A CRLH-TL Inspired Dual-Band Antenna With Polarization Diversity for Wrist-Worn Wireless Body Area Network Devices

A wrist-worn dual-band smartwatch antenna with polarization diversity is proposed for smartwatches. The antenna has a cylindrical structure with a diameter of 33.6 mm and a height of 6.8 mm. The radiated structure is inspired by composite right-/left-handed transmission lines (CRLH-TLs) to realize a dual-band operation (2.4 and 5.8 GHz WLAN band). The unit cell of the CRLH-TL is analyzed, and its equivalent circuit model and the dispersion curves are studied for mode analyzation. The +1 and -1 modes of CRLH TL are employed for dual-band operating, and two orthogonal-polarized modes are excited with different types of feeding structure to realize the polarization diversity with low coupling and low envelope correlation coefficients (ECCs). The wrist model is built in both simulation and experiment to evaluate the performance of the antenna, which shows a good radiation and diversity performances. The measured degree of freedom (DoF) is 1.92 and the capacity is 17.39 bit/s/Hz with 30 dB signal-noise rate (SNR). The results of specific absorption rate (SAR) are also studied and they are pretty low. These characteristics of the proposed antenna make it a competitive candidate for wrist-worn wireless body area network (WBAN) devices.

Automated summary

A wrist-worn dual-band smartwatch antenna with polarization diversity is proposed for smartwatches. The antenna operates at 2.4 and 5.8 GHz WLAN bands. By utilizing composite right-/left-handed transmission lines, the antenna achieves dual-band operation and low envelope correlation coefficients (ECCs) for polarization diversity. The measured performance of the antenna demonstrates good radiation characteristics and capacity with low specific absorption rate (SAR), making it a competitive candidate for wrist-worn wireless body area network (WBAN) devices.