Title :
A 130 nm CMOS IR-UWB receiver based on baseband cross-phase detection
Author :
Crepaldi, Marco ; Ros, Paolo Motto ; Demarchi, Danilo
Author_Institution :
Center for Space Human Robot. (CSHR), Ist. Italiano di Tecnol.@PoliTo, Turin, Italy
Abstract :
This paper presents an IR-UWB receiver robustly detecting pulses w.r.t. in-band and out-of-band non-pulsed narrowband signals. The system cross-filters the baseband pulse detector output with two different transfer functions to detect fast UWB signals phase advance. The baseband output is indeed low-pass filtered and dynamically subtracted with incoming UWB pulses which have larger bandwidth occupation, hence a larger envelope derivative. The circuit is implemented in a 130 nm RFC-MOS technology and occupies an area of 1110×550μm2. Here we introduce the design of the receiver and show first early qualitative results showing reliable transmission of pulse events with a range in excess of 5 m and an integrated all-digital IR-UWB transmitter.
Keywords :
CMOS integrated circuits; radio receivers; radio transmitters; radiofrequency integrated circuits; ultra wideband communication; CMOS IR-UWB receiver; RFC-MOS technology; bandwidth occupation; baseband cross-phase detection; envelope derivative; fast signals phase advance; impulse-radio ultrawideband; in-band nonpulsed narrowband signals; integrated all-digital IR-UWB transmitter; out-of-band nonpulsed narrowband signals; size 130 nm; Baseband; Detectors; Interference; Narrowband; Receivers; Standards; Wireless sensor networks; Impulse Radio-UWB; Narrowband Interference Robustness;
Conference_Titel :
Electronics, Circuits and Systems (ICECS), 2014 21st IEEE International Conference on
DOI :
10.1109/ICECS.2014.7050110
