Electrically Equivalent Model Design of a Ku-Band Helical Antenna
                        Matching Section for Ease of 3D Printing Technology Use

Han, Jeongyun; Kim, Wonkyo; Shin, Geonyeong; Park, Joomin; Chang, Wonsuk; Yoon, Ick-Jae

doi:10.5515/kjkiees.2020.31.7.599

J. Korean Inst. Electromagn. Eng. Sci.

2020

DOI: 10.5515/kjkiees.2020.31.7.599

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Electrically Equivalent Model Design of a Ku-Band Helical Antenna Matching Section for Ease of 3D Printing Technology Use

Jeongyun Han¹,

Wonkyo Kim²,

Geonyeong Shin³

et al.

Abstract: In this study, we design and build a helical antenna operating at the Ku-band using a hybrid 3D printing technology. A non-uniform surface roughness can reduce the conductivity of printed metals. Therefore, through simulation and equations, we demonstrate that a triangular metallic matching section of a helical antenna can be equivalently replaced with a strip-line matching section. As the proposed antenna has fewer physically printed parts, the reduction in the conductivity of the printed metallic parts at hi… Show more

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Cited by 1 publication

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Time-Gated Free-Space Measurement Signal Processing Method to Estimate Dielectric Constant of 3D Printed Materials

Yoon,

Kim,

Yoon

et al. 2022

J. Korean Inst. Electromagn. Eng. Sci.

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In this study, we introduce a technique to eliminate the multiple reflection effects using time gating and calculate the dielectric constant of 3D printed materials using a free-space measurement system. Air, conductor, and MUT signals in the frequency domain obtained using the VNA are acquired and converted into the time domain via the inverse Fourier transform. A window function is applied in the time domain to extract only the reflected signal in the desired area. Subsequently, S 11 and S 21 of the MUT are obtained through calibration, and the dielectric constant of the object is estimated using the NRW method. Consequently, the dielectric constant of PLA, which is often used in FDM printers, is calculated to be 2.788 and the loss tangent is 0.054. Similarly, the dielectric constant and loss tangent for a general resin used in an SLA printer are calculated to be 3.142 and 0.071, respectively.

show abstract

Time-Gated Free-Space Measurement Signal Processing Method to Estimate Dielectric Constant of 3D Printed Materials

Yoon,

Kim,

Yoon

et al. 2022

J. Korean Inst. Electromagn. Eng. Sci.

View full text Add to dashboard Cite

show abstract

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Electrically Equivalent Model Design of a Ku-Band Helical Antenna Matching Section for Ease of 3D Printing Technology Use

Cited by 1 publication

References 17 publications

Time-Gated Free-Space Measurement Signal Processing Method to Estimate Dielectric Constant of 3D Printed Materials

Time-Gated Free-Space Measurement Signal Processing Method to Estimate Dielectric Constant of 3D Printed Materials

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