Journal ArticleDOI
Design of compact stacked-patch antennas in LTCC multilayer packaging modules for wireless applications
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TLDR
In this article, a simple procedure for the design of compact stacked-patch antennas is presented based on LTCC multilayer packaging technology, where only one parameter, i.e., the substrate thickness, needs to be adjusted in order to achieve an optimized bandwidth performance.Abstract:
A simple procedure for the design of compact stacked-patch antennas is presented based on LTCC multilayer packaging technology. The advantage of this topology is that only one parameter, i.e., the substrate thickness (or equivalently the number of LTCC layers), needs to be adjusted in order to achieve an optimized bandwidth performance. The validity of the new design strategy is verified through applying it to practical compact antenna design for several wireless communication bands, including ISM 2.4-GHz band, IEEE 802.11a 5.8-GHz, and LMDS 28-GHz band. It is shown that a 10-dB return-loss bandwidth of 7% can be achieved for the LTCC (/spl epsiv//sub r/=5.6) multilayer structure with a thickness of less than 0.03 wavelengths, which can be realized using a different number of laminated layers for different frequencies (e.g., three layers for the 28-GHz band).read more
Citations
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Journal ArticleDOI
Vertically Multilayer-Stacked Yagi Antenna With Single and Dual Polarizations
O. Kramer,Tarek Djerafi,Ke Wu +2 more
TL;DR: In this paper, a high-gain yet compact stacked multilayered Yagi antennas are proposed and demonstrated at 5.8 GHz for local positioning systems (LPS) and wireless sensor networks.
Journal ArticleDOI
Package-level integrated antennas based on LTCC technology
Sang-Hyuk Wi,Yong-Bin Sun,In-Sang Song,Sung-Hoon Choa,Il-Suek Koh,Yongshik Lee,Jong-Gwan Yook +6 more
TL;DR: In this article, a stacked patch antenna is designed and integrated in a package using a low temperature co-fired ceramic process, and the antenna is mounted on a 20×20 mm2 ground plane to miniaturize the volume of the system.
Journal ArticleDOI
Use of the Dielectric Resonator Antenna as a Filter Element
Eng Hock Lim,Kwok Wa Leung +1 more
TL;DR: In this article, the authors used the dielectric resonator antenna (DRA) as a filtering device, named as the DRA filter, to improve the insertion loss of the filter part, the DR is toploaded by a metallic disk without significantly affecting the radiation efficiency of the antenna part.
Journal ArticleDOI
Millimeter-wave high-efficiency multilayer parasitic microstrip antenna array on teflon substrate
TL;DR: A 60-GHz-band prototype antenna employing a multilayer Teflon substrate that is well suited to achieving high gain and a wide bandwidth and the measured performance of the prototype antenna is presented.
Journal ArticleDOI
A wideband array of stacked patch antennas using embedded air cavities in LTCC
TL;DR: An embedded air cavity in low temperature cofired ceramics (LTCC) is used to achieve a wideband response with stacked patch antennas, and achieves a gain of better than 5dBi over an 18% bandwidth with a good impedance match.
References
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Journal ArticleDOI
Design of probe-fed stacked patches
TL;DR: In this paper, a design strategy to achieve bandwidths in excess of 25% for probe-fed stacked patches is presented and the role of each antenna parameter in controlling the impedance behavior is provided.
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RF-system-on-package (SOP) for wireless communications
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TL;DR: It is becoming clear that the production of a complete solution for the new wireless communication front-end is still a dream, because of the very stringent specifications never before reached in terms of low noise, high linearity, low power consumption, small size and weight, and low cost.
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Stacked patches using high and low dielectric constant material combinations
TL;DR: In this article, the performance of stacked patches incorporating a high and low dielectric constant material combination is presented, which is applicable for cases where photonic and microwave devices need to be directly integrated with the antenna.
Journal ArticleDOI
A method for designing broad-band microstrip antennas in multilayered planar structures
TL;DR: A simple and practical method for the design of broad-band microstrip antennas is presented and it is confirmed that the method proposed is applicable to the designs of other types of multilayered planar antennas.