Journals & Magazines >IEEE Transactions on Antennas... >Volume: 64 Issue: 12

V-Band Integrated on-Chip Antenna Implemented With a Partially Reflective Surface in Standard 0.13- $\mu \text{m}$ BiCMOS Technology

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Abstract:

${V}$ -band on-chip triangular planar monopole antenna implemented with a partially reflective surface (PRS) using standard 0.13-

$\mu \text{m}$ BiCMOS technology is ...Show More

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Abstract:

${V}$ -band on-chip triangular planar monopole antenna implemented with a partially reflective surface (PRS) using standard 0.13-

$\mu \text{m}$ BiCMOS technology is presented. The PRS, which is realized with a dual-layered gangbuster type-4 frequency selective surface structure, is designed to obtain 90% reflection of the incident power, thus reducing the power loss caused by the lossy silicon substrate and increasing the radiation efficiency simultaneously. The antenna-PRS codesign technique to optimize the antenna geometry and the radiation power is discussed. The total area of the antenna, including the GSG pad and the PRS, is 0.868 mm². The measured

$S_{11}$ is smaller than −17 dB from 54 to 66 GHz, while the maximum measured antenna gain is 1.42 dB at 69.5 GHz. The maximum simulated antenna efficiency is 41% at 65 GHz.

Published in: IEEE Transactions on Antennas and Propagation ( Volume: 64, Issue: 12, December 2016)

Page(s): 5102 - 5109

Date of Publication: 24 October 2016

ISSN Information:

DOI: 10.1109/TAP.2016.2620606

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Contents

I. Introduction

The unlicensed spectrum in the -band (57–66 GHz) has attracted more interest for applications of high-bandwidth short-range wireless communication systems. A bandwidth of up to 9 GHz supports data rate up to 6.75 and 7.138 Gb/s in WiGig/IEEE802.11ad and WirelessHD standard, respectively [1], [2]. With the reduced wavelength at mm-wave frequencies and the development of advanced CMOS and BiCMOS (SiGe) technologies, system-on-chip (SoC) solutions, which contain the antennas and the circuits, become more attractive. Antenna-on-chip (AoC) and antenna-in-package (AiP) are two commonly used techniques to incorporate the antennas into the systems [3], [4]. Compared with AiP, AoC solutions, which not only eliminate the need for off-chip connections between dies and antennas, but also reduce the reliability dependence on manufacturing precision, provide the cheapest solutions for -band wireless communications. Several sophisticated designs have been presented for on-chip antenna solutions [5]–[28].

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V-Band Integrated on-Chip Antenna Implemented With a Partially Reflective Surface in Standard 0.13- $\mu \text{m}$ BiCMOS Technology

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V-Band Integrated on-Chip Antenna Implemented With a Partially Reflective Surface in Standard 0.13- \mu \text{m}\mu \text{m} BiCMOS Technology

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V-Band Integrated on-Chip Antenna Implemented With a Partially Reflective Surface in Standard 0.13- $\mu \text{m}$ BiCMOS Technology