M. Matias, J. P. Cunha, P. A. D. Fabbro, D. Mioni, W. Prodanov, M. Pessatti, B. Leite, A. Mariano
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A comparison of high-efficiency UHF RFID rectifiers using internal voltage compensation and zero-threshold-voltage MOSFETs
This paper discusses and compares the design of two high-efficiency 4-stage voltage-doubler UHF RFID rectifier operating at 915 MHz. The first rectifier uses conventional 180-nm CMOS transistors applying a technique of internal cancellation in order to compensate the high value of their threshold voltages (Vth). The second proposed rectifier uses zero-Vth transistors, which are available in a 130 nm CMOS process, eliminating the need for compensation circuitry. The circuit implementing Vth compensation occupies a 0.025 mm2 area, achieving a -12 dBm input sensitivity and a 18% power conversion efficiency (PCE) when supplying a 1.2 V output voltage and a 10 μA load current. For the same load conditions, the circuit including zero-Vth transistors presents a reduced area occupation (0.013 mm2), while providing both improved sensitivity (-14.3 dBm) and a 33% PCE at this sensitivity.
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