Design and fabrication of miniature antenna based on silicon substrate for wireless communications

## Abstract Miniaturization techniques for antenna designs based on fractal geometries are of growing interest in wireless communications. This letter demonstrates miniature fractal antenna designed and fabricated on the high‐resistivity Si substrate. This antenna is used for SoC (system on the chi

## Abstract A novel branch structure is proposed and optimized to design a Yagi‐Uda antenna with dual‐band (915–935 MHz and 1760–1805 MHz) performance. In the design, some parametric studies and computational experiments are made to investigate the variation of performance with some of the key para

## Abstract This article proposes a 3.1–5 GHz ultra‐wideband antenna, defined by a −10 dB return loss.The simplified planar antenna structures, compact size, and low profile make it profitable to the application of the embedded antenna in wireless universal serial bus dongle devices. The slit shape

## Abstract Monopoles of 1‐mm axial length are designed and fabricated on silicon substrates of high‐resistivity 5 kΩ‐cm and low‐resistivity 10 Ω‐cm, respectively. We measure their performance up to 110 GHz for wireless interconnects for the first time. The reflection measurements show that a sharp

## Abstract This letter presents a detailed design procedure of leaky‐wave antenna (LWA) based on TE~10~ mode substrate integrated waveguide (SIW).The topology makes use of one of the fundamental characteristics of SIW, namely, its property of generating leakage loss when the period length is suffi

## Abstract A compact, lightweight, and low‐cost planar inverted‐F antenna (PIFA) for wireless LAN communication in the 5‐GHz band is designed. The antenna is designed with the use of the IE3D, a simulation tool by Zeland, Inc. The rectangular planar element of the standard type PIFA is modified as