New analysis and design of a RF rectifier for RFID and implantable devices

Sensors (Basel). 2011;11(7):6494-508. doi: 10.3390/s110706494. Epub 2011 Jun 24.

Abstract

New design and optimization of charge pump rectifiers using diode-connected MOS transistors is presented in this paper. An analysis of the output voltage and Power Conversion Efficiency (PCE) is given to guide and evaluate the new design. A novel diode-connected MOS transistor for UHF rectifiers is presented and optimized, and a high efficiency N-stage charge pump rectifier based on this new diode-connected MOS transistor is designed and fabricated in a SMIC 0.18-μm 2P3M CMOS embedded EEPROM process. The new diode achieves 315 mV turn-on voltage and 415 nA reverse saturation leakage current. Compared with the traditional rectifier, the one based on the proposed diode-connected MOS has higher PCE, higher output voltage and smaller ripple coefficient. When the RF input is a 900-MHz sinusoid signal with the power ranging from -15 dBm to -4 dBm, PCEs of the charge pump rectifier with only 3-stage are more than 30%, and the maximum output voltage is 5.5 V, and its ripple coefficients are less than 1%. Therefore, the rectifier is especially suitable to passive UHF RFID tag IC and implantable devices.

Keywords: diode-connected MOS transistor; passive transponders; power conversion efficiency; radio frequency identification; rectifier.

MeSH terms

  • Equipment Design
  • Prostheses and Implants*
  • Radio Frequency Identification Device*
  • Transistors, Electronic