Title :
A 1.12 pJ/b Inductive Transceiver With a Fault-Tolerant Network Switch for Multi-Layer Wearable Body Area Network Applications
Author :
Yoo, Jerald ; Lee, Seulki ; Yoo, Hoi-Jun
Author_Institution :
Dept. of Electr. Eng., Korea Adv. Inst. of Sci. & Technol. (KAIST), Daejeon, South Korea
Abstract :
A near-field coupling transceiver integrated with a fault-tolerant network switch is implemented for inter-layer and intra-layer wearable body area network. The inductive coupling transceiver employs a resonance compensator (RC) with a digitally controlled on-chip capacitor bank and a variable hysteresis Schmitt trigger to compensate dynamic and static variances of woven inductor, and it enables 10 Mbps wireless transaction with the reception energy of 1.12 pJ/b at 2.5 V supply. The network switch introduces new fault-tolerant protocol to eliminate the routing table and reduces power consumption by 70% compared with the conventional switch using torus topology. The transceiver with the switch and the RC are implemented in 0.25-mum 1P5M CMOS process technology, occupying 2.0 mm2 and 0.8 mm2 area, respectively.
Keywords :
body area networks; fault tolerance; protocols; transceivers; 1.12 pJ/b inductive transceiver; digitally controlled on-chip capacitor bank; fault-tolerant network switch; fault-tolerant protocol; multi-layer wearable body area network; near-field coupling transceiver; resonance compensator; torus topology; variable hysteresis Schmitt trigger; Body area networks; Capacitors; Digital control; Fault tolerance; Hysteresis; Radio control; Resonance; Switches; Transceivers; Trigger circuits; Capacitor bank; digital compensation; fault tolerance; fault-tolerant network; inductive coupling; resonance compensation; wearable network;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2009.2028952
