Title :
Millimeter-wave CMOS circuit design
Author :
Shigematsu, Hisao ; Hirose, Tatsuya ; Brewer, Forrest ; Rodwell, Mark
Author_Institution :
High-Speed Integrated Circuits Technol. Div., Fujitsu Labs. Ltd., Atsugi
Abstract :
We have developed a 27- and 40-GHz tuned amplifier and a 52.5-GHz voltage-controlled oscillator using 0.18-mum CMOS. The line-reflect-line calibrations with a microstrip-line structure, consisting of metal1 and metal6, was quite effective to extract the accurate S-parameters for the intrinsic transistor on an Si substrate and realized the precise design. Using this technique, we obtained a 17-dB gain and 14-dBm output power at 27 GHz for the tuned amplifier. We also obtained a 7-dB gain and a 10.4-dBm output power with a good input and output return loss at 40 GHz. Additionally, we obtained an oscillation frequency of 52.5 GHz with phase noise of -86 dBc/Hz at a 1-MHz offset. These results indicate that our proposed technique is suitable for CMOS millimeter-wave design
Keywords :
CMOS analogue integrated circuits; S-parameters; amplifiers; integrated circuit design; microstrip circuits; millimetre waves; phase noise; voltage-controlled oscillators; 0.18 micron; 1 MHz; 17 dB; 27 GHz; 40 GHz; 52.5 GHz; 7 dB; S-parameters; Si; Si substrate; complementary metal oxide semiconductor; intrinsic transistor; line reflect line calibrations; microstrip line structure; millimeter wave CMOS circuit design; phase noise; tuned amplifier; voltage controlled oscillator; Calibration; Circuit synthesis; Microstrip; Millimeter wave circuits; Millimeter wave technology; Millimeter wave transistors; Power amplifiers; Power generation; Scattering parameters; Voltage-controlled oscillators; Millimeter wave; phase noise; tuned amplifier; voltage-controlled oscillator (VCO);
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2004.840758
