22-11-2023 | New Yorker Electronics | Passives
New Yorker Electronics has released Exxelia's new E7000 line of products and materials, providing narrow bandwidths, temperature stability and high Q-factor in extremely small sizes and complex ferrite designs. The series is a Ba-Mg-Ta-based material that integrates an ultra-high Q-factor and can get different temperature coefficients upon request. The line features the highest performance requested for space use in the frequency range from 5GHz to 32GHz and guarantees a Qxf up to more than 250,000 at 10GHz.
In addition, Exxelia can now support the most advanced RF designs by delivering complex geometries such as Y-shape ferrites for microwave switches or Toroidal designs for phase shifters applications. Those miniaturised and complex products may be as small as a few millimetres and deliver exceptional quality, superior performance and low loss (ΔH) materials. The Ultra High Q factor for filter designs makes the series ideal for satellite multiplexing filter devices, radio-links for communication systems (LMDS) and defence radar.
The company is a unique manufacturer producing its own raw materials for ferrites and dielectrics with proprietary formulations for use in the most demanding environments. The dielectric resonators replace resonant cavities in microwave functions such as filters and oscillators. With the support of the ESA and CNES, the company has developed the E7000 series, which offers narrow bandwidth with reduced size. Ferrite materials are employed in microwave devices such as isolators, circulators, diplexers, filters and phase shifters. They have dielectric and magnetic properties due to magnetic ions, such as iron, within the composition.
New Yorker also provides the Exxelia E2000 series with a high-Q factor for high-stability DRO designs. Designed for alarm-detection systems and door openers, automotive anti-collision radar, communication equipment and LNB converters for DBS, it has the capacity for mass production. The E3000 series has high-frequency linearity with temperature for DRO in defence and space applications. The E4000 series has an extremely high Q-Factor for filter designs for satellite multiplexing, radio links for communication systems (LMDS), automotive radar, and defence radar. The E5000 series provides a high dielectric constant for reduced dimensional systems in duplexers and filters and cellular base stations, and the E6000 offers a high Q-factor for low-frequency applications such as LNB for DBS, security systems and detectors and filters.