A fully differential envelope detector (ED) operating at 2.4GHz is designed in 90nm CMOS technology. The new design uses the common-gate topology to deal with large common-mode input signals through first-order current cancellation. Thereby, a fully differential ultra-low power super-regenerative front-end is enabled. It has a measured output voltage swing of 2.8–127mV and achieves 19.6dB output SNR at sensitivity input level. The circuit consumes 3µW from a 1.2V power supply
A 98nW receiver with a 23nW active rectifier RF front-end biased in deep subthreshold near the satur...
This paper presents analytical expressions for the sensitivity of a low power envelope detector driv...
International audiencePrevious studies have shown that a transistor's transconductance-to-drain-curr...
A fully differential envelope detector (ED) operating at 2.4GHz is designed in 90nm CMOS technology....
A fully differential envelope detector (ED) operating at 2.4GHz is designed in 90nm CMOS technology....
International audienceRecent studies have shown that the power consumption of a wake-up receiver can...
Author Information Zhak: Department of Electrical Engineering and Computer Science, MIT, Cambridge,...
An ultra-low-power RF envelope-detection radio has been designed for low-power short-range wireless ...
This brief presents a trim-less precision envelope detector for fail-safe circuit in LVDS receiver. ...
\u3cp\u3eIn this paper, a new envelope detector design in a 40nm CMOS technology is presented. The d...
International audienceThis paper presents a 130nm CMOS (HCMOS9 from ST-Microelectronics) 6.3 pJ/b ul...
A 98nW receiver with a 23nW active rectifier RF front-end biased in deep subthreshold near the satur...
This paper presents analytical expressions for the sensitivity of a low power envelope detector driv...
International audiencePrevious studies have shown that a transistor's transconductance-to-drain-curr...
A fully differential envelope detector (ED) operating at 2.4GHz is designed in 90nm CMOS technology....
A fully differential envelope detector (ED) operating at 2.4GHz is designed in 90nm CMOS technology....
International audienceRecent studies have shown that the power consumption of a wake-up receiver can...
Author Information Zhak: Department of Electrical Engineering and Computer Science, MIT, Cambridge,...
An ultra-low-power RF envelope-detection radio has been designed for low-power short-range wireless ...
This brief presents a trim-less precision envelope detector for fail-safe circuit in LVDS receiver. ...
\u3cp\u3eIn this paper, a new envelope detector design in a 40nm CMOS technology is presented. The d...
International audienceThis paper presents a 130nm CMOS (HCMOS9 from ST-Microelectronics) 6.3 pJ/b ul...
A 98nW receiver with a 23nW active rectifier RF front-end biased in deep subthreshold near the satur...
This paper presents analytical expressions for the sensitivity of a low power envelope detector driv...
International audiencePrevious studies have shown that a transistor's transconductance-to-drain-curr...