Chung-Yi Hsu scite author profile

A multiple-input-multiple-output (MIMO) antenna with a built-in decoupling mechanism is proposed for wireless local area network (WLAN) 2.4/5 GHz dual-band operations. The antennas were printed on an FR4 substrate and were located at the top portion of the FR4 board. The size of the antenna is 20 × 11 mm. The MIMO antenna system consists of two parallel folded branch monopoles with coupled feeds configured as two sets of two off-centred circular pads; the smaller ones were connected to the feeds and the larger ones were connected to the branch antennas. The coupled feed was used to achieve broad impedance matching bands. The two coupled feeds, separated by a small gap, were found to exhibit a built-in isolation mechanism, due to the opposite currents generated at the feeds and at the edges of the circular pads. That is, no additional physical structure was necessary to facilitate the needed isolation. The measured results show that both antennas have good impedance matching and port isolation. The antenna port envelope correlation coefficient was less than about 0.2 over the dual 2.4/5 GHz bands.

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Self-aligned hemispherical formation of microlenses from colloidal droplets on heterogeneous surfaces

Chen¹,

Tseng²,

Chiu³

et al. 2009

J. Micromech. Microeng.

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This paper proposes a drop-on-demand (DOD) theory and scheme for constructing hemispherical refractive microlenses onto underlying heterogeneous (laterally structured) surfaces that consist of hydrophilic s-domains and hydrophobic p-domains. In theory, the drops would self-align themselves into the s-domains by repelling the p-domains due to surface tension, precisely determining the placement though disobeying the Young–Laplace equation. Using a droplet generator (inkjet printhead), in our experiments, evaporative polyurethane (PU) drops well fitted their footprints (base radii) onto the s-domains with a radius of 100 µm surrounded by the p-domains of Teflon, where the photoresist AZ4620 was used for lifting off the corresponding domains of Teflon. As a result, plano-convex shapes with spherical curvatures were fabricated in an array (spacing L ∼ 100 µm) with base (footprint) radius (Rb) ∼ 95 µm and curvature radius (Rc) ∼ 122 µm. Thus, both the theoretical and experimental results agreed well in a hemispherical shape (deviation < 5%) with the contact angle θ ∼ 51°. Further, such an angle could be tunable with Δθ over 20° simply by varying drop volume. In addition, one interesting and significant finding, for two (and more) overflow drops (Rb > Rs + L/2 = 150 µm, in excess of volume), indicates that more complex shapes than spherical ones (such as dumbbell and cross-like) can also be constructed by bridging the drops. Compared to those previous methods using photolithographic techniques, the present method is potentially appropriate for the varying radius and complex placement of array patterns.

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Transmitarray Design With Enhanced Aperture Efficiency Using Small Frequency Selective Surface Cells and Discrete Jones Matrix Analysis

Hsu

Hwang

Horng

et al. 2018

IEEE Trans. Antennas Propagat.

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Fabrication and Performance of MEMS-Based Pressure Sensor Packages Using Patterned Ultra-Thick Photoresists

Chen

Chang

Hsu

et al. 2009

Sensors

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A novel plastic packaging of a piezoresistive pressure sensor using a patterned ultra-thick photoresist is experimentally and theoretically investigated. Two pressure sensor packages of the sacrifice-replacement and dam-ring type were used in this study. The characteristics of the packaged pressure sensors were investigated by using a finite-element (FE) model and experimental measurements. The results show that the thermal signal drift of the packaged pressure sensor with a small sensing-channel opening or with a thin silicon membrane for the dam-ring approach had a high packaging induced thermal stress, leading to a high temperature coefficient of span (TCO) response of −0.19% span/°C. The results also show that the thermal signal drift of the packaged pressure sensors with a large sensing-channel opening for sacrifice-replacement approach significantly reduced packaging induced thermal stress, and hence a low TCO response of −0.065% span/°C. However, the packaged pressure sensors of both the sacrifice-replacement and dam-ring type still met the specification −0.2% span/°C of the unpackaged pressure sensor. In addition, the size of proposed packages was 4 × 4 × 1.5 mm3 which was about seven times less than the commercialized packages. With the same packaging requirement, the proposed packaging approaches may provide an adequate solution for use in other open-cavity sensors, such as gas sensors, image sensors, and humidity sensors.

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Inkjet-Printed Polymeric Microstructures in $n$-Sided Regular Polygonal Cavities

Chen

Chiu²,

Hsu³

et al. 2011

J. Microelectromech. Syst.

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We demonstrate an inkjet-based microfluidic technique as droplet vaporization deposition (DVD) that can be applied in the incorporation of hydrophobic substrates with microcavities to generate individual polymeric structures. Using soft-lithography method, the SU-8 and polydimethysiloxane were patterned to form various polygon-shaped cavities (side length ∼200-700 μm and depth ∼25-110 μm) which acted as micromolds (templates) for forming the shapes of the droplets deposited. With aqueous polyurethane droplets generated (single volume ∼381 pL), the novel various microstructures in polygonal (tri-to hexagonal) forms were created through the deposition and evaporation processes and characterized with exotic performances in optics such as those of microlenses and micromirrors. Experimental and analytical results illustrated that the curvedsurface (sinusoidal) topographies of the structures self-formed and detached from the underlying substrates were dominated by capillary action of fluid during evaporation. The merits over the existing techniques such as photolithography includes the one-step, low-temperature (ambient condition, ∼1 atm at 25 • C), and cost-effective (no waste materials) processes of solid formations. The successful formation of these structures suggests a new mechanism for self-releasing/detaching from the molds. As a reliable technique for the fabrication of such microstructures, the present DVD method presents an alternative method for various applications particularly including optical microelectromechanical system devices and parts used for assembly.[2010-0238]

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Chung-Yi Hsu

MIMO antenna design with built‐in decoupling mechanism for WLAN dual‐band applications

Self-aligned hemispherical formation of microlenses from colloidal droplets on heterogeneous surfaces

Transmitarray Design With Enhanced Aperture Efficiency Using Small Frequency Selective Surface Cells and Discrete Jones Matrix Analysis

Fabrication and Performance of MEMS-Based Pressure Sensor Packages Using Patterned Ultra-Thick Photoresists

Inkjet-Printed Polymeric Microstructures in $n$-Sided Regular Polygonal Cavities

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