The benefits resulting from the inclusion of ferrite in material loaded antennas are investigated, initially through the
use of a spherical analytic model and then through a TLM
simulation tool applied to a rectangular slab geometry. It is
observed that a material with equality of relative permittivity
and permeability in combination with specific positioning of the
antenna in relation to the head, can result in the definitive smallsize,
high efficiency and bandwidth, low Specific Absorption Rate
(SAR) antenna. The accuracy of the simulations is validated both
through efficiency and SAR measurements of three material
coated monopole samples. Further research into optimizing the
above attributes and translating them into a handset antenna
leads to a multi-band antenna design covering the GSM 1800,
1900, UMTS and Bluetooth bands, with a SAR value reduced by
88% compared to conventional phones and an efficiency of 38%
at 1.8GHz. A tri-band antenna design is also presented, utilizing
currently available lossy ferrite material and it is considered as
the first step towards the feasibility of the ultimate low SAR
multi-band ferrite handset antenna, until further material
development specifically for antenna applications takes place.
History
School
Mechanical, Electrical and Manufacturing Engineering
Citation
KITRA, M. I. ... et al (2007). Low SAR ferrite handset antenna design. IEEE Transactions on Antennas and Propagation, 55 (4) pp. 1155-1164