Title :
A Novel MEMS-Based 13.56 MHz Microantenna for RFID Applications
Author :
Bingjun Qu ; Houfang Liu ; Qi Ye ; Yujie Geng ; Tian-Ling Ren ; Hongxiang Wei ; Xiufeng Han
Author_Institution :
Inst. of Microelectron., Tsinghua Univ., Beijing, China
Abstract :
In this paper, a novel 13.56 MHz microantenna using the microelectromechanical system technology is presented. The microantenna consists of a solenoid-type coil and a high-performance NiZnCu ferrite sheet magnetic core. The overall size of the microantenna is <;10 × 6.7 × 0.46 mm3. Test results show that the relative permeability of the ferrite sheet magnetic core reaches 156, and the tangent of loss is ~0.036 at 13.56 MHz. The microantenna is designed and simulated using the high-frequency structure simulator software. The measurement results show that the sensitivity of the microantenna reaches up to 288.6 mV/μT, and the communication distance is 52 mm with the power consumption of only 100 mW.
Keywords :
HF antennas; copper alloys; ferrite devices; ferrites; magnetic cores; magnetic permeability; micromechanical devices; nickel alloys; power consumption; radiofrequency identification; sheet materials; solenoids; zinc alloys; MEMS-based microantenna design; NiZnCu; RFID applications; distance 52 mm; frequency 13.56 MHz; high-frequency structure simulator software; high-performance NiZnCu ferrite sheet magnetic core; microelectromechanical system technology; power 100 mW; power consumption; relative permeability; solenoid-type coil; Antenna measurements; Antennas; Ferrite films; Magnetic cores; Magnetic field measurement; Radiofrequency identification; Sensitivity; Ferrite film; Magnetic flux density; Micro antenna; Micro-electro-mechanical system (MEMS); magnetic flux density; microantenna; microelectromechanical system (MEMS);
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2456156
