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This paper presents a development platform to generate passive UHF RFID tags compatible with EPCTM C1G2 protocol. The platform is based on one RFID tag IC prototype implemented in a 130nm CMOS technology. Some features of the tag IC include that a voltage multiplier implemented by diode-connected NMOSFETs, a voltage regulator composed of a self-biased mutual compensation without large resistors for...
The increasingly amount of virtual scenes and multimedia data have been the major problems in developing a virtual navigation system. Designers of virtual navigation system need to consider whether the massive data would influence the smoothness of navigation to users, and whether the efficiency of server would be decreased sharply when multiple users are online at the same time. In order to solve...
This paper presents a low-power, passive, EPCtrade C1G2-compatible UHF RFID tag design implemented in a 90 nm CMOS technology. In order to reduce its cost, diode-connected NMOSFETs in a standard CMOS technology is used instead of Schottky diodes. A sub-1 V, low temperature-coefficient voltage reference, using self-biased mutual compensation without large resistors, is proposed to save the chip area...
This paper presents a low-power, passive, UHF RFID tag design compatible with EPCTM C1G2 protocol. In order to reduce its cost, diode-connected NMOS in a standard CMOS technology is used instead of Schottky diodes. With the help of low-threshold-voltage, triple-well NMOS, a minimum input power of -7.6 dBm is achieved. A sub-1 V, low temperature-coefficient voltage reference using self-biased mutual...
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