1 research outputs found
Design of a low-voltage CMOS RF receiver for energy harvesting sensor node
In this thesis a CMOS low-power and low-voltage RF receiver front-end is presented.
The main objective is to design this RF receiver so that it can be powered by a piezoelectric
energy harvesting power source, included in a Wireless Sensor Node application. For
this type of applications the major requirements are: the low-power and low-voltage
operation, the reduced area and cost and the simplicity of the architecture. The system
key blocks are the LNA and the mixer, which are studied and optimized with greater
detail, achieving a good linearity, a wideband operation and a reduced introduction of
noise.
A wideband balun LNA with noise and distortion cancelling is designed to work at
a 0.6 V supply voltage, in conjunction with a double-balanced passive mixer and subsequent
TIA block. The passive mixer operates in current mode, allowing a minimal
introduction of voltage noise and a good linearity.
The receiver analog front-end has a total voltage conversion gain of 31.5 dB, a 0.1 -
4.3 GHz bandwidth, an IIP3 value of -1.35 dBm, and a noise figure lower than 9 dB. The
total power consumption is 1.9 mW and the die area is 305x134.5 m2, using a standard
130 nm CMOS technology