Investigation of the Impact of Magnetic Permeability and Loss of Magnetic Composite Materials on RFID and RF Passives Miniaturization

The successful implementation of a magnetic composite material has enabled the investigation of the potential impact on RFID and RF passives miniaturization, considering both material/fabrication properties and geometric design parameters. The benchmarking structure is a short-circuited quarter-wavelength rectangular patch antenna for RFID UHF band (400 -930 MHz). The antenna is electromagnetically modeled in HFSS full wave EM (electromagnetic) software and optimized using statistical tools, and it is found that the permeability of a practical magnetic composite can enable miniaturization by a factor larger than 3, something that could be replicated for other large-size RF passives, such as integrated inductors. The impact of the magnetic loss of the composite on the miniaturized antenna performance is also evaluated. In addition, the proposed technique could provide a-priori confidence levels in the performance of RF passives and modules considering realistic fabrication variations and novel material characterization uncertainties and tolerances.

[1]  Fuhan Liu,et al.  Magnetic nanocomposite for high Q embedded inductor , 2004, 9th International Symposium on Advanced Packaging Materials: Processes, Properties and Interfaces (IEEE Cat. No.04TH8742). 2004 Proceedings..

[2]  Everett E. Carpenter,et al.  Magnetic and structural properties of nickel zinc ferrite nanoparticles synthesized at room temperature , 2004 .

[3]  V. Barnett,et al.  Applied Linear Statistical Models , 1975 .

[4]  N. Das,et al.  Magneto optical technique for beam steering by ferrite based patch arrays , 2001 .

[5]  Michael H. Kutner Applied Linear Statistical Models , 1974 .