers 4350B PCB is favored in modern electronics for its outstanding performance and versatility in handling various critical scenarios. Its reputation stems from its ability to excel in demanding applications, making it a preferred choice among electronic designers and manufacturers.

With a high dielectric constant, low loss tangent, and remarkable thermal stability, this substrate excels in processing high-frequency signals and intricate circuits. These characteristics contribute significantly to enhancing signal integrity, minimizing losses during signal transmission, and ensuring the efficient operation of electronic devices.

In the electronics industry, the metrics of reliability and efficiency are paramount when assessing circuit board performance. The Rogers 4350B PCB meets and exceeds these criteria through meticulous design and manufacturing standards. This ensures the stability of electronic equipment under diverse environmental and operational conditions.

The Rogers 4350B printed circuit board (PCB) stands as a pivotal element in electronic engineering, exerting a profound influence on the design and manufacturing realms of forthcoming electronic devices. Its extensive utility spans across high-frequency communication apparatus, radio frequency modules, antenna systems, and various other domains, highlighting its adaptability and pragmatic significance.

In summary, the Rogers 4350B PCB not only stands out as an exemplary representative of high-frequency laminates but also serves as a model of reliability and efficiency in the electronics industry. Its exceptional performance and extensive range of applications position it to continue playing a pivotal role at the forefront of electronic engineering in the future.

What are the types of Rogers 4350B PCB?

Rogers 4350B PCB is a standout choice among high-frequency laminates, renowned for its exceptional performance and versatile design. This substrate not only delivers top-tier quality for electronic engineers but also offers a range of configurations tailored to diverse application scenarios, catering to a spectrum of unique project requirements.

Multi-layer structure

One of the most striking features of the Rogers 4350B PCB is its multi-layer construction. By layering different materials, engineers can achieve more functionality in a relatively small space. This multi-layer structure makes signal transmission more reliable and helps reduce electromagnetic interference. This is critical for high frequency applications where signal integrity and stability are key to successful designs.

Specific thickness configuration

Rogers 4350B PCB is also available in specific thickness configurations, allowing engineers to customize according to the specific requirements of the project. This customizable nature allows the substrate to be adapted to different electronic devices to meet various space and performance constraints. The flexibility of specific thickness configurations makes Rogers 4350B PCB the preferred choice in many fields, including communications, medical and military.

Customization of application areas

Different application areas have different requirements for circuit boards. Rogers 4350B PCB allows engineers to customize it according to the needs of specific application scenarios through its various types. For example, in wireless communications equipment, higher frequency response and low signal loss may be required, whereas in high-speed computing equipment, signal integrity is more important. Rogers 4350B PCB is able to meet the needs of these different areas through its flexibility.

Stability and reliability

Not only are they flexible in design, the different types of Rogers 4350B PCBs also excel in stability and reliability. The excellent thermal stability of its materials ensures reliability in a variety of environmental conditions. This makes the Rogers 4350B PCB a reliable choice, especially in applications requiring long runs and extreme operating conditions.

In the continuous evolution of electronic engineering, Rogers 4350B PCB successfully meets the unique needs of various projects through its diverse types. Its superior performance, flexible design and reliability make it a leader in high-frequency laminates, providing a solid foundation for innovation.

What are the advantages of Rogers 4350B PCB?

This characteristic proves crucial in high-frequency applications, where the swift and accurate transmission of signals is paramount for the optimal performance of electronic devices. In essence, the board’s ability to support a high dielectric constant contributes significantly to its effectiveness in meeting the demands of advanced electronic applications.

Effect of low loss tangent

Low loss tangent is another unique feature of Rogers 4350B PCB. This means that the substrate minimizes energy loss during signal transmission. For high-frequency electronic equipment, reducing signal loss is a key factor to ensure system reliability and performance stability.

Excellent thermal stability

The Rogers 4350B printed circuit board (PCB) demonstrates outstanding resilience in the presence of temperature fluctuations and boasts exceptional thermal stability. This feature enables the PCB to uphold excellent performance across diverse environmental conditions, particularly in applications with elevated or fluctuating temperatures. The board’s remarkable thermal stability is imperative for ensuring the prolonged and reliable operation of equipment in challenging conditions.

These advantages stack up to give the Rogers 4350B PCB the ability to improve signal integrity and overall performance. In high-frequency environments, accurate signal transmission is crucial to the stable operation of equipment. Rogers 4350B PCB ensures signal integrity during transmission through its unique electrical properties, thereby improving the performance level of the entire system.

Rogers 4350B PCB is designed to meet the requirements of high frequency applications, so it excels in compatibility with high frequency electronic equipment. This makes this substrate a preferred choice in wireless communications, RF equipment, and other areas requiring high-frequency operation.

The Rogers 4350B PCB stands out as an innovative solution for electronic engineers, offering a remarkable combination of high dielectric constant, minimal loss tangent, and impressive thermal stability. Its attributes make it an essential choice for those seeking top-notch performance, reliability, and stability in the realm of high-frequency electronics. Opting for the Rogers 4350B PCB has become a crucial element in driving advancements and fostering innovation in this field.

Rogers 4350B PCB

Rogers 4350B PCB

Why choose Rogers 4350B PCB?

The standout feature that propels Rogers 4350B PCB to the forefront in the high-frequency domain is its remarkably superior electrical performance. In comparison to conventional circuit boards, it boasts a lower loss tangent and a higher dielectric constant. This unique combination enables efficient signal transmission in high-frequency environments, rendering Rogers 4350B PCB an ideal selection for processing RF and microwave signals. This makes it a powerhouse for high-frequency applications like wireless communications and radar systems, providing unparalleled support for optimal performance.

Another distinguishing characteristic of this substrate is its outstanding thermal stability. In challenging operating environments, where temperature fluctuations and heat build-up pose potential threats to electronic devices, Rogers 4350B PCB shines. Its excellent thermal conductivity and stable dielectric properties ensure consistent and reliable performance even under extreme conditions. This thermal resilience further cements its status as a dependable choice for electronic applications that demand top-notch performance and durability.

This makes the substrate particularly suitable for applications in high temperature, high frequency or other harsh environments, such as aerospace, military systems, etc.

At the forefront of electronic design, the stability of signal transmission is critical. Rogers 4350B PCB reduces signal loss during transmission, which is one of the key factors that make it the first choice for high-frequency electronic designs. Its low-loss tangent ensures signals can travel longer distances without suffering excessive attenuation. This is particularly important for applications that require high sensitivity and precise signal transmission, such as RF amplifiers and microwave communication systems.

To sum up, the Rogers 4350B PCB was chosen to overcome the limitations of traditional circuit boards in high-frequency environments. Its unique properties provide electronic engineers with an excellent solution to ensure reliable performance in high frequency applications.

What is the manufacturing process of Rogers 4350B PCB?

Rogers 4350B PCB, renowned for its exceptional performance and reliability, undergoes a meticulous and intricate manufacturing process as a high-frequency laminate. This process is pivotal in establishing the board’s solid foundation. Below is a comprehensive overview of two crucial stages in the production of the motherboard and the formation of its substrate.

Motherboard production

The production of Rogers 4350B PCB begins with the careful selection of raw materials. High-quality fiberglass, polyimide film and Rogers 4350B substrate become key elements in creating high-performance circuit boards. The selection of these materials directly affects the electrical characteristics and stability of the final product.

In the initial stages of the manufacturing process, the Rogers 4350B base material undergoes a precise lamination process, wherein it is intricately combined with other layer materials. This meticulous step is crucial for achieving uniformity and enhancing the overall strength of the substrate. Subsequently, cutting-edge technology is employed to precisely cut the laminated material into the required dimensions, laying the groundwork for the creation of the circuit board.

As the core motherboard takes shape, an array of highly sophisticated equipment and processes is employed to guarantee the precision of the circuit board’s geometric dimensions and interlayer structure. This particular phase plays a pivotal role in determining the board’s stability and reliability, especially in demanding high-frequency environments. The utilization of advanced techniques during this stage is paramount to ensuring the final performance of the circuit board meets stringent standards.

Formation of substrate

The formation of the substrate is one of the key steps in Rogers 4350B PCB manufacturing. After the motherboard is formed, pads, hole locations, and other key elements are precisely drilled and formed. This process often uses advanced drilling technology to ensure that the location and diameter of each hole meet the design requirements.

The next step involves the sequential formation of substrate layers. Initially, a copper cladding layer is applied to ensure circuit conductivity, achieved through either electroless copper plating or electroplating. Subsequently, precise photolithography and etching processes are employed layer by layer to create circuit patterns and signal pathways. This meticulous approach sets the stage for the board to attain its ultimate functionality.

Finally, through high-temperature heat treatment, the interlayer structure of the substrate is consolidated, ensuring stable performance of the circuit board under extreme temperature conditions. This step also helps reduce internal stress and improves the board’s reliability.

The manufacturing process of Rogers 4350B PCB embodies advanced process technology and material science. From the selection of raw materials to the formation of motherboards and substrates, every step is strictly executed to ensure the excellent performance and reliability of the final product.

What are the application areas of Rogers 4350B PCB?

Rogers 4350B PCB, renowned for its exceptional high-frequency laminate properties, has become integral to diverse applications within electronic engineering. This substrate’s unique attributes position it as a vital component across a spectrum of electronic devices.

Rogers 4350B PCB stands out as a top-tier choice for high-frequency communication equipment, delivering an optimal solution for wireless communication devices, RF modules, and antenna systems. With its exceptional dielectric constant and minimal loss tangent, this PCB enhances the efficiency and stability of signal transmission, ensuring dependable performance across a spectrum of communication configurations.

At the forefront of advanced computing systems, Rogers 4350B PCB addresses the needs of high-speed data transmission and vital components such as microprocessors. Its unparalleled electrical performance aligns seamlessly with the rigorous stability and performance criteria of these systems, establishing it as the preferred substrate material for cutting-edge computing technologies.

Wireless Communication Equipment

The versatility of Rogers 4350B PCB extends to wireless communication equipment, encompassing applications in Wi-Fi routers, Bluetooth devices, and mobile communication base stations. Its unique performance advantages facilitate efficient communication in complex signal environments, maintaining stability and reliability in these devices.

High-Performance Radar Systems

Widely adopted in high-performance radar systems, including military and weather radars, Rogers 4350B PCB demonstrates excellent signal transmission characteristics and thermal stability. This enables radar systems to execute complex tasks in harsh environments, such as target tracking and the collection of extensive meteorological data.

Other Electronic Equipment

Beyond the mentioned applications, Rogers 4350B PCB finds widespread use in various electronic equipment, including medical devices, satellite communication gear, and aerospace electronic systems. Its adaptability to diverse fields underscores its versatility, providing a reliable foundation for a broad range of electronic applications.

Overall, Rogers 4350B PCB has become an indispensable component in the electronics field due to its excellent performance and reliability. Whether in communication equipment, computing systems or other high-performance electronic applications, it can demonstrate its strong potential and promote the continuous progress of electronic technology.

Where to find Rogers 4350B PCB?

Selecting a reliable supplier for Rogers 4350B PCB is paramount to ensuring the success of high-frequency electronic design projects. As a leading representative of high-frequency laminates, the Rogers 4350B PCB requires the support of reputable manufacturers to guarantee a dependable source in the market. A distinguished supplier, such as our company, goes beyond merely providing products; it serves as a strategic partner in achieving project success and fostering technological innovation.

Opting for an industry leader as a supplier offers clear advantages. Such companies invest significantly in technology research and development, quality control, and innovation to ensure their products lead the market. Collaborating with industry leaders allows customers to access Rogers 4350B PCBs that are more stable, reliable, and equipped with advanced technology to meet the elevated requirements of projects.

The reputation of suppliers directly correlates with product quality and service reliability. Choosing reputable suppliers minimizes risks during collaboration and ensures that customers receive Rogers 4350B PCB that meets their expectations. Evaluation of a supplier’s credibility can be done by reviewing customer feedback, industry certifications, and product test reports.

As a dependable supplier, our company is dedicated to delivering high-quality Rogers 4350B PCB to meet the specific needs of high-frequency electronic design. We leverage excellent manufacturing processes, rigorous quality control measures, and professional technical teams to offer customers customized solutions, ensuring product stability and reliability.

In the quest for Rogers 4350B PCB, the choice of the right supplier is crucial. Opting for suppliers specializing in high-frequency laminates, industry leaders, and reputable entities ensures reliability. As a supplier focused on high-performance circuit boards, our company stands committed to providing customers with outstanding products and services, contributing to the success of their projects.

What is the quote for Rogers 4350B PCB?

Selecting the appropriate circuit board is a critical decision in electronic engineering, and Rogers 4350B PCB has established itself as a prominent choice in the industry due to its exceptional performance. Achieving a successful project implementation hinges on accurately gauging the cost of Rogers 4350B PCB. This article delves into the essential factors for navigating the pricing of Rogers 4350B PCB, providing project managers and engineers with insights to obtain precise cost estimates.

First, the process of understanding Rogers 4350B PCB price requires considering several key factors. Among them, specifications are one of the primary factors that determine price. Rogers 4350B PCBs are available in a variety of specifications, including different thicknesses, layer counts and special material treatments. Therefore, project leaders and engineers must be clear about the specific specifications required for the project when navigating pricing.

Secondly, quantity also has a significant impact on price. Generally speaking, mass production can often achieve a more competitive price advantage. Knowing the expected production quantities of the project will help select the right supplier and negotiate more favorable deal terms.

Furthermore, the selection of a supplier significantly influences the pricing of Rogers 4350B PCB. Opting for established and proficient suppliers is crucial for the success of your project. Cultivating strong relationships with reliable suppliers not only enhances delivery dependability but also facilitates the negotiation of more competitive prices.

To obtain a precise quote for Rogers 4350B PCB, it is advisable to solicit quotes from multiple suppliers. This approach enables you to identify the supplier that aligns best with your project requirements and secures the most favorable pricing through healthy competition. Throughout the quoting process, project leaders should furnish comprehensive specifications and quantity information to ensure suppliers can provide accurate cost estimates.

Reputable suppliers often offer expert technical support and exemplary customer service, contributing to the seamless progression of the project. When choosing a supplier, considerations beyond price should include factors such as industry reputation, delivery capabilities, and post-sales service.

To sum up, navigating Rogers 4350B PCB price is a complex process involving several key factors. By considering factors such as specifications, quantities, and suppliers, and working with reputable vendors, project managers and engineers can ensure they receive accurate cost estimates to successfully implement their electronic engineering projects. Choosing Rogers 4350B PCB as the circuit board material will provide high performance, reliability and innovation for the project.

Frequently Asked Questions

What types of configurations are available for Rogers 4350B PCB?

Rogers 4350B PCB comes in various forms, including different thicknesses and multilayered constructions. These configurations allow engineers to tailor the substrate to meet the unique requirements of their projects.

Why should one choose Rogers 4350B PCB over traditional circuit boards?

Rogers 4350B PCB stands out due to its unique properties, minimizing signal loss and ensuring reliable performance in challenging environments. It is the preferred choice for applications demanding high-frequency capabilities.

Where can one find Rogers 4350B PCB?

Rogers 4350B PCB is available through various suppliers and manufacturers specializing in high-frequency laminates. Reputable industry leaders and suppliers are reliable sources for obtaining this advanced substrate.

How can I obtain a quote for Rogers 4350B PCB?

Obtaining a quote involves considering factors such as specifications, quantity, and the supplier. Requesting quotes from reputable suppliers ensures accurate cost estimates tailored to specific project needs.

Where can one find Rogers 4350B PCB for purchase?

Rogers 4350B PCB can be procured from various suppliers and manufacturers specializing in high-frequency laminates. Reputable industry leaders often provide a reliable source for obtaining this cutting-edge substrate.

How is the pricing of Rogers 4350B PCB determined, and what factors influence it?

The pricing of Rogers 4350B PCB is influenced by factors such as specifications, quantity, and the supplier. Requesting quotes from reputable suppliers ensures accurate cost estimates tailored to specific project needs.

Are there any common misconceptions about Rogers 4350B PCB?

Some common misconceptions about Rogers 4350B PCB include doubts about its compatibility with specific applications or concerns about its manufacturing complexity. This FAQ section aims to address and dispel such misconceptions to foster confidence in its integration into electronic projects.



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