Rely on DiClad 527 for Reliable High Frequency Performance
When designing circuits that must operate at RF and microwave frequencies with minimal losses, you need a substrate that offers consistent and stable electrical properties. Rogers' DiClad 527 laminate meets these demands through its carefully engineered composition.
DiClad 527 provides a Dk range of 2.4-2.6 at 10GHz along with an ultra-low loss tangent of just 0.0017. Its tightly controlled PTFE-fiberglass ratio delivers dimensional stability even in humid environments.
A recent project used DiClad 527 to develop a new generation of radar systems. Its best-in-class high frequency performance supported wider traces for lower insertion losses. And its dimensional stability of -153ppm across -10°C to 140°C ensured precise performance in harsh operating conditions.
Backed by extensive material testing and a long history of success in industries like aerospace, engineers can rely on DiClad 527. A sample 21-component board exhibited no performance drift despite rigorous thermal cycling and humidity testing.
Whether your application is military radar, 5G antennas or satellite systems, trust DiClad 527 to advance your design within the most stringent specifications. Contact Rogers Corporation to discuss how this innovative substrate can enhance your product's capabilities.
Let us know if you need any additional details about the material properties, board design/construction or intended operating environments.
Rely on DiClad 527 for Reliable High Frequency Performance
When designing circuits that must operate at RF and microwave frequencies with minimal losses, you need a substrate that offers consistent and stable electrical properties. Rogers' DiClad 527 laminate meets these demands through its carefully engineered composition.
DiClad 527 provides a Dk range of 2.4-2.6 at 10GHz along with an ultra-low loss tangent of just 0.0017. Its tightly controlled PTFE-fiberglass ratio delivers dimensional stability even in humid environments.
A recent project used DiClad 527 to develop a new generation of radar systems. Its best-in-class high frequency performance supported wider traces for lower insertion losses. And its dimensional stability of -153ppm across -10°C to 140°C ensured precise performance in harsh operating conditions.
Backed by extensive material testing and a long history of success in industries like aerospace, engineers can rely on DiClad 527. A sample 21-component board exhibited no performance drift despite rigorous thermal cycling and humidity testing.
Whether your application is military radar, 5G antennas or satellite systems, trust DiClad 527 to advance your design within the most stringent specifications. Contact Rogers Corporation to discuss how this innovative substrate can enhance your product's capabilities.
Let us know if you need any additional details about the material properties, board design/construction or intended operating environments.