Leena Ukkonen scite author profile

This article focuses on the fabrication and characterization of stretchable interconnects for wearable electronics applications. Interconnects were screen-printed with a stretchable silver-polymer composite ink on 50-μm thick thermoplastic polyurethane. The initial sheet resistances of the manufactured interconnects were an average of 36.2 mΩ/◽, and half the manufactured samples withstood single strains of up to 74%. The strain proportionality of resistance is discussed, and a regression model is introduced. Cycling strain increased resistance. However, the resistances here were almost fully reversible, and this recovery was time-dependent. Normalized resistances to 10%, 15%, and 20% cyclic strains stabilized at 1.3, 1.4, and 1.7. We also tested the validity of our model for radio-frequency applications through characterization of a stretchable radio-frequency identification tag.

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Inkjet-Printed Humidity Sensor for Passive UHF RFID Systems

Virtanen

Ukkonen

Björninen

et al. 2011

IEEE Trans. Instrum. Meas.

195

105

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Abstract-This paper presents a novel inkjet-printed humidity sensor tag for passive radio-frequency identification (RFID) systems operating at ultrahigh frequencies (UHFs). During recent years, various humidity sensors have been developed by researchers around the world for HF and UHF RFID systems. However, to our best knowledge, the humidity sensor presented in this paper is one of the first passive UHF RFID humidity sensor tags fabricated using inkjet technology. This paper describes the structure and operation principle of the sensor tag as well as discusses the method of performing humidity measurements in practice. Furthermore, measurement results are presented, which include air humidity-sensitivity characterization and tag identification performance measurements.Index Terms-Inkjet, radio-frequency identification (RFIF), relative humidity (RH), sensor.

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Chip Impedance Matching for Uhf Rfid Tag Antenna Design

Loo¹,

ElMahgoub²,

Yang³

et al. 2008

PIER

110

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Abstract-Passive UHF RFID tag consists of a microchip attached directly to an antenna. Proper impedance match between the antenna and the chip is crucial in RFID tag design. It directly influences RFID system performance characteristics such as the range of a tag. It is known that an RFID microchip is a nonlinear load whose complex impedance in each state varies with the frequency and the input power. This paper illustrates a proper calculation of the tag power reflection coefficient for maximum power transfer by taking into account of the changing chip impedance versus frequency.

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Effects of metallic plate size on the performance of microstrip patch-type tag antennas for passive RFID

Ukkonen

Sydänheimo

Kivikoski

2005

Antennas Wirel. Propag. Lett.

135

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A Fully Inkjet-Printed Wireless and Chipless Sensor for CO₂and Temperature Detection

et al. 2015

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This paper presents an inkjet printing capacitive microwave sensor for toxic vapor detection. The designed sensors were presented and fabricated with success. The experiments show sensitivity to ethanol vapor according to the S parameters. It is equal to 0.9 kHz/ppm and 1.3 kHz/ppm for the sensors based on 5 and 50 sensitive layers respectively. This sensor will be integrated into real-time multi-sensing platforms adaptable for the Internet of Things (IoT).

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Leena Ukkonen

Screen-Printing Fabrication and Characterization of Stretchable Electronics

Inkjet-Printed Humidity Sensor for Passive UHF RFID Systems

Chip Impedance Matching for Uhf Rfid Tag Antenna Design

Effects of metallic plate size on the performance of microstrip patch-type tag antennas for passive RFID

A Fully Inkjet-Printed Wireless and Chipless Sensor for CO₂and Temperature Detection

Contact Info

Product

Resources

About

Leena Ukkonen

Screen-Printing Fabrication and Characterization of Stretchable Electronics

Inkjet-Printed Humidity Sensor for Passive UHF RFID Systems

Chip Impedance Matching for Uhf Rfid Tag Antenna Design

Effects of metallic plate size on the performance of microstrip patch-type tag antennas for passive RFID

A Fully Inkjet-Printed Wireless and Chipless Sensor for CO2and Temperature Detection

Contact Info

Product

Resources

About

A Fully Inkjet-Printed Wireless and Chipless Sensor for CO₂and Temperature Detection