We propose a power scalable digital base band for a low-IF receiver for IEEE 802.15.4-2006. The digital section's sampling frequency and bit width are used as knobs to reduce the power under favorable signal and interference scenarios, thus recovering the design margins introduced to handle worst case conditions. We propose tuning of these knobs based on measurements of Signal and the interference levels. We show that in a 0.13u CMOS technology, for an adaptive digital base band section of the receiver designed to meet the 802.15.4 standard specification, power saving can be up to nearly 85% (0.49mW against 3.3mW) in favorable interference and signal conditions
International audienceThis paper presents the trade-offs facing bandpass sampling receiver architect...
We present a high performance low-power digital base-band architecture, specially designed for an en...
The resolution of the digital signal path has a crucial impact on the design, performance and the po...
We propose a power scalable digital base band for a low-IF receiver for IEEE 802.15.4-2006. The digi...
\u3cp\u3eThis paper presents a low power ultra-wide band digital receiver baseband architecture for ...
LOW power operation for wireless radio receivers has been gaining importance lately on account of th...
International audienceA simple method to tune the output pole of a passive mixer is proposed which l...
International audienceIn this paper, we propose a low-power technique, called RF power gating, which...
The world of information is literally at one’s fingertips, allowing access to previously unimaginabl...
With the increase of Internet of Things applications and devices, many efforts to reduce power consu...
A power scalable receiver architecture is presented for low data rate Wireless Sensor Network (WSN) ...
Graduation date: 2014Access restricted to the OSU Community, at author's request, from June 11, 2014...
We determine the optimal allocation of power between the\ud analog and digital sections of an RF rec...
In this work, a design of an IEEE 802.15.4 con-formant O-QPSK demodulator is proposed, which is capa...
[[abstract]]This paper presents an IEEE 802.15.4 (ZigBee) practicable baseband processor including t...
International audienceThis paper presents the trade-offs facing bandpass sampling receiver architect...
We present a high performance low-power digital base-band architecture, specially designed for an en...
The resolution of the digital signal path has a crucial impact on the design, performance and the po...
We propose a power scalable digital base band for a low-IF receiver for IEEE 802.15.4-2006. The digi...
\u3cp\u3eThis paper presents a low power ultra-wide band digital receiver baseband architecture for ...
LOW power operation for wireless radio receivers has been gaining importance lately on account of th...
International audienceA simple method to tune the output pole of a passive mixer is proposed which l...
International audienceIn this paper, we propose a low-power technique, called RF power gating, which...
The world of information is literally at one’s fingertips, allowing access to previously unimaginabl...
With the increase of Internet of Things applications and devices, many efforts to reduce power consu...
A power scalable receiver architecture is presented for low data rate Wireless Sensor Network (WSN) ...
Graduation date: 2014Access restricted to the OSU Community, at author's request, from June 11, 2014...
We determine the optimal allocation of power between the\ud analog and digital sections of an RF rec...
In this work, a design of an IEEE 802.15.4 con-formant O-QPSK demodulator is proposed, which is capa...
[[abstract]]This paper presents an IEEE 802.15.4 (ZigBee) practicable baseband processor including t...
International audienceThis paper presents the trade-offs facing bandpass sampling receiver architect...
We present a high performance low-power digital base-band architecture, specially designed for an en...
The resolution of the digital signal path has a crucial impact on the design, performance and the po...