a high-efficiency cmos rectifier for low-power rfid tags

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Abstract: In this paper, a high-efficiency highly sensitive CMOS rectifier for radio-frequency identification (RFID) tags is presented. Although the minimum RF input signal amplitude for which the rectifier operates properly is lower than the standard threshold voltage of the MOS . A bridge rectifier based on the cross-connected NMOS-PMOS bridge that avoids the inherent degradation of power conversion efficiency for increasing input levels is presented .

Abstract: In this paper, a high-efficiency highly sensitive CMOS rectifier for radio-frequency identification (RFID) tags is presented. Although the minimum RF input signal amplitude for which the rectifier operates properly is lower than the standard threshold voltage of the MOS transistors, the design uses only standard-threshold-voltage .

A bridge rectifier based on the cross-connected NMOS-PMOS bridge that avoids the inherent degradation of power conversion efficiency for increasing input levels is presented and allows for low-power, passive tag implementation in standard CMOS for both LF and HF RFID applications. With a simple and power efficient circuit solution the new rectifier allows for low- power, passive tag implementation in standard CMOS for both LF and HF RFID applications.Abstract—In this paper, a high-efficiency highly sensitive CMOS rectifier for radio-frequency identification (RFID) tags is presented.

Abstract: A high-efficiency CMOS rectifier for radio-frequency identification (RFID) applications is presented. Using an on-chip generated clock signal, a new switching scheme is proposed to enhance the power efficiency of the conventional 4 transistor (4T)-cell rectifier.Post-layout simulations show that the proposed single-stage rectifier achieves a power conversion efficiency (PCE) > 10% and produces output voltage > 160 mV (at 300 kΩ load) when receiving a 2.4 GHz signal with average power of -30dBm.

In this paper, a high-efficiency highly sensitive CMOS rectifier for radio-frequency identification (RFID) tags is presented. Although the minimum RF input signal amplitude for which the rectifier operates properly is lower than the standard threshold voltage of the MOS transistors, the design uses only standard-threshold-voltage (standard-V< . In this work, we aim to maximize the rectifier output power for a given operating range instead, with the proposed piece-wise linear model of the rectifier which is applicable for high PCE operation. We develop a new design methodology for multi-stage rectifiers which promise the high PCE.

A high-efficiency CMOS rectifier with low start-up voltage for ultra-high-frequency (UHF) radio-frequency identification (RFID) applications is presented and achieves a PCE of 54% for a small input signal with an amplitude of 200 mV (-19 dBm). A high-efficiency CMOS rectifier with low start-up voltage for ultra-high-frequency (UHF) radio-frequency identification (RFID) applications is presented and achieves a PCE of 54% for a small input signal with an amplitude of 200 mV (-19 dBm).Abstract: In this paper, a high-efficiency highly sensitive CMOS rectifier for radio-frequency identification (RFID) tags is presented. Although the minimum RF input signal amplitude for which the rectifier operates properly is lower than the standard threshold voltage of the MOS transistors, the design uses only standard-threshold-voltage . A bridge rectifier based on the cross-connected NMOS-PMOS bridge that avoids the inherent degradation of power conversion efficiency for increasing input levels is presented and allows for low-power, passive tag implementation in standard CMOS for both LF and HF RFID applications.

With a simple and power efficient circuit solution the new rectifier allows for low- power, passive tag implementation in standard CMOS for both LF and HF RFID applications.Abstract—In this paper, a high-efficiency highly sensitive CMOS rectifier for radio-frequency identification (RFID) tags is presented.

Abstract: A high-efficiency CMOS rectifier for radio-frequency identification (RFID) applications is presented. Using an on-chip generated clock signal, a new switching scheme is proposed to enhance the power efficiency of the conventional 4 transistor (4T)-cell rectifier.Post-layout simulations show that the proposed single-stage rectifier achieves a power conversion efficiency (PCE) > 10% and produces output voltage > 160 mV (at 300 kΩ load) when receiving a 2.4 GHz signal with average power of -30dBm.

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In this paper, a high-efficiency highly sensitive CMOS rectifier for radio-frequency identification (RFID) tags is presented. Although the minimum RF input signal amplitude for which the rectifier operates properly is lower than the standard threshold voltage of the MOS transistors, the design uses only standard-threshold-voltage (standard-V< . In this work, we aim to maximize the rectifier output power for a given operating range instead, with the proposed piece-wise linear model of the rectifier which is applicable for high PCE operation. We develop a new design methodology for multi-stage rectifiers which promise the high PCE. A high-efficiency CMOS rectifier with low start-up voltage for ultra-high-frequency (UHF) radio-frequency identification (RFID) applications is presented and achieves a PCE of 54% for a small input signal with an amplitude of 200 mV (-19 dBm).

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a high-efficiency cmos rectifier for low-power rfid tags|A high

a high-efficiency cmos rectifier for low-power rfid tags|A high.

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