International audienceA simple method to tune the output pole of a passive mixer is proposed which leads to up to 33 dB improvement in an IEEE 802.15.4 standard compatible receiver’s IF section IIP3. This method is used in the design of an ultra-low power receiver front-end which consumes just 2.2 mW from a 1-V supply while achieving a SSB NF of approximately 9 dB. The energy-aware architecture allows for a 70 % reduction in the nominal power consumption (down to 0.7 mW) under strong signal conditions while improving the receiver’s IIP3 and not affecting the receiver’s input matching. The receiver is designed in a 0.18-μm RFCMOS technology
The rapid proliferation of Internet of Things has urged the development of ultra-low-power (ULP) rad...
Consumers are pushing for higher data rates to support more services that are introduced in mobile a...
DoctorFirstly, an ultra-low-power fully integrated wide band receiver for WSN using passive mixer-fi...
Abstract—Mobile devices demand low-powerWiFi receivers for extended battery lifetime. This paper pre...
We propose a power scalable digital base band for a low-IF receiver for IEEE 802.15.4-2006. The digi...
A receiver front end designed in 0.18- um CMOS consisting of a low-noise amplifier and IQ mixers is ...
The scaling of CMOS technologies has a great impact on analog and radio-frequency (RF) circuit desig...
The mass production of integrated circuits for digital electronics has made CMOS technology the most...
The advances in the semiconductor and wireless industry have enabled the expansion of new paradigms,...
Recent advances in low power radio design have enabled a broad range of low activity applications su...
LOW power operation for wireless radio receivers has been gaining importance lately on account of th...
This paper presents a technique to reduce the noise figure of a passive mixer-first receiver front-e...
A CMOS Mixer for Ultra Wide Band (UWB) Receiver is proposed. The Mixer maintains a gain of 15 dB ove...
Minimizing the dissipated power of RF transceivers is the primarily target to meet the requirements ...
A low power CMOS based RF transceiver architectures are proposed with the gigahertz frequency for th...
The rapid proliferation of Internet of Things has urged the development of ultra-low-power (ULP) rad...
Consumers are pushing for higher data rates to support more services that are introduced in mobile a...
DoctorFirstly, an ultra-low-power fully integrated wide band receiver for WSN using passive mixer-fi...
Abstract—Mobile devices demand low-powerWiFi receivers for extended battery lifetime. This paper pre...
We propose a power scalable digital base band for a low-IF receiver for IEEE 802.15.4-2006. The digi...
A receiver front end designed in 0.18- um CMOS consisting of a low-noise amplifier and IQ mixers is ...
The scaling of CMOS technologies has a great impact on analog and radio-frequency (RF) circuit desig...
The mass production of integrated circuits for digital electronics has made CMOS technology the most...
The advances in the semiconductor and wireless industry have enabled the expansion of new paradigms,...
Recent advances in low power radio design have enabled a broad range of low activity applications su...
LOW power operation for wireless radio receivers has been gaining importance lately on account of th...
This paper presents a technique to reduce the noise figure of a passive mixer-first receiver front-e...
A CMOS Mixer for Ultra Wide Band (UWB) Receiver is proposed. The Mixer maintains a gain of 15 dB ove...
Minimizing the dissipated power of RF transceivers is the primarily target to meet the requirements ...
A low power CMOS based RF transceiver architectures are proposed with the gigahertz frequency for th...
The rapid proliferation of Internet of Things has urged the development of ultra-low-power (ULP) rad...
Consumers are pushing for higher data rates to support more services that are introduced in mobile a...
DoctorFirstly, an ultra-low-power fully integrated wide band receiver for WSN using passive mixer-fi...