Low-Power Design for Unipolar ITO-Stabilized ZnO TFT RFID Code Generator Using Differential Logic Decoder

Low-Power Design for Unipolar ITO-Stabilized ZnO TFT RFID Code Generator Using Differential Logic Decoder

This article proposes a low-power differential logic (DL) row/column decoder for radio frequency identification (RFID) code generators, which is used to optimize the power consumption of RFID at the circuit level. In addition, a pull-up control ring oscillator (PUC-RO) is also applied to further pow...

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Veröffentlicht in:IEEE transactions on electron devices 2019-11, Vol.66 (11), p.4768-4773
Hauptverfasser: Qin, Yuning, Yeung, Fion S. Y., Wong, Man, Kwok, Hoi Sing, Li, Guoyuan, Xu, Yuming, Chen, Rongsheng, Deng, Sunbin, Zhong, Wei, Wu, Zhaohui, Li, Bin, Li, Guijun
Format: Artikel
Sprache:eng
Schlagworte:
Circuits
CMOS
Decoder
Decoding
differential logic (DL)
Generators
II-VI semiconductor materials
Indium tin oxides
Inverters
Logic gates
low power
metal–oxide thin-film transistors (MO TFTs)
Optimization
Power consumption
Power demand
Radio frequency identification
radio frequency identification (RFID) code generator
Radiofrequency identification
Semiconductor devices
Thin film transistors
Zinc oxide
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Zusammenfassung:This article proposes a low-power differential logic (DL) row/column decoder for radio frequency identification (RFID) code generators, which is used to optimize the power consumption of RFID at the circuit level. In addition, a pull-up control ring oscillator (PUC-RO) is also applied to further power optimization. For comparison, we fabricate three kinds of code generators with unipolar metal-oxide thin-film transistors (MO TFTs) using an indium tin oxide (ITO)-stabilized ZnO active channel layer. The power consumption of the code generator with a DL decoder is reduced by more than 20% under the same supply voltage compared to the conventional pseudo-CMOS design. The power consumption of the code generator with a DL decoder and PUC-RO is reduced by more than 40%. These results reveal a new perspective for power optimization of RFID tags based on TFTs technology.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2019.2942432