A SP9T cellular antenna switch in 2.5 V CMOS thin-film SOI

Author

Blaschke, V. ; Unikovski, A. ; Hurwitz, P. ; Chaudhry, S.

Author_Institution

TowerJazz, Newport Beach, CA, USA

fYear

2013

Firstpage

244

Lastpage

246

Abstract

This paper presents the results of a compact wire-bond SP9T antenna switch that was designed as technology demonstrator for a 2.5 V CMOS, 250 fs Ron-Coff thin-film SOI process. Through “layout-driven” circuit design, a small die size of 1.52 mm² was achieved for a fully integrated switch die containing RF-section, I/O pads, ESD, decoder, level shifters and dual frequency charge pump to generate negative vss. The dual frequency charge pump was a requirement to achieve a fast start-up time of 10 μs and switch rise times of 3 μs. A low insertion loss of 0.42 dB for cellular low-band at 915 MHz and 0.55 dB for cellular high-band at 1910 MHz, harmonic powers better -76 dBc over battery and Band I/V IMD3 of -110 dBm were achieved. All ports show a high ESD tolerance of 2 kV HBM.

Keywords

CMOS analogue integrated circuits; antennas; cellular radio; charge pump circuits; electrostatic discharge; silicon-on-insulator; thin films; CMOS thin-film SOI; Ron-Coff thin-film SOI process; SP9T cellular antenna; frequency 1910 MHz; frequency 915 MHz; gain 0.55 dB; high ESD tolerance; layout-driven circuit design; loss 0.42 dB; time 10 mus; time 250 fs; time 3 mus; voltage 2 kV; voltage 2.5 V; Batteries; Charge pumps; Electrostatic discharges; Harmonic analysis; Insertion loss; Switches; Switching circuits; RF CMOS; SOI; cellular antenna switch; charge pump; front-end module; harmonics; insertion loss;

fLanguage

English

Publisher

ieee

Conference_Titel

Radio and Wireless Symposium (RWS), 2013 IEEE

Conference_Location

Austin, TX

ISSN

2164-2958

Print_ISBN

978-1-4673-2929-3

Electronic_ISBN

2164-2958

Type

conf

DOI

10.1109/RWS.2013.6486702

Filename

6486702