A fully integrated SiGe E-BAND transceiver chipset for broadband point-to-point communication

Author

Katz, Oded ; Ben-Yishay, Roee ; Carmon, Roi ; Sheinman, Benny ; Szenher, Frank ; Papae, Donald ; Elad, Danny

Author_Institution

IBM Haifa Labs., Haifa Univ. Campus, Haifa, Israel

fYear

2012

Firstpage

431

Lastpage

434

Abstract

Fully integrated chipset at E-band frequencies in a superhetrodyne architecture covering the lower 71-76 GHz and upper 81-86 GHz bands were designed and fabricated in 0.13%m SiGe technology. The receiver chips include an image-reject low-noise amplifier (LNA), RF-to-IF mixer, variable gain IF amplifier, quadrature IF-to-baseband de-modulators, tunable baseband filter, phase-locked loop (PLL), and frequency multiplier by four (quadrupler). The receiver chips achieve 60dB gain, 8.5 dB noise figure, -30 dBm IIP3, and consumes 600 mW. The transmitter chips include a power amplifier, image-reject driver, IF-to-RF up-converting mixer, variable gain IF amplifier, quadrature baseband-to-IF modulator, PLL, and frequency multiplier by four (quadrupler). It achieves output power P1dB of 0 to 11 dBm, Psat of 3.3 to 14 dBm, and consumes 850 mW.

Keywords

Ge-Si alloys; analogue integrated circuits; broadband networks; demodulators; driver circuits; frequency multipliers; integrated circuit design; intermediate-frequency amplifiers; low noise amplifiers; phase locked loops; power amplifiers; radio transceivers; submillimetre wave filters; submillimetre wave integrated circuits; submillimetre wave mixers; IF-to-RF up- converting mixer; PLL; RF-to-IF mixer; SiGe; broadband point-to-point communication; frequency multiplier; fully integrated E-band transceiver chipset; image-reject driver; image-reject low-noise amplifier; phase-locked loop; power amplifier; quadrature IF-to-baseband de-modulators; quadrature baseband-to-IF modulator; receiver chips; size 0.13 mum; superhetrodyne architecture; transmitter chips; tunable baseband filter; variable gain IF amplifier; Frequency measurement; Gain; Mixers; Noise measurement; Phase locked loops; Radio frequency; Transmission line measurements; E-band; SiGe; Transceiver; Wireless;

fLanguage

English

Publisher

ieee

Conference_Titel

Radio and Wireless Symposium (RWS), 2012 IEEE

Conference_Location

Santa Clara, CA

ISSN

2164-2958

Print_ISBN

978-1-4577-1153-4

Type

conf

DOI

10.1109/RWS.2012.6175323

Filename

6175323