Add to ORKGThis paper describes an innovative approach for integrated ultra-low current wireless receivers for UHF bands in a 180-nm CMOS technology. The classical method of slow periodic switching off of the receiver was picked up, essentially enhanced and applied to a superheterodyne receiver topology. A novel fast sampling pulse operation method for ultra low power integrated receivers is presented meeting both short reaction time and very low power consumption requirements. In addition, the receiver was designed for radio channels with strong interferers. The presented ASIC comprises both an analogue front-end and two digital 31 bit correlating decoders. The current consumption of the fabricated prototype is 2.4 µA at 3 volts supply voltage with a...
As most radio communication is based on a narrow banded carrier tech nique, the technique this thes...
We present a high performance low-power digital base-band architecture, specially designed for an en...
Wireless technologies are now widespread due to the easiness of use they provide. Consequently, the ...
An ultra-low power wake-up receiver for 2.4-GHz wireless sensor networks, based on a fast sampling m...
A ultra-low power wake-up receiver based on a novel fast sampling method is presented. The innovativ...
Minimizing waste of resources by reduction of battery replacements in mobile smart objects gives an ...
This paper shows the benefits of a sub-10 A wake-up receiver circuit used for wireless data receptio...
An ultra-low power wake-up receiver for wireless sensor network applications is presented. The 915MH...
In order to minimize power consumption without sacrificing much latency performance, wake-up radios ...
Recent advances in low power radio design have enabled a broad range of low activity applications su...
\u3cp\u3eThis paper presents a wakeup receiver for latency-critical IoT applications in 90nm CMOS, w...
A low-power impulse-radio ultra-wideband receiver is demonstrated for low data-rate applications. A ...
Wakeup radios (also referred to as event-driven radios) is a paradigm for low-cost, low-energy ident...
Grâce au confort d’utilisation qu’elles procurent, les technologies sans fil se retrouvent aujourd’h...
As most radio communication is based on a narrow banded carrier tech nique, the technique this thes...
We present a high performance low-power digital base-band architecture, specially designed for an en...
Wireless technologies are now widespread due to the easiness of use they provide. Consequently, the ...
An ultra-low power wake-up receiver for 2.4-GHz wireless sensor networks, based on a fast sampling m...
A ultra-low power wake-up receiver based on a novel fast sampling method is presented. The innovativ...
Minimizing waste of resources by reduction of battery replacements in mobile smart objects gives an ...
This paper shows the benefits of a sub-10 A wake-up receiver circuit used for wireless data receptio...
An ultra-low power wake-up receiver for wireless sensor network applications is presented. The 915MH...
In order to minimize power consumption without sacrificing much latency performance, wake-up radios ...
Recent advances in low power radio design have enabled a broad range of low activity applications su...
\u3cp\u3eThis paper presents a wakeup receiver for latency-critical IoT applications in 90nm CMOS, w...
A low-power impulse-radio ultra-wideband receiver is demonstrated for low data-rate applications. A ...
Wakeup radios (also referred to as event-driven radios) is a paradigm for low-cost, low-energy ident...
Grâce au confort d’utilisation qu’elles procurent, les technologies sans fil se retrouvent aujourd’h...
As most radio communication is based on a narrow banded carrier tech nique, the technique this thes...
We present a high performance low-power digital base-band architecture, specially designed for an en...
Wireless technologies are now widespread due to the easiness of use they provide. Consequently, the ...