Radio-frequency identification by means of passive tags requires low-cost devices featuring extremely low power consumption for long reading distance and compatibility to small printed antennas. The paper describes the design and implementation of the key analog blocks in a RFID chip: power supply regulator, local oscillator and ASK demodulator. The proposed local oscillator exhibits a very low power consumption and achieves a frequency tolerance compatible with the requirements dictated by the ISO 18000-6 standards. In addition, an ultra-low power voltage reference and a regulator based on a zero-voltage threshold device are presented. These circuits are suitable to provide a regulated power supply to the local oscillator and to the core logic of the passive device. Measurements on a chip implemented in 0.18 μm digital CMOS technology validate the results obtained from simulations.
Ultra low-voltage analog circuits for UHF RFID devicesin 180 nm CMOS technology / Boni, Andrea; Facen, Alessio. - In: ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING. - ISSN 0925-1030. - 63:(2010), pp. 359-367. [10.1007/s10470-009-9414-7]
Ultra low-voltage analog circuits for UHF RFID devicesin 180 nm CMOS technology
BONI, Andrea;FACEN, Alessio
2010-01-01
Abstract
Radio-frequency identification by means of passive tags requires low-cost devices featuring extremely low power consumption for long reading distance and compatibility to small printed antennas. The paper describes the design and implementation of the key analog blocks in a RFID chip: power supply regulator, local oscillator and ASK demodulator. The proposed local oscillator exhibits a very low power consumption and achieves a frequency tolerance compatible with the requirements dictated by the ISO 18000-6 standards. In addition, an ultra-low power voltage reference and a regulator based on a zero-voltage threshold device are presented. These circuits are suitable to provide a regulated power supply to the local oscillator and to the core logic of the passive device. Measurements on a chip implemented in 0.18 μm digital CMOS technology validate the results obtained from simulations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.