60 GHz wideband LTCC microstrip patch antenna array with parasitic surrounding stacked patches

Hua Juan Lee; Eric S. Li; Huayan Jin; Chung Yi Li; Kuo Sheng Chin

doi:10.1049/iet-map.2018.5226

60 GHz wideband LTCC microstrip patch antenna array with parasitic surrounding stacked patches

Hua Juan Lee, Eric S. Li, Huayan Jin, Chung Yi Li, Kuo Sheng Chin^*

^*Corresponding author for this work

Department of Electronic Engineering

Research output: Contribution to journal › Journal Article › peer-review

16 Scopus citations

Abstract

This work presents a wideband 60 GHz microstrip patch antenna (MPA) array based on low-temperature co-fired ceramic (LTCC) multilayer technology. Four parasitic patches are stacked above the driven MPA. An additional resonant mode is excited by the proposed parasitic surrounding stacked patches (PSSPs) to enhance the bandwidth of the MPA. The structure of the PSSPs increases the gain of the MPA due to its array configuration. The proposed PSSP structure can find many applications in designs for large-scale antenna arrays because the PSSPs and the driven microstrip patch are distributed at different layers. This arrangement allows a direct feed network to the MPA without the blockage caused by the PSSPs. A 2 × 2 antenna array was designed and fabricated with the PSSPs to further increase its gain. The proposed array can achieve a gain of 10.5 dBi and a wide bandwidth of 27.3% at 60 GHz.

Original language	English
Pages (from-to)	35-41
Number of pages	7
Journal	IET Microwaves, Antennas and Propagation
Volume	13
Issue number	1
DOIs	https://doi.org/10.1049/iet-map.2018.5226
State	Published - 09 01 2019

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Publisher Copyright:
© The Institution of Engineering and Technology.

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title = "60 GHz wideband LTCC microstrip patch antenna array with parasitic surrounding stacked patches",

abstract = "This work presents a wideband 60 GHz microstrip patch antenna (MPA) array based on low-temperature co-fired ceramic (LTCC) multilayer technology. Four parasitic patches are stacked above the driven MPA. An additional resonant mode is excited by the proposed parasitic surrounding stacked patches (PSSPs) to enhance the bandwidth of the MPA. The structure of the PSSPs increases the gain of the MPA due to its array configuration. The proposed PSSP structure can find many applications in designs for large-scale antenna arrays because the PSSPs and the driven microstrip patch are distributed at different layers. This arrangement allows a direct feed network to the MPA without the blockage caused by the PSSPs. A 2 × 2 antenna array was designed and fabricated with the PSSPs to further increase its gain. The proposed array can achieve a gain of 10.5 dBi and a wide bandwidth of 27.3% at 60 GHz.",

author = "Lee, {Hua Juan} and Li, {Eric S.} and Huayan Jin and Li, {Chung Yi} and Chin, {Kuo Sheng}",

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AU - Jin, Huayan

AU - Li, Chung Yi

AU - Chin, Kuo Sheng

PY - 2019/1/9

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N2 - This work presents a wideband 60 GHz microstrip patch antenna (MPA) array based on low-temperature co-fired ceramic (LTCC) multilayer technology. Four parasitic patches are stacked above the driven MPA. An additional resonant mode is excited by the proposed parasitic surrounding stacked patches (PSSPs) to enhance the bandwidth of the MPA. The structure of the PSSPs increases the gain of the MPA due to its array configuration. The proposed PSSP structure can find many applications in designs for large-scale antenna arrays because the PSSPs and the driven microstrip patch are distributed at different layers. This arrangement allows a direct feed network to the MPA without the blockage caused by the PSSPs. A 2 × 2 antenna array was designed and fabricated with the PSSPs to further increase its gain. The proposed array can achieve a gain of 10.5 dBi and a wide bandwidth of 27.3% at 60 GHz.

AB - This work presents a wideband 60 GHz microstrip patch antenna (MPA) array based on low-temperature co-fired ceramic (LTCC) multilayer technology. Four parasitic patches are stacked above the driven MPA. An additional resonant mode is excited by the proposed parasitic surrounding stacked patches (PSSPs) to enhance the bandwidth of the MPA. The structure of the PSSPs increases the gain of the MPA due to its array configuration. The proposed PSSP structure can find many applications in designs for large-scale antenna arrays because the PSSPs and the driven microstrip patch are distributed at different layers. This arrangement allows a direct feed network to the MPA without the blockage caused by the PSSPs. A 2 × 2 antenna array was designed and fabricated with the PSSPs to further increase its gain. The proposed array can achieve a gain of 10.5 dBi and a wide bandwidth of 27.3% at 60 GHz.

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60 GHz wideband LTCC microstrip patch antenna array with parasitic surrounding stacked patches

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