Development of a low-cost backscattered semi-active RFID tag at 2.4 GHz

The electromagnetic (EM) imaging technique at mm-band 60 GHz is proposed for data encoding purpose in the chipless Radio Frequency Identification (RFID) systems. The fully printable chipless RFID tag comprises tiny conductive EM polarizers to create high cross-polar radar cross-section. Synthetic aperture radar approach is applied for formation of the tag's EM-image and revealing the tag's content. The achieved high data encoding capacity of 2 bits/cm2in this technique based on a fully printable tag is very convincing for many applications. The system immunity to multipath interference, bending effect, and printing inaccuracy suggests huge potentials for low-cost item tagging. Tags are also readable through a tick paper envelop; hence secure identification is provided by the proposed technique.

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A Novel Wireless Thermal Convection Type Angular Accelerometer Integrated with an Active RFID-Tag

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.284-287.2005 ◽

2013 ◽

Vol 284-287 ◽

pp. 2005-2008 ◽

Cited By ~ 2

Author(s):

Jium Ming Lin ◽

Kuo Hsiung Cho ◽

Cheng Hung Lin ◽

Hung Han Lu

Keyword(s):

Thermal Convection ◽

Response Times ◽

Flexible Substrate ◽

Wireless Sensor ◽

Rfid Tag ◽

Active Rfid ◽

Angular Accelerometer ◽

Innovative Idea ◽

Carbon Dioxide Co2 ◽

Oxidation Effect

Five novel ideas are proposed in this paper to integrate an active RFID tag with thermal convection angular accelerometer on a flexible substrate, thus the device is a wireless sensor. The first innovative idea is that this device is without any movable parts, so it is very reliable. The second new idea is that it is made on a flexible substrate, such as plastic or polyimide, thus it can save more power. The third new idea is that the xenon gas is applied in the chamber to conduct the heat instead of the traditional Carbon dioxide. CO2 can produce oxidation effect to the heater and thermal sensors, while the xenon not. The fourth new idea is to apply a hemi-spherical chamber; it is more streamline in nature with less drag effect to ease the fluid flow and yield quicker response. The fifth new idea and the most powerful one is that the angular accelerometer is integrated with an active RFID tag on the same flexible substrate, thus the device becomes a more useful wireless sensor. Note the linearity, sensitivity, and response times of step-input angular accelerations are better for the hemi-spherical chamber filled with Xe gas. The sensitivity is 71.4°C/(rad/s2) and the response time is 60μs.

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A Low-Power Low-Cost 24 GHz RFID Tag With a C-Flash Based Embedded Memory

IEEE Journal of Solid-State Circuits ◽

10.1109/jssc.2014.2323352 ◽

2014 ◽

Vol 49 (9) ◽

pp. 1942-1957 ◽

Cited By ~ 15

Author(s):

Hadar Dagan ◽

Aviv Shapira ◽

Adam Teman ◽

Anatoli Mordakhay ◽

Samuel Jameson ◽

...

Keyword(s):

Low Power ◽

Low Cost ◽

Embedded Memory ◽

Rfid Tag ◽

24 Ghz

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Optimization of a Handwriting Method by an Automated Ink Pen for Cost-Effective and Sustainable Sensors

Chemosensors ◽

10.3390/chemosensors9090264 ◽

2021 ◽

Vol 9 (9) ◽

pp. 264

Author(s):

Florin C. Loghin ◽

José F. Salmerón ◽

Paolo Lugli ◽

Markus Becherer ◽

Aniello Falco ◽

...

Keyword(s):

Printed Electronics ◽

Low Cost ◽

Electronic Devices ◽

Cost Effective ◽

Capacitive Sensor ◽

Fabrication Technique ◽

Rfid Tag ◽

Environmental Friendly ◽

Fast Prototyping ◽

Do It Yourself

In this work, we present a do-it-yourself (DIY) approach for the environmental-friendly fabrication of printed electronic devices and sensors. The setup consists only of an automated handwriting robot and pens filled with silver conductive inks. Here, we thoroughly studied the fabrication technique and different optimized parameters. The best-achieved results were 300 mΩ/sq as sheet resistance with a printing resolution of 200 µm. The optimized parameters were used to manufacture fully functional electronics devices: a capacitive sensor and a RFID tag, essential for the remote reading of the measurements. This technique for printed electronics represents an alternative for fast-prototyping and ultra-low-cost fabrication because of both the cheap equipment required and the minimal waste of materials, which is especially interesting for the development of cost-effective sensors.

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Integration of Active RFID and WSN for real time low-cost data monitoring of patients in hospitals

2013 International Conference on Control, Automation, Robotics and Embedded Systems (CARE) ◽

10.1109/care.2013.6733768 ◽

2013 ◽

Cited By ~ 6

Author(s):

Shah Mihir Rajesh

Keyword(s):

Real Time ◽

Low Cost ◽

Cost Data ◽

Data Monitoring ◽

Active Rfid

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Low-Cost, Ubiquitous RFID-Tag-Antenna-Based Sensing

Proceedings of the IEEE ◽

10.1109/jproc.2010.2051790 ◽

2010 ◽

Vol 98 (9) ◽

pp. 1593-1600 ◽

Cited By ~ 97

Author(s):

Rahul Bhattacharyya ◽

Christian Floerkemeier ◽

Sanjay Sarma

Keyword(s):

Low Cost ◽

Rfid Tag

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High-Density 3D Printable Chipless RFID Tag with Structure of Passive Slot Rings

Sensors ◽

10.3390/s19112535 ◽

2019 ◽

Vol 19 (11) ◽

pp. 2535 ◽

Cited By ~ 5

Author(s):

Zhonghua Ma ◽

Yanfeng Jiang

Keyword(s):

Radio Frequency Identification ◽

Low Cost ◽

Vertical Direction ◽

High Sensitivity ◽

High Density ◽

Frequency Spectra ◽

Rfid Tag ◽

Rectangular Slot ◽

Chipless Rfid ◽

Electric Field Direction

A three-dimensional (3D) printable chipless radio frequency identification (RFID) tag, with high density and sensitivity, is proposed and fulfilled on insulator substrates. By printing a rectangular slot ring and designing specific geometry on the substrate, the printed structure shows high sensitivity in a resonant manner, with the benefits of high density and low cost. Considering the multiple rectangular rings with different sizes in a concentric distribution, a bit coding sequence can be observed in frequency spectra because of the corresponding different resonant frequencies aroused by the printed slots. In this way, the 3D printable chipless RFID tag can be fulfilled by adopting the structure of the rectangular slot ring on the insulated substrates. The main characteristics of the designed rectangular slot rings are verified on both flexible and solid substrates. A 12-bit chipless tag based on the slot ring structures is designed and implemented. The simulation and experiment results show good agreement on its characteristics. The frequency response reveals the fact that the 2th, 3th and 4th harmonic do not exist, which is a unique merit for improving the encoding capacity and the sensitivity of the corresponding reader. The electric field direction of the electromagnetic wave of the reader excitation tag is demonstrated to be wide, up to 90° on the tag horizontal plane, 30° on the vertical direction.

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A Novel Wireless Energy Saving and Reliable Angular Accelerometer on Engineering Polyimide with Xenon Gas Filled in Chamber

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.631-632.1207 ◽

2013 ◽

Vol 631-632 ◽

pp. 1207-1210

Author(s):

Jium Ming Lin ◽

Chien Chow Liaw ◽

Wen Chen Luo ◽

Cheng Hung Lin

Keyword(s):

Thermal Convection ◽

Response Speed ◽

Plastic Substrate ◽

Floating Structure ◽

Rfid Tag ◽

Active Rfid ◽

Angular Accelerometer ◽

Engineering Plastic ◽

Innovative Idea ◽

Oxidation Effect

Four novel ideas are proposed in this paper to integrate an active RFID tag with thermal convection angular accelerometer on an engineering plastic substrate, thus the device is a wireless sensor. The first innovative idea is that this device is without any movable parts, so it is very reliable. The second new idea is that it is made on an engineering plastic substrate, such as polyimide, the thermal conductivity is much lower than silicon, so it can save more power and very useful for mobile operation. The third new idea is that the xenon gas is applied in the chamber for heat convection instead of CO2 used in the traditional thermal convection accelerometer. Carbon dioxide can produce oxidation effect to the heater and thermal sensors, while the inert gas xenon will not. The fourth new idea is the most powerful one to integrate with an active RFID tag on the same substrate, thus it is very useful for mobile operation, and is very easy for usage and fabrication. If one considers sensitivity as the first priority, then choose the floating structure (233°C/(rad/s2)). On the other hand, if the response speed is the requirement, then the non-floating structure is better (70μs).

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