An ultra low power non-volatile memory is designed in a standard CMOS process for passive RFID tags. The memory can operate in a new low power operating scheme under a wide supply voltage and clock frequency range. In the charge pump circuit the threshold voltage effect of the switch transistor is almost eliminated and the pumping efficiency of the circuit is improved. An ultra low power 192-bit memory with a register array is implemented in a 0.18 mu M standard CMOS process. The measured results indicate that, for the supply voltage of 1.2 volts and the clock frequency of 780KHz, the current consumption of the memory is 1.8 mu A (3.6 mu A) at the read (write) rate of 1.3Mb/s (0.8Kb/s)
This paper presents a novel voltage limiter circuit used in passive RFID tag to avoid possible damag...
In this paper, a passive 2.45GHz band RFID transponder chip for high data rate communication and wit...
As the Internet of Things (IoT) era emerges the need for ultra-low power (ULP) devices is becoming m...
This paper proposes an embedded ultra low power nonvolatile memory in a standard CMOS logic process....
While CMOS continues to be the technology of choice to enable a low-cost Radio Frequency Identificat...
Based on the requirements of the nonvolatile memories embedded in ultra low-power RFID transponders,...
This paper presents an ultra-low power passive UHF Radio Frequency Identification (RFID) tag chip co...
A novel radio receiver circuit, functioning as a tuned active, detecting antenna, is described. The ...
Radio-frequency identification by means of passive tags requires low-cost devices featuring extremel...
An ultra low power digital baseband processor for passive UHF RFID tag which is compatible with the ...
This paper presents a novel low-power digital baseband for UHF RFID tag. The design is complied with...
This paper presents an ultra-low power analog front-end circuit for passive UHF RFID tags. To improv...
This paper presents a high-efficient energy harvest chain for ultra-low power passive UHF RFID tags....
[[abstract]]In this paper, a passive 2.45GHz band RFID transponder chip for high data rate communica...
Battery-less passive sensor tags based on RFID or NFC technology have achieved much popularity in re...
This paper presents a novel voltage limiter circuit used in passive RFID tag to avoid possible damag...
In this paper, a passive 2.45GHz band RFID transponder chip for high data rate communication and wit...
As the Internet of Things (IoT) era emerges the need for ultra-low power (ULP) devices is becoming m...
This paper proposes an embedded ultra low power nonvolatile memory in a standard CMOS logic process....
While CMOS continues to be the technology of choice to enable a low-cost Radio Frequency Identificat...
Based on the requirements of the nonvolatile memories embedded in ultra low-power RFID transponders,...
This paper presents an ultra-low power passive UHF Radio Frequency Identification (RFID) tag chip co...
A novel radio receiver circuit, functioning as a tuned active, detecting antenna, is described. The ...
Radio-frequency identification by means of passive tags requires low-cost devices featuring extremel...
An ultra low power digital baseband processor for passive UHF RFID tag which is compatible with the ...
This paper presents a novel low-power digital baseband for UHF RFID tag. The design is complied with...
This paper presents an ultra-low power analog front-end circuit for passive UHF RFID tags. To improv...
This paper presents a high-efficient energy harvest chain for ultra-low power passive UHF RFID tags....
[[abstract]]In this paper, a passive 2.45GHz band RFID transponder chip for high data rate communica...
Battery-less passive sensor tags based on RFID or NFC technology have achieved much popularity in re...
This paper presents a novel voltage limiter circuit used in passive RFID tag to avoid possible damag...
In this paper, a passive 2.45GHz band RFID transponder chip for high data rate communication and wit...
As the Internet of Things (IoT) era emerges the need for ultra-low power (ULP) devices is becoming m...