Rogers RO4360G2™ laminates are engineered for RF and microwave applications that demand a high dielectric constant (Dk) and robust mechanical performance. These laminates provide enhanced circuit density, lower signal loss, and improved thermal conductivity, making them ideal for advanced designs in telecommunications, aerospace, and automotive radar systems.
The SP200501 document provides detailed starting point compensation factors for Rogers RO4350B™ laminates. These factors are essential for optimizing PCB fabrication processes and ensuring precise dimensional control during etching, drilling, and lamination. By accounting for the material’s inherent properties and processing behavior, manufacturers can achieve high precision in RF and microwave circuit designs.
Rogers RO4000® series laminates combined with TICER® TCR Thin Film Resistor Foils offer a high-performance solution for designing circuits that require integrated resistors. This combination is ideal for applications in RF and microwave industries, where precise impedance control, circuit miniaturization, and low parasitic effects are critical.
Rogers RO4000® series laminates, including RO4003C™ and RO4350B™, are high-performance materials designed for RF and microwave applications. These laminates provide a cost-effective alternative to PTFE-based materials while delivering superior electrical and mechanical properties, making them ideal for high-frequency circuits in telecommunications, automotive radar, and aerospace applications.
Rogers’ RO4000® series laminates (RO4003C, RO4350B, and RO4835) are engineered for high-frequency applications. These materials offer low loss, controlled dielectric constants, and excellent thermal and mechanical stability. This guide provides quick reference points for processing these laminates effectively
Device Attachment Methods and Wirebonding Notes for RTduroid and RO4000 Series High Frequency Lamina
Rogers RT/duroid® and RO4000® series laminates are widely used in high-frequency applications such as RF and microwave circuits. Reliable device attachment and wirebonding are essential for achieving optimal performance and long-term reliability. This guide outlines best practices for attaching devices and performing wirebonding on these high-frequency laminates.
In high-frequency circuit designs, managing temperature rise is crucial for ensuring optimal performance and reliability. Rogers’ high-frequency circuit boards, such as those made with RO4000, RO3000, or RT-duroid laminates, exhibit excellent thermal and electrical properties. However, the combination of DC or RF currents and environmental conditions can lead to localized temperature increases that need to be estimated and mitigated.
RO4350B laminates are engineered for high-frequency applications requiring a balance of cost, performance, and reliability. The following starting point compensation factors are intended to assist fabricators in achieving optimal processing results while minimizing dimensional variations during manufacturing.
Product Name: RO4000® Series Laminates (RO4003C, RO4350B, RO4835)
Use: High-frequency circuit board materials
Manufacturer: Rogers Corporation
Product Name: RO4000® Series Laminates (RO4003C, RO4350B, RO4835)
Use: High-frequency circuit board materials
Manufacturer: Rogers Corporation