Because of their unique material properties, Rogers PCBs are indispensable for many high-performance applications. Their low dielectric losses ensure optimal signal transmission, making them ideal for high-frequency applications. The stable dielectric constant (Dk) enables precise and low-loss signal processing, especially in high-speed electronics. Additionally, Rogers PCBs offer excellent thermal management and dissipate heat more efficiently than conventional FR-4 boards. Their low moisture absorption ensures reliable performance even under extreme environmental conditions. They are optimized for RF and microwave applications, making them a top choice for numerous demanding electronic systems.

Depending on the specific requirements of a project, various types of Rogers laminate are available.

• Rogers 4350B offers excellent high-frequency properties and is often used in telecommunications and radar technology.
• Rogers 4003C is a cost-effective solution for high-speed applications.
• Rogers TMM series is specially developed for thermally stable applications requiring high temperature resistance.
• Rogers RT/duroidae series provides high performance and is used in aerospace and military technology.
• Rogers RO3000 e series delivers the best RF performance and is frequently used in precise signal processing applications.

Our Rogers PCBs are produced using state-of-the-art manufacturing techniques and the highest quality standards. We offer a wide selection of materials, including Rogers 4350B, 4003C, and RT/duroid0ae. Our high-precision manufacturing processes allow for the finest trace widths up to 0.075 mm. Whether prototype or mass production, we deliver flexibly as needed. We also offer premium surface finishes like ENIG, OSP, as well as immersion gold and silver. Through strict quality controls per ISO, IPC, and UL standards, we ensure the highest reliability. With fast delivery times and worldwide shipping, we ensure that our customers can efficiently execute their projects.

Rogers PCBs are used in numerous technologically advanced fields. In high-frequency and microwave communication, they are used for antennas, satellite systems, and 5G technologies. In aerospace, they are used in radar, navigation, and avionics systems. They are also indispensable in the automotive sector, especially for ADAS, Lidar, and driver assistance systems. In medical technology, they are used for high-precision diagnostic imaging techniques. Additionally, they play an essential role in power electronics, such as amplifiers, converters, and high-speed data processing systems.