Next-generation CMOS-on-insulator multi-element network for broadband antenna tuning

Author

Ranta, Tero ; Whatley, Richard ; Cheng, Chien-Chun ; Facchini, Marc

Author_Institution

Mobile Wireless Solutions Bus. Unit, Peregrine Semicond. Corp., San Diego, CA, USA

fYear

2013

fDate

6-10 Oct. 2013

Firstpage

1567

Lastpage

1570

Abstract

Increased spectrum coverage and data rates required by 3G/4G/LTE mobile wireless devices are dictating the need for active antenna systems. Advancements in technology and design techniques have enabled new and innovative solutions for implementing antenna tuning and impedance matching. High Quality (Q) factor Digitally Tunable Capacitors (DTCs), tuning switches and reconfigurable tuners allow for dynamic adjustment of an antenna´s electrical characteristics, and extended low-band coverage through the implementation of aperture tuning and tunable matching networks. This paper discusses the product capabilities and design options that result in improved antenna operating bandwidth.

Keywords

3G mobile communication; 4G mobile communication; CMOS integrated circuits; broadband antennas; impedance matching; mobile communication; semiconductor-insulator boundaries; 3G/4G/LTE mobile wireless devices; active antenna systems; broadband antenna tuning; data rates; impedance matching; multielement network; next-generation CMOS-on-insulator; spectrum coverage; Antennas; Capacitors; Impedance; Insertion loss; Transducers; Tuners; Antennas; Aperture Tuning; CMOS-on-Insulator; CMOS-on-Sapphire; DTC; Digitally Tunable Capacitor; Quality Factor; Reconfigurable RF Front-end; Reconfigurable Tuner; SOI; Silicon-on-Sapphire; Tunable Matching Networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference (EuMC), 2013 European

Conference_Location

Nuremberg

Type

conf

Filename

6686970