Abstract :
Recently, considerable interest has been expressed for superconducting radio frequency (RF) devices for commercial and government applications. One very interesting example is the application of superconducting RF filters for cellular base stations. The reason is quite clear: RF filters based on superconductor materials are fundamentally more efficient than normal-metal filters. They allow a system to use more of its allocated RF spectrum by reducing “guard bands”, and they allow cellular base stations to cover more ground. Many cellular base station systems engineers are beginning to seriously consider using this technology. Companies, such as Motorola, AT&T and others, have teamed up with R&D labs to investigate the idea. This article gives the reader a brief introduction to the technology and its potential impact on wireless communications systems
Keywords :
cellular radio; high-temperature superconductors; land mobile radio; radiofrequency filters; superconducting devices; RF filter; cellular base station; guard band; high temperature superconductor RF device; wireless communications system; Conducting materials; Cryogenics; High temperature superconductors; Interference; Q factor; Radio frequency; Semiconductor materials; Superconducting devices; Superconducting filters; Superconducting materials;
