What is Rogers 4003C PCB?

Offered in various configurations, RO4003C laminates utilize both 1080 and 1674 glass fabric styles with all configurations meeting the same laminate electrical performance specification. RO4003C laminates provide tight control on dielectric constant (Dk) and low loss while utilizing the same processing method as standard epoxy/glass but at a fraction of the cost of conventional microwave laminates. Unlike PTFE based microwave materials, no special through-hole treatments or handling procedures are required.

RO4003C materials are non-brominated and are not UL 94 V-0 rated. For applications or designs requiring a UL 94 V-0 flame rating, RO4835™ and RO4350B™ laminates do meet this requirement.

Features

• Dk of 3.38 +/- 0.05
• Dissipation factor of 0.0027 at 10 GHz
• Low Z-axis coefficient of thermal expansion at 46 ppm/°C

Benefits

• Ideal for multi-layer board (MLB) constructions
• Processes like FR-4 at lower fabrication cost
• Designed for performance sensitive, high volume applications
• Competitively priced

Rogers 4003C PCB Manufacturer.Rogers 4003C PCB Manufacturer specializes in crafting cutting-edge printed circuit boards (PCBs) with precision and reliability. With a rich heritage of technological prowess, they excel in producing high-performance PCBs tailored to diverse industries. Leveraging advanced materials and innovative manufacturing techniques, Rogers 4003C PCBs ensure optimal signal integrity and durability, meeting the stringent demands of modern electronic applications. Their commitment to quality and customer satisfaction sets them apart, earning them a reputation as a trusted partner for clients seeking superior PCB solutions. From prototype to production, Rogers 4003C PCB Manufacturer delivers excellence at every step, powering the electronics of tomorrow.

Rogers 4003C PCB is a high-performance rigid-flex circuit board made of Rogers 4003C material. It combines the properties of a rigid FR-4 substrate and a flexible polyester film to create a unique circuit solution with both excellent electrical and mechanical properties. The selection of this material is based on the requirements for high-frequency signal transmission and electrical performance, making Rogers 4003C PCB widely used in fields such as communications, medical, aerospace, etc.

Rogers 4003C material has excellent dielectric properties and can effectively reduce losses and interference in signal transmission. Its excellent dielectric constant and dielectric loss factor enable the circuit board to maintain stable signal transmission characteristics at high frequencies, making it suitable for demanding high-speed data transmission systems. At the same time, the material also has excellent thermal stability and chemical resistance, and can maintain stable performance in harsh environments.

In addition to excellent electrical properties, Rogers 4003C PCB also has good mechanical properties. Its rigid FR-4 substrate provides sufficient mechanical support and stability, allowing the circuit board to resist deformation or breakage during assembly and use. The addition of flexible polyester film gives the circuit board greater flexibility and bendability, allowing it to adapt to complex spatial layouts and special assembly requirements.

Rogers 4003C Fabricante de PCB

In general, Rogers 4003C PCB has been widely recognized and used in the electronics industry for its excellent electrical and mechanical properties. It not only provides reliable circuit solutions for high-end electronic products, but also provides important support and guarantee for future technological innovation. With the continuous advancement of technology, I believe Rogers 4003C PCB will continue to play an important role in promoting the continuous development and progress of the electronics industry.

The types of Rogers 4003C PCB

As a high-performance rigid-flexible circuit board, Rogers 4003C PCB can be divided into single-sided, double-sided and multi-layer boards according to different design requirements. Each type has its unique characteristics and application scenarios.

The single-sided Rogers 4003C PCB is one of the most basic types and features a copper foil covering on one side and a base material on the other side. This type of circuit board is suitable for simple circuit designs and relatively simple application scenarios, such as some low-cost consumer electronics products or simple control circuits.

The double-sided Rogers 4003C PCB has copper foil coverage on both sides, allowing for more complex circuit designs. Double-sided wiring increases the functionality and flexibility of the circuit board and is suitable for medium-complexity electronic equipment, such as industrial control systems, automotive electronic equipment, etc.

The multi-layer board Rogers 4003C PCB is formed by stacking multi-layer circuit boards based on single-sided or double-sided circuit boards, and the layers are connected by copper foil. Multilayer boards have higher wiring density and more complex circuit design capabilities, and can meet the strict requirements for signal transmission and impedance control of high-end electronic products, such as communication equipment, aerospace devices, etc.

Different types of Rogers 4003C PCB also have different application scenarios. Single-sided circuit boards are suitable for low-end electronic products that do not require high circuit complexity, double-sided circuit boards are more suitable for mid-range products, and multi-layer boards are widely used in high-end electronic equipment and professional fields, such as medical equipment, Military equipment, etc.

To sum up, the different types of Rogers 4003C PCB meet the needs of different application scenarios. From simple circuit design to complex high-end electronic products, you can find suitable solutions.

The advantages of Rogers 4003C PCB

Rogers 4003C PCB is popular in the electronics industry for its excellent features and performance. Its advantages are mainly reflected in the following aspects:

First, Rogers 4003C PCB has excellent dielectric properties. The Rogers 4003C material used has the characteristics of low loss, low dielectric constant and low dielectric loss tangent, which can effectively reduce energy loss and signal attenuation during signal transmission, thus ensuring the stability and reliability of the circuit.

Secondly, Rogers 4003C PCB has stable size and shape. During the manufacturing process, advanced technology and precise control methods are used to ensure that the size and shape of the circuit board remain stable within the design requirements and avoid circuit connection problems caused by size changes.

Additionally, Rogers 4003C PCB offers excellent heat and chemical resistance. Its material has good thermal stability and chemical stability, can operate stably for a long time under high temperatures and harsh environments, and is not easily corroded and damaged by chemical substances, ensuring the long-term reliability and service life of the circuit board.

Most importantly, Rogers 4003C PCB has excellent high-frequency performance and signal transmission characteristics. Its material properties and design structure enable it to perform well at high frequencies and maintain stable signal transmission and high-speed data transmission, making it the preferred circuit board for many high-end electronic devices.

To sum up, Rogers 4003C PCB has become the first choice for many high-end electronic equipment due to its excellent dielectric properties, stable size and shape, excellent heat resistance and chemical resistance, as well as excellent high-frequency performance and signal transmission characteristics. circuit board. In the current rapidly developing field of electronic technology, Rogers 4003C PCB will continue to play an important role in providing reliable circuit solutions for various electronic products and promoting the continued development and progress of the industry.

How to Design a Rogers 4003C PCB?

Designing Rogers 4003C PCB is a complex task that comprehensively considers many factors such as material properties, circuit layout, and inter-layer connections. A reasonable design can maximize its performance advantages and ensure the stability and reliability of the circuit board.

First, designing Rogers 4003C PCB requires a full understanding of the material’s properties. Rogers 4003C is a special polyimide-based material with excellent dielectric properties and high-frequency performance, but also has its own specific mechanical properties and processing requirements. Designers need to have a deep understanding of these characteristics to ensure that the board can operate stably under different environmental conditions.

Secondly, circuit layout is one of the key steps in the design process. Reasonable circuit layout can minimize signal interference and crosstalk and improve circuit performance and stability. During the layout process, designers need to consider factors such as signal transmission paths, power distribution, ground wire layout, etc., and adopt appropriate wiring techniques and shielding measures to ensure the stability and reliability of the circuit.

In addition, inter-layer connections are also one of the issues that need to be considered during the design process. Rogers 4003C PCB usually adopts a multi-layer board structure, and the connections between different layers require reasonable planning by the designer. In the design of inter-layer connections, factors such as the optimal wiring method of the signal transmission path, the layout and connection method of inter-layer leads need to be taken into consideration to ensure the stability and reliability of signal transmission.

In general, designing Rogers 4003C PCB requires designers to comprehensively consider multiple factors such as material properties, circuit layout, and inter-layer connections. Through reasonable design, the performance advantages of Rogers 4003C PCB can be maximized and provide reliable guarantee for the stable operation of electronic products.

Why use ceramic Rogers 4003C PCB over other boards?

The Rogers 4003C PCB was chosen over other boards because it has clear advantages in several aspects. Compared to other circuit boards, Rogers 4003C PCB not only has lower losses, but also has higher reliability and stability, which makes it popular in many critical applications.

First, Rogers 4003C PCB has lower losses. Its material properties and manufacturing process enable it to reduce energy loss during signal transmission, effectively reduce signal attenuation, and ensure signal transmission quality. Especially in high-frequency and high-speed circuits, the control of signal loss is crucial, and Rogers 4003C PCB can provide better performance to ensure the stability and accuracy of signal transmission.

Secondly, Rogers 4003C PCB has higher reliability and stability. Circuit boards made of high-quality Rogers 4003C material have excellent heat resistance, chemical resistance and mechanical properties, and can maintain stable working conditions in various harsh environments. This stability makes Rogers 4003C PCB particularly suitable for fields with strict environmental requirements, such as aerospace, military equipment, etc., and can maintain excellent performance under extreme conditions.

In addition, Rogers 4003C PCB is particularly suitable for applications with strict signal transmission requirements. Its excellent high-frequency performance and signal transmission characteristics make it the first choice for many high-end electronic devices. Whether it is communication equipment, radio frequency modules or medical equipment, Rogers 4003C PCB can meet the needs of complex signal transmission and ensure stable transmission and reliability of data.

To sum up, choose Rogers 4003C PCB instead of other circuit boards because it has lower loss, higher reliability and stability, and is especially suitable for high-frequency and high-speed circuits and application scenarios with strict signal transmission requirements. This makes Rogers 4003C PCB the first choice in many industries, providing reliable circuit solutions for various high-end electronic products.

What is the Rogers 4003C PCB Fabrication Process?

Manufacturing Rogers 4003C PCB is a complex and precise process that requires multiple critical steps to ensure the final product has excellent performance and reliability. The following is a detailed introduction to the Rogers 4003C PCB manufacturing process:

The first step in manufacturing Rogers 4003C PCB is to prepare the required materials. Rogers 4003C is a special polyimide fiberglass composite material with excellent dielectric properties and mechanical strength. During the manufacturing process, Rogers 4003C sheets need to be precisely selected, cut and processed to ensure they meet design specifications.

During the lamination process, pre-prepared Rogers 4003C materials are combined into multi-layer boards. The process involves adding an adhesive between materials and subjecting them to high temperatures and pressures to bond the layers tightly together to form a strong composite structure. The quality and precision of the lamination process are critical to the performance of the final circuit board.

Manufacturing the Rogers 4003C PCB requires drilling holes into the composite material to create conductor paths and holes for mounting components on the board. The accuracy and location of the drilled holes must exactly match the design specifications to ensure the functionality and performance of the board.

Chemical processing is the last critical step in manufacturing Rogers 4003C PCB. This process involves surface treatment, patterning, metallization and other processes to form the required conductive pattern and protective layer on the surface of the circuit board. The precision and stability of chemical processing have a direct impact on the performance and reliability of the final circuit board.

The manufacturing process of Rogers 4003C PCB requires a high degree of expertise and technology to ensure that strict quality standards are met at every step. Only through precise process control and strict quality management can high-quality Rogers 4003C PCB be produced to meet the requirements of various high-end electronic products.

The application of ceramic Rogers 4003C PCB

The wide application of Rogers 4003C PCB in many fields demonstrates its importance and value in the electronics industry. First, it plays a key role in the field of communication equipment. With the continuous popularization and development of 5G technology, the demand for high-frequency and high-speed circuit boards is growing day by day. Rogers 4003C PCB has become the preferred circuit board material for communication equipment such as 5G base stations and RF front-end modules due to its excellent high-frequency performance and low loss characteristics. Its stable signal transmission and reliable performance ensure the stable operation of communication equipment and provide people with a smooth communication network.

Secondly, Rogers 4003C PCB is also popular in the aerospace field. The aerospace field has extremely demanding requirements for electronic equipment, which requires lightweight, high reliability and strong anti-interference capabilities. Rogers 4003C PCB not only has excellent electrical properties, but also has excellent mechanical properties and temperature resistance, and can adapt to working conditions in extreme environments. Therefore, in the aerospace field, Rogers 4003C PCB is widely used in key components such as flight control systems, navigation equipment, and communication systems, providing solid support for the development of the aerospace industry.

In addition, Rogers 4003C PCB also plays an important role in the field of medical devices. Medical devices have extremely high requirements on the reliability and stability of electronic products, and any failure may have serious consequences. Rogers 4003C PCB has become the preferred circuit board material for various types of medical equipment due to its stable and reliable performance and excellent material properties. Whether it is medical imaging equipment, vital sign monitoring equipment, or treatment equipment, Rogers 4003C PCB can be seen in it. It ensures the accuracy and reliability of medical devices, provides strong support for medical workers, and protects the safety and health of patients.

In general, the wide application of Rogers 4003C PCB not only plays an important role in the fields of communications, aerospace and medical equipment, but also provides reliable circuit solutions for various high-end electronic products. With the continuous advancement of technology and the expansion of application scope, I believe Rogers 4003C PCB will show its value in more fields and inject new vitality into future technological innovation and industrial development.

FAQs

How does Rogers 4003C PCB compare to regular FR-4 PCB?

Rogers 4003C PCB is made of Rogers 4003C material, which has lower dielectric loss, higher operating frequency and better stability than conventional FR-4 PCB. This makes it perform even better in high-frequency and high-speed applications.

What application scenarios is Rogers 4003C PCB suitable for?

Rogers 4003C PCB is widely used in communication equipment, aerospace, medical equipment and other fields. It is especially suitable for scenarios that require high-frequency and high-speed signal transmission, such as radio frequency antennas, microwave communication systems, etc.

Is the manufacturing process of Rogers 4003C PCB complicated?

Manufacturing Rogers 4003C PCB requires certain technical and equipment support, but it is no more complicated than manufacturing regular FR-4 PCB. The key is to precisely control the material ratio and lamination process to ensure the quality and performance of the panels.

How does the Rogers 4003C PCB price compare to other boards?

Due to its excellent performance and special materials, the price of Rogers 4003C PCB is usually slightly higher than that of regular FR-4 PCB. However, in some applications with higher performance requirements, the price/performance ratio is still very high.

How to choose the right Rogers 4003C PCB manufacturer?

When choosing a suitable Rogers 4003C PCB manufacturer, you need to consider its production equipment, technical strength, quality management system, and customer service. It is recommended to choose a manufacturer with rich experience and good reputation to cooperate to ensure product quality and delivery time.