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27 results on '"Pesonen, Nadine"'

1. Microelectromechanical components in electrical metrology

Author

Manninen, Antti, Karkkainen, Anu, Pesonen, Nadine, Oja, Aarne, and Seppa, Heikki

Subjects
Physics - Instrumentation and Detectors
Abstract

Microelectromechanical systems (MEMS) can offer a competitive alternative for conventional technology in electrical precision measurements. This article summarises recent work in development of MEMS solutions for electrical metrology. MEMS-based voltage references, RMS-to-DC converters, high frequency power sensors, and reference oscillators are discussed. The main principle of operation of the components is the balance between electrical forces and mechanical spring forces in micromachined silicon structures. In RMS sensors and RMS-to-DC converters, the quadratic voltage dependence of the force between plates of a moving-plate capacitor is utilised, and the operation of the MEMS voltage reference is based on the pull-in phenomenon of a moving-plate capacitor. Advantages of MEMS devices compared to more conventional solutions include small size, low power consumption, low price in mass production, and stability. The drift caused by electrostatic charging effects has turned out to be a major problem. This problem has not yet been solved in DC applications, but it can be circumvented by using AC actuation instead of DC and by compensating the internal DC voltages of the component. In this way, an AC voltage reference with relative drift rate below 2 ppm during a three-week test period has been constructed. Even better stability has been demonstrated with a MEMS-based reference oscillator: no changes in resonance frequency were observed at relative uncertainty level of about 0.01 ppm in a measurement which was continued for more than a month. MEMS components have also been developed for measuring RF and microwave power up to frequencies of about 40 GHz. Unlike conventional high frequency power sensors, which measure the absorbed power, the MEMS device measures the power that is transmitted through the sensor.

Published
2007

3. MEMS-based AC voltage reference

Author

Karkkainen, Anu, Pesonen, Nadine, Tisnek, Nikolai, Seppa, Heikki, Suhonen, Mika, Oja, Aarne S., and Manninen, Antti

Subjects
Accelerometers -- Design and construction, Accelerometers -- Properties, Microelectromechanical systems -- Usage
Published
2005

5. Smart RFID Tags

Author

Pesonen, Nadine, primary, Jaakkola, Kaarle, additional, Lamy, Jerome, additional, Nummila, Kaj, additional, and Marjone, Jouko, additional

Published
2009
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6. Apparatus for Controlling Fermentation of Natural Material

Author

Pesonen, Nadine and Guerre, Roland

Subjects
OtaNano
Abstract

An apparatus (100) for controlling fermentation of natural material. The apparatus (100) includes one or more sensors (102) configured to measure at least one property of natural material (150), a container (104) configured to contain a chemical reactive agent (106) reducing or limiting a fermentation process of the natural material (150); a valve (108) coupled with the container (104); and a controller (110) configured to process the measured at least one property of the natural material (150), and, if the processing meets a predetermined condition, control the valve (108) to open so that the chemical reactive agent (106) is released into the natural material (150) in order to limit the fermentation process of the natural material (150).Patent family as of 16.12.2021AU2017209958 AA 20170727 AU20170209958 20170120 AU2017209958 BB 20200220 AU20170209958 20170120 BR112018014863 A2 20181218 BR20181114863 20170120 CA3011909 AA 20180717 CA20173011909 20170120 CA3011909 C 20201201 CA20173011909 20170120 CN109072165 A 20181221 CN201780013154 20170120 EP3405561 A1 20181128 EP20170703788 20170120 IN201817027171 A 20181123 IN201817027171 20180720 NZ745475 A 20190222 NZ20170745475 20170120 RU2018127554 A 20200226 RU20180127554 20170120 RU2018127554 A3 20200226 RU20180127554 20170120 RU2718731 C2 20200414 RU20180127554 20170120 US2021198614 AA 20210701 US20180071278 20170120 WO17125648 A1 20170727 WO2017FI50031 20170120Link to currentpatent family on right

Published
2017

12. Smart RFID Tags

Author

Pesonen, Nadine

Subjects
Technology & Engineering / Sensors
Abstract

Smart RFID Tags

Published
2009

18. Low-power humidity sensor

Author

Löfgren, Linus, Löfving, Björn, Pettersson, Torbjörn, Ottosson, Britta, Haasl, Sjoerd, Rusu, Cristina, Persson, Katrin, Vermesan, Ovidiu, Pesonen, Nadine, Enoksson, Peter, Löfgren, Linus, Löfving, Björn, Pettersson, Torbjörn, Ottosson, Britta, Haasl, Sjoerd, Rusu, Cristina, Persson, Katrin, Vermesan, Ovidiu, Pesonen, Nadine, and Enoksson, Peter

Abstract

QC 20150430

Published
2008

19. Low-power humidity sensor for RFID applications

Author

Löfgren, Linus, Löfving, B., Pettersson, Torbjörn, Ottosson, Britta, Rusu, Cristina, Haasl, Sjoerd, Persson, Katrin, Vermesan, Ovidiu, Pesonen, Nadine, Enoksson, Peter, Löfgren, Linus, Löfving, B., Pettersson, Torbjörn, Ottosson, Britta, Rusu, Cristina, Haasl, Sjoerd, Persson, Katrin, Vermesan, Ovidiu, Pesonen, Nadine, and Enoksson, Peter

Abstract

Wireless sensors incorporated in RFID systems are important in several industrial, consumer and logisticsapplications. By extending RFID tags to sensing applications, the products become smarter. Application areas forthese smart tags include; health care (verification of the environmental conditions during transport or in storage of e.g.diapers, bandages, etc.), food monitoring (food quality during transport, storage and sales) and construction industry(e.g. building material).In this paper, a small, very low power and low cost humidity sensor tailor made for passive RFID applications ispresented. The sensor consists of a glass chip substrate with a sub-micron interdigitated gold electrode structurecovered with a humidity sensitive polyimide layer. The humidity absorbed by the sensing layer is measuredcapacitively. Finite element modeling and analytic calculations were used to determine the design of the interdigitatedelectrodes and the optimal thickness of the polyimide layer. A read-out electronics circuit was designed and used toevaluate the sensor. Sensors were fabricated and calibrations have been made to verify their function. The sensorresponse was close to linear from below 20 to above 90 %RH and its response time was proven to be at least as shortas that of the climate chamber, namely 0.1 %RH/s. The concept can easily be adapted to measure a range of otherparameters such as temperature or the presence of certain substances., QC 20150429

Published
2008

24. Maximum-Likelihood Estimation for Passive Wireless Intermodulation Communication Sensors.

Author

Jinsong Song, Salmi, Jussi, Viikari, Ville V., and Pesonen, Nadine M. P.

Abstract

Copyright of IEEE Sensors Journal is the property of IEEE and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2015
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25. Realizing frequency division multiple access with passive wireless intermodulation communication sensors.

Author

Song, Jinsong, Pesonen, Nadine, Viikari, Ville, and Seppä, Heikki

Subjects
*WIRELESS sensor networks, *INTERMODULATION, *WIRELESS communications, *FREQUENCY division multiple access, *MULTIPLE access protocols (Computer network protocols)
Abstract

ABSTRACT In this letter, we introduce a frequency division concept for passive wireless sensors utilizing the intermodulation communication principle. This concept enables multiple identifications (IDs) and multiple access protocol when several sensors are within the reading range of the corresponding reader. The ID and multiple access scheme based on frequency division is experimentally demonstrated with 10 binary passive wireless sensors operating simultaneously in the 866 MHz UHF band. © 2015 Wiley Periodicals, Inc. Microwave Opt Technol Lett 57:274-277, 2015 [ABSTRACT FROM AUTHOR]

Published
2015
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27. Wideband Microwave Power Sensor Based on MEMS Technology

Author

Alastalo, Ari, primary, Kyynarainen, Jukka, additional, Seppa, Heikki, additional, Karkkainen, Anu, additional, Pesonen, Nadine, additional, Lahdes, Manu, additional, Vaha-Heikkila, Tauno, additional, Pekko, Panu, additional, and Dekker, James, additional

Published
2004
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