Abstract
The three dimensional printing method is currently on stage of rapid
development to realize complex nature of structure in simpler and
feasible ways. In this paper, we proposed a 3D printed wideband antenna
structure with high performance to improve the characteristics
properties of feed source by eliminating the use of expensive
superstates. A 60 mm
×60
mm
×22.5
mm wideband structure was first fabricated from VERO CMYK material
through Multijet 3D printing method where the bottom layer are copper
painted so as to realize the higher permittivity layer. The proposed
structure is maintained at 16 mm (
0.64λ
) above the ground plate of 60 mm
×60
mm
×
1 mm, which is feed by WR-75 waveguide. The proposed antenna is
designed to have a wide operating bandwidth from 10 to 15 GHz, which
cover Ku-band frequency range. Directivity enhancement is obtained over a
large bandwidth by using high permittivity material for Layer 1 and
lower permittivity material for Layer 2 and Layer 3. The resulting
antenna prototype demonstrates a directivity bandwidth product (DBP) of
3012.79 and DBP per unit area (DBP/A) of 523.06, where directivity and
gain are found to be higher than 15 dBi over the entire operating
frequency band. The total area of the new antenna prototype is
2.4λ×2.4λ×0.9λ
(
4.16λg×4.16λg×1.56λg
), and overall electrical height is
1.54λ
at the design frequency of 12 GHz. The proposed prototype weight 36 g
and overall system have weight of 118 g, which is light in weight. The
measured VSWR is less than 2, which signifies wideband characteristics
of overall system.
Original language | English |
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Pages (from-to) | 130944-130954 |
Number of pages | 11 |
Journal | IEEE Access |
Volume | 10 |
DOIs | |
Publication status | Published - 2022 |