Thin Film Resistive Sensors

Thin Film Resistive Sensors,

Author : Petru Ciureanu

Publisher : CRC Press

Page : 520 pages

File Size : 20,99 MB

Release : 1992

Category : Art

ISBN :

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Book Description

This book provides a complete overview of thin film resistive sensors.devoted to thin-film devices. Each type of input energy is discussed in a separate chapter. Detailed descriptions are given of the materials, properties, structure and principles of operation of the sensors as well as their main applications. Results of the authors' research and comprehensive reviews of the current literature are included. The scope of this book and its accessible style make it a valuable reference work to graduate scientists and engineers in many disciplines. Written for scientists and engineers using or developing thin film sensors.





Thin Film Magnetoresistive Sensors

Author : S Tumanski

Publisher : CRC Press

Page : 446 pages

File Size : 34,94 MB

Release : 2001-06-08

Category : Science

ISBN : 1420033247

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Book Description

Thin Film Magnetoresistive Sensors presents a comprehensive review of thin film magnetoresistive (MR) sensors, including the theory of MR effects as well as the design, fabrication, properties, and applications of MR sensors. With over 1,000 references, the book fully reviews the theory, development, and use of these sensors. It provides essential information about the performance of various kinds of sensors, including permalloy magnetoresistors, spin valve sensors, multilayer sensors, colossal effect sensors, spin dependent tunneling sensors, and magnetoimpedance sensors.



Micromachined Thin-Film Sensors for SOI-CMOS Co-Integration

Author : Jean Laconte

Publisher : Springer Science & Business Media

Page : 293 pages

File Size : 12,23 MB

Release : 2006-10-11

Category : Technology & Engineering

ISBN : 0387288430

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Book Description

Co-integration of sensors with their associated electronics on a single silicon chip may provide many significant benefits regarding performance, reliability, miniaturization and process simplicity without significantly increasing the total cost. Micromachined Thin-Film Sensors for SOI-CMOS Co-integration covers the challenges and interests and demonstrates the successful co-integration of gas-flow sensors on dielectric membrane, with their associated electronics, in CMOS-SOI technology. We firstly investigate the extraction of residual stress in thin layers and in their stacking and the release, in post-processing, of a 1 μm-thick robust and flat dielectric multilayered membrane using Tetramethyl Ammonium Hydroxide (TMAH) silicon micromachining solution. The optimization of its selectivity towards aluminum is largely demonstrated. The second part focuses on sensors design and characteristics. A novel loop-shape polysilicon microheater is designed and built in a CMOS-SOI standard process. High thermal uniformity, low power consumption and high working temperature are confirmed by extensive measurements. The additional gas flow sensing layers are judiciously chosen and implemented. Measurements in the presence of a nitrogen flow and gas reveal fair sensitivity on a large flow velocity range as well as good response to many gases. Finally, MOS transistors suspended on released dielectric membranes are presented and fully characterized as a concluding demonstrator of the co-integration in SOI technology.



Preparation and Analysis of Platinum Thin Films for High Temperature Sensor Applications

Author : John D. Wrbanek

Publisher : BiblioGov

Page : 30 pages

File Size : 44,39 MB

Release : 2013-07

Category :

ISBN : 9781289262853

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Book Description

A study has been made of platinum thin films for application as high temperature resistive sensors. To support NASA Glenn Research Center s high temperature thin film sensor effort, a magnetron sputtering system was installed recently in the GRC Microsystems Fabrication Clean Room Facility. Several samples of platinum films were prepared using various system parameters to establish run conditions. These films were characterized with the intended application of being used as resistive sensing elements, either for temperature or strain measurement. The resistances of several patterned sensors were monitored to document the effect of changes in parameters of deposition and annealing. The parameters were optimized for uniformity and intrinsic strain. The evaporation of platinum via oxidation during annealing over 900 C was documented, and a model for the process developed. The film adhesion was explored on films annealed to 1000 C with various bondcoats on fused quartz and alumina. From this compiled data, a list of optimal parameters and characteristics determined for patterned platinum thin films is given.



Thick Film Sensors

Author : Maria Prudenziati

Publisher :

Page : 498 pages

File Size : 20,52 MB

Release : 1994

Category : Science

ISBN :

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Book Description

Inaugurating a new Elsevier series, this volume presents the state of the art in thick-film technology. It disseminates the data identifying the actual performances and applications of thick-film sensors manufactured all over the world, and presents ideas underlying current activities in the research and development of new devices. Three major areas are explored in which thick-film technology contributes as a sensor technology, namely hybrid circuits for signal processing, creation of architectural structures, and transducing elements derived from thick-film pastes. Annotation copyright by Book News, Inc., Portland, OR



Microscale Acoustofluidics

Author : Thomas Laurell

Publisher : Royal Society of Chemistry

Page : 593 pages

File Size : 27,10 MB

Release : 2014-12-08

Category : Technology & Engineering

ISBN : 1849737061

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Book Description

The manipulation of cells and microparticles within microfluidic systems using external forces is valuable for many microscale analytical and bioanalytical applications. Acoustofluidics is the ultrasound-based external forcing of microparticles with microfluidic systems. It has gained much interest because it allows for the simple label-free separation of microparticles based on their mechanical properties without affecting the microparticles themselves. Microscale Acoustofluidics provides an introduction to the field providing the background to the fundamental physics including chapters on governing equations in microfluidics and perturbation theory and ultrasound resonances, acoustic radiation force on small particles, continuum mechanics for ultrasonic particle manipulation, and piezoelectricity and application to the excitation of acoustic fields for ultrasonic particle manipulation. The book also provides information on the design and characterization of ultrasonic particle manipulation devices as well as applications in acoustic trapping and immunoassays. Written by leading experts in the field, the book will appeal to postgraduate students and researchers interested in microfluidics and lab-on-a-chip applications.



Functional Thin Films and Nanostructures for Sensors

Author : Anis Zribi

Publisher : Springer Science & Business Media

Page : 224 pages

File Size : 38,39 MB

Release : 2009-04-05

Category : Technology & Engineering

ISBN : 0387686096

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Book Description

This book discusses advances in functional thin films for sensors and novel concepts for future breakthroughs. The focus is on guidelines and design rules for sensor systems, interaction between functional thin films and other sensor subsystems, fundamentals behind the intrinsic functionality in sensing thin films and nanostructures, state-of-the-art technologies used to develop sensors today and concrete examples of sensor designs.



Resistive, Capacitive, Inductive, and Magnetic Sensor Technologies

Author : Winncy Y. Du

Publisher : CRC Press

Page : 412 pages

File Size : 48,72 MB

Release : 2014-12-09

Category : Technology & Engineering

ISBN : 1439812446

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Book Description

Sensor technologies have experienced dramatic growth in recent years, making a significant impact on national security, health care, environmental improvement, energy management, food safety, construction monitoring, manufacturing and process control, and more. However, education on sensor technologies has not kept pace with this rapid development ... until now. Resistive, Capacitive, Inductive, and Magnetic Sensor Technologies examines existing, new, and novel sensor technologies and—through real-world examples, sample problems, and practical exercises—illustrates how the related science and engineering principles can be applied across multiple disciplines, offering greater insight into various sensors’ operating mechanisms and practical functions. The book assists readers in understanding resistive, capacitive, inductive, and magnetic (RCIM) sensors, as well as sensors with similar design concepts, characteristics, and circuitry. Resistive, Capacitive, Inductive, and Magnetic Sensor Technologies is a complete and comprehensive overview of RCIM sensing technologies. It takes a unique approach in describing a broad range of sensing technologies and their diverse applications by first reviewing the necessary physics, and then explaining the sensors’ intrinsic mechanisms, distinctive designs, materials and manufacturing methods, associated noise types, signal conditioning circuitry, and practical applications. The text not only covers silicon and metallic sensors but also those made of modern and specialized materials such as ceramics, polymers, and organic substances. It provides cutting-edge information useful to students, researchers, scientists, and practicing professionals involved in the design and application of sensor-based products in fields such as biomedical engineering, mechatronics, robotics, aerospace, and beyond.



STUDY OF INTEGRATED SEMICONDUC

Author : Bin Li

Publisher : Open Dissertation Press

Page : 166 pages

File Size : 22,85 MB

Release : 2017-01-27

Category : Technology & Engineering

ISBN : 9781374721616

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Book Description

This dissertation, "A study of integrated semiconductor thin-film sensors on sio2/si substrate" by Bin, Li, 李斌, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Abstract of thesis entitled A STUDY OF INTERGATED SEMICONDUCTOR THIN-FILM SENSORS ON SiO /Si SUBSTRATE submitted by Bin Li for the degree of Doctor of Philosophy at the University of Hong Kong in April 2001 With the development of the information technology, the need for miniaturized, intelligent and programmable sensors is rapidly increasing. To meet this trend, developing thin-film sensors on silicon substrate is of great importance. In this thesis, two areas are focused on. One is spreading-resistance temperature (SRT) sensor on silicon on insulator (SOI), while the other is the multi-function thin-film microsensor on SiO /Si substrate. Based on the principle of minority-carrier exclusion effect, SRT sensor on bulk Si is intensively studied. Optimizations of structural parameters and processing conditions on thermal characteristics of SRT sensors are carried out. With appropriately small electrode and high substrate doping, bulk SRT sensor can function at temperatures up to 400 C at a low current of 2 mA. ii SRT sensor on SOI is then investigated with emphasis on its resistance versus temperature (R-T), low-temperature and AC characteristics. Moreover, the effect of Si- film thickness on the maximum operating temperature (T ) is simulated and verified by max experiment results. When the silicon film is sufficiently thin, i.e. 0.1 μm, T can be max significantly raised up to 550 C, even at a very low bias current of 1 μA. Measurements under low-temperature or AC condition reveal that SRT sensor behaves like a conventional resistor. A new microsensor consisting of a thin-film resistor and a metal-insulator- semiconductor (MIS) capacitor is developed by depositing perovskite-type thin film on SiO /Si substrate. SrNb Ti O, Ba La TiO and Ba La Nb Ti O chosen as the 2 x 1-x 3 1-x x 3 1-x x y 1-y 3 sensing film present reasonable multi-function sensitivities to light, heat and humidity. Differences in the sensing properties of the films are related to their chemical compositions and grain boundaries. It is hoped that by varying the chemical composition, processing conditions of the film, better performance could be obtained. Finally, the effects of device structure on the sensitivities of perovskite thin-film microsensors are discussed. A new physical model is proposed for humidity-sensitive MIS capacitor with a metal-perovskite-SiO -Si structure. Based on this model, it is deduced that higher sensitivity of thinner film is due to higher porosity of the film. However, thinner film results in lower sensitivity to illumination due to poorer absorption, iii while the film thickness only has minor effects on the thermal sensitivity. The effects of SiO thickness are studied and experimental results demonstrate that an optimal value of 250 A gives rise to good multi-function sensitivities. The dependence of electrical properties of photoresistor on device dimension is investigated. Devices with smaller electrode spacings show reasonably linear I-V characteristics. Moreover, heat treatment in O for an optimal time can increase the photo sensitivity by suppressing dark current. In conclusion, SOI SRT sensors and perovskite-oxide thin-film microsensors are promising candidates for integrated sensor applications.