8 research outputs found
A multi-band printed monopole antenna
In this paper, we present an antenna design for multiband
applications which can cover the GSM 900 (890-960 MHz),
DCS (1710– 1880 MHz) and PCS (1850–1990 MHz), UMTS (1920–
2170 MHz), and WLAN2.4GHz (2400-2484MHz) frequency bands.
A prototype is built and measured. Results of return loss, radiation
patterns, and efficiency are given. The antenna is small, cheap to
manufacture, has a low profile and would be suitable for wearable
applications, mobile phones and base stations
A study of the effects of metallic pins on SAR using a Specific Anthropomorphic Mannequin (SAM) Head Phantom
This paper presents the effects of facial metallic pins on the
Specific Absorption Rate (SAR) in the head, when radiated
by a microwave source placed in front of the face. A Specific
Anthropomorphic Mannequin (SAM) is adapted for use with
a DASY4 and a digitised SAM head is modelled using inhouse
Finite-Difference Time-Domain (FDTD) code,
enabling comparisons between measurements and
simulations. A continuous wave (CW) half-wave dipole is
placed in front of the face, representing a communications
enabled personal data assistant mobile communications
equipment (PDAMCE). Parametric studies have shown that
metallic pins that are roughly half a wavelength long placed
along the eyebrow, increase the 1g and 10g SARs at 900MHz
by around five fold. A greater than five fold increase is seen
at 1800MHz. Measurements show very good agreement with
simulations
Specific Absorption Rates in the human head due to circular metallic earrings at 1800MHz
This paper investigates Specific Absorption Rates (SAR) in the human head due to circular metallic
earrings at 1800MHz. A Finite-Difference Time-Domain (FDTD) code was used to analyse different sizes and
positions of circular earrings near a homogenous cubic phantom. Results showed good agreement with
measurements using the flat section of the SAM twin phantom with the DASY4 measurement system. The
excitation was a half wave dipole. Metallic loops with a circumference of approximately one wavelength and
positioned 14mm away from the phantom increased the 10g SAR by 5 times. The FDTD code has also been
used to analyse the effect of metallic earrings when ‘pierced’ through the ear of an anatomically realistic digital
human head based on the Visible Human Project. The head is not symmetric and both ears were considered to
allow comparison between different heads. The shape of the ear and the size of the earring were found to be
very significant when earrings were hung from the human ear
The SAR effects of popular jewellery on the human head
This paper investigates the effects of metallic jewellery on the
SAR in the human head. A CW dipole is placed in front of the
head to represent a mobile enabled personal data assistant.
The FDTD method has been used to simulate an eyebrow ring
near a homogeneous SAM phantom at 1.8GHz.
Measurements were made on the Loughborough SAM head
with the DASY4 measurement system. Simulations were also
made with eyebrow rings on the surface of the skin and
pierced through the eyebrow of a heterogeneous anatomically
realistic human head. Common sizes of eyebrow ring and
eyebrow stud have been considered over the frequency range
0.6 to 4.6GHz. Jewellery which was small compared to a
wavelength had little effect on the SAR in the head
A study of perturbations in linear and circular polarized antennas in close proximity to the human body and a dielectric liquid filled phantom at 1.8 GHz
In the design and synthesis of wearable antennas
isolation distance from the body is a critical parameter.
This paper deals with the comparison of perturbations caused to
the matching of simple linear and circular polarized patch
antennas due to the close proximity of a human torso and
rectangular box phantom filled with muscle simulating liquid at
1.8GHz. The isolated variable is return loss (S11). Results show
that both linear and circularly polarized antennas produce an
optimal return loss closer to the surface of a typical phantom
than the back of a human volunteer
A study of the effects of metallic pins on SAR using a specific anthropomorphic mannequin (SAM) head phantom
This paper presents the effects of facial metallic pins on the
Specific Absorption Rate (SAR) in the head, when radiated
by a microwave source placed in front of the face. A Specific
Anthropomorphic Mannequin (SAM) is adapted for use with
a DASY4 and a digitised SAM head is modelled using inhouse
Finite-Difference Time-Domain (FDTD) code,
enabling comparisons between measurements and
simulations. A continuous wave (CW) half-wave dipole is
placed in front of the face, representing a communications
enabled personal data assistant mobile communications
equipment (PDAMCE). Parametric studies have shown that
metallic pins that are roughly half a wavelength long placed
along the eyebrow, increase the 1g and 10g SARs at 900MHz
by around five fold. A greater than five fold increase is seen
at 1800MHz. Measurements show very good agreement with
simulations
Specific Absorption Rates in the Human Head Due to Circular Metallic Earrings at 1800MHZ
This paper investigates Specific Absorption Rates (SAR) in the human head due to circular metallic
earrings at 1800MHz. A Finite-Difference Time-Domain (FDTD) code was used to analyse different sizes and
positions of circular earrings near a homogenous cubic phantom. Results showed good agreement with
measurements using the flat section of the SAM twin phantom with the DASY4 measurement system. The
excitation was a half wave dipole. Metallic loops with a circumference of approximately one wavelength and
positioned 14mm away from the phantom increased the 10g SAR by 5 times. The FDTD code has also been
used to analyse the effect of metallic earrings when ‘pierced’ through the ear of an anatomically realistic digital
human head based on the Visible Human Project. The head is not symmetric and both ears were considered to
allow comparison between different heads. The shape of the ear and the size of the earring were found to be
very significant when earrings were hung from the human ear
The SAR effects of popular jewellery on the human head
This paper investigates the effects of metallic jewellery on the
SAR in the human head. A CW dipole is placed in front of the
head to represent a mobile enabled personal data assistant.
The FDTD method has been used to simulate an eyebrow ring
near a homogeneous SAM phantom at 1.8GHz.
Measurements were made on the Loughborough SAM head
with the DASY4 measurement system. Simulations were also
made with eyebrow rings on the surface of the skin and
pierced through the eyebrow of a heterogeneous anatomically
realistic human head. Common sizes of eyebrow ring and
eyebrow stud have been considered over the frequency range
0.6 to 4.6GHz. Jewellery which was small compared to a
wavelength had little effect on the SAR in the head