High-Performance 3GHz Surface Acoustic Wave (SAW) Filter

   In our ongoing pursuit of technological excellence, we are excited to announce the introduction of our latest Surface Acoustic Wave (SAW) filter, designed to meet the demanding requirements of modern RF and microwave applications. This 3GHz SAW filter boasts an impressive array of specifications that make it a standout performer in its class.

Packaged in a compact 3.0mm x 3.0mm footprint, this SAW filter is built to deliver exceptional performance in space-constrained designs. Capable of operating at voltages up to 10Vdc, it can handle input power levels of up to 15dBm, ensuring robust performance even in high-power environments.

One of the key highlights of this filter is its wide operating temperature range, spanning from -40°C to 85°C. This wide temperature tolerance makes it an ideal choice for applications that require reliable performance across a diverse range of environmental conditions.

In terms of electrical characteristics, the 3GHz SAW filter delivers impressive performance. The typical insertion loss at the center frequency of 3000±6.19MHz is a remarkable 2.8dB. Additionally, the amplitude fluctuation across the 3570-3970MHz band is a mere 0.35dB, while the group delay fluctuation within the 3670-3970MHz range is an equally impressive 0.2ns.

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To provide further technical details, simulation data is available upon request. Our engineering team is dedicated to working closely with our customers to ensure a seamless integration of this SAW filter into their designs.

The applications for this high-performance 3GHz SAW filter are wide-ranging, spanning industries such as telecommunications, radar systems, and satellite communications. Its ability to selectively filter and process RF signals makes it a crucial component in maintaining signal integrity and system performance.

In summary, our newly developed 3GHz SAW filter represents a significant advancement in the field of surface acoustic wave technology. With its exceptional specifications, compact size, and wide operating temperature range, this filter is poised to play a key role in enabling the next generation of high-frequency, high-performance RF and microwave systems. We invite you to explore the possibilities and discover how this innovative solution can benefit your applications.