Title :
Crystal-less duty-cycled-when-active IR-UWB transceivers
Author :
Wang, Xiao Y. ; Dokania, Rajeev K. ; Apsel, Alyssa B.
Author_Institution :
Dept. of Electr. & Comput. Eng., Cornell Univ., Ithaca, NY, USA
Abstract :
The short time duration of IR-UWB signals offer unique opportunities for bit-level duty-cycling when-active that is not possible with radios based on traditional modulation techniques, which must be duty-cycled at a coarser scale. We save substantial power by turning on the transceiver only when needed both in transmission and in reception. We leverage this simple-sounding concept in a custom IR-UWB based physical layer specification that eliminates the need for precise frequency matching through well-matched external crystals. We demonstrate that our methods are compatible with traditional packet-based networking schemes by implementing a FPGA based baseband and MAC layer.
Keywords :
access protocols; field programmable gate arrays; signal processing; transceivers; ultra wideband communication; FPGA; IR-UWB signals; MAC layer; active IR-UWB transceivers; coarser scale; crystal less duty cycled; frequency matching; modulation techniques; reception; transceiver; transmission; Baseband; Physical layer; Power demand; Receivers; Synchronization; Transceivers; IR-UWB; Impulse Radio; Injection-Locking; Low-Power Radio; Transceiver;
Conference_Titel :
Electronics, Circuits and Systems (ICECS), 2014 21st IEEE International Conference on
DOI :
10.1109/ICECS.2014.7050119
