Title :
A mm-Precise 60 GHz Transmitter in 40 nm CMOS for Discrete-Carrier Indoor Localization
Author :
Indirayanti, Paramartha ; Ayhan, Tuba ; Verhelst, Marian ; Dehaene, Wim ; Reynaert, Patrick
Author_Institution :
Dept. of Electr. Eng., KU Leuven, Leuven, Belgium
Abstract :
This paper presents a multicarrier 60 GHz transmitter for distance measurement (ranging) in an indoor wireless localization system, achieving mm-precision with high update rate. The architecture comprises a baseband subcarrier generator, an upconverter, and a power amplifier. There are three key innovations, all stemming from careful hardware-algorithm co-design: 1) efficient frequency planning of the 6 GHz-wide band; 2) power-efficient multicarrier signal generation by means of digital frequency divisions exploiting the phase-based time-of-arrival ranging algorithm; and 3) PAPR reduction to enable efficient operation of the power amplifier. By implementing these key techniques, 0.7-2.7 mm precision is achieved over 5 m measured distance with 5.4 μs symbol duration. During operation, the core digital subcarrier generator generates 16 non-equidistant subcarriers from a 3 GHz input clock, while consuming an average power of 1.8 mW out of 0.9V supply. The upconverter and the power amplifier altogether consume around 127 mW. The total area of the transmitter is 1.1 mm2. The chip is fabricated in a 40nm general purpose CMOS process.
Keywords :
CMOS integrated circuits; distance measurement; indoor navigation; power amplifiers; radio transmitters; time-of-arrival estimation; CMOS process; PAPR reduction; baseband subcarrier generator; complementary metal oxide semiconductor; digital frequency division; digital subcarrier generator; discrete-carrier indoor wireless localization system; distance measurement; frequency 3 GHz; frequency 6 GHz; frequency 60 GHz; frequency planning; hardware-algorithm codesign; mm-precision; multicarrier signal generation; multicarrier transmitter; nonequidistant subcarrier; phase-based time-of-arrival ranging algorithm; power 1.8 mW; power 127 mW; power amplifier; size 40 nm; symbol duration; upconverter; voltage 0.9 V; Baseband; Distance measurement; Frequency conversion; Peak to average power ratio; Receivers; Transmitters; 60 GHz transmitter; CMOS; frequency divider; inverse-GPS; localization; mm-precision; multicarrier; positioning system; radar; ranging; time-of-arrival;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2015.2414433
