RT Journal Article
A1 Jian-Dong Wu
A1 Zhuo-Jia Chen
A1 Jun-Sheng Wang
A1 Lei Zhou
A1 Wei-Jing Wu
A1 Miao Xu
A1 Lei Wang
A1 Ruo-He Yao
A1 Jun-Biao Peng

PB iet
T1 Manchester-encoded data transmission circuit integrated by metal–oxide TFTs suitable for 13.56 MHz radio-frequency identification tag application
JN IET Circuits, Devices & Systems
VO 12
IS 6
SP 771
OP 776
AB This study proposes a Manchester-encoded data transmission circuit suitable for 13.56 MHz radio-frequency identification (ID) tags integrated by indium–zinc–oxide thin-film transistors (TFTs). All the modules in the circuit are only constructed by two types of logic units: NOT gate and NOR gate. The 16 bit ID data are stored in the read-only-memory circuits realised by a fixed TFTs array. The 16 bit ID data are encoded by Manchester module as the output of the Manchester-encoded data transmission circuit with a bit rate of 103 kbps. The chip area is 6.5 mm2 with the total number of gates as 76 and the sum of the transistors as 300. Moreover, the power consumption is 3.8 mW at VDD = 5 V.
K1 frequency 13.56 MHz
K1 InSnO
K1 word length 16 bit
K1 NOT gate
K1 power 3.8 mW
K1 read-only-memory circuit
K1 Manchester-encoded data transmission circuit
K1 RFID tag
K1 metal-oxide TFT
K1 logic unit
K1 bit rate 103 kbit/s
K1 thin-film transistor
K1 radiofrequency identification tag application
K1 NOR gate
K1 voltage 5 V
DO https://doi.org/10.1049/iet-cds.2017.0499
UL https://digital-library.theiet.org/;jsessionid=67faqs0b9u8lu.x-iet-live-01content/journals/10.1049/iet-cds.2017.0499
LA English
SN 1751-858X
YR 2018
OL EN