Sensors Set: A Comprehensive Survey by Wolfgang Göpel, Joachim Hesse, J. N. Zemel

By Wolfgang Göpel, Joachim Hesse, J. N. Zemel

Sensors is the 1st self-contained sequence to accommodate the entire sector of sensors. It describes normal facets, technical and actual basics, building, functionality, functions and advancements of some of the sorts of sensors.

which include 9 volumes altogether, with 8 devoted to a number of subject matters and the 9th as cumulative index, each one quantity deals in-depth details in a single specific box inside sensor technology.

the full set is an necessary reference paintings for either experts and newbies, researchers and builders operating during this interdisciplinary box that levels from examine to advertisement program.

Chapter 1 advent (pages 1–16): Thomas Grandke and Joachim Hesse
Chapter 2 Sensor Parameters (pages 17–43): M. Tabib?Azar
Chapter three Sensor Modeling (pages 45–77): Henry Baltes and Arokia Nathan
Chapter four Sensor layout and Packaging (pages 79–106): Rosemary L. Smith and Scott D. Collins
Chapter five Semiconductor built-in Circuit expertise and Micromachining (pages 107–168): Wen H. Ko and James T. Suminto
Chapter 6 skinny and Thick movies (pages 169–194): Shih?Chia Chang and Wen H. Ko
Chapter 7 built-in Magnetic Sensors (pages 195–215): Henry Baltes and Arokia Nathan
Chapter eight Optical Fibers and built-in Optics (pages 217–245): Emery Lightner Moore and Ramon Perez De Paula
Chapter nine Ceramics and Oxides (pages 247–278): Jorg Arndt
Chapter 10 sign Processing (pages 279–311): Hans?Rolf Trankler
Chapter eleven Multisensor sign Processing (pages 313–330): Rudolf Muller
Chapter 12 shrewdpermanent Sensors (pages 331–353): John Ernest Brignell
Chapter thirteen Interface platforms (pages 355–382): John Atkinson
Chapter 14 automobile: Onboard Sensors (pages 383–405): Isemi Igarashi
Chapter 15 site visitors Surveillance and keep an eye on (pages 407–423): Peter Drebinger
Chapter sixteen domestic home equipment (pages 425–443): Tetsuji Kobayashi
Chapter 17 computerized production (pages 446–474): Jurgen Rogos
Chapter 18 method regulate (pages 475–492): Klaus Hartmann
Chapter 19 power construction (pages 493–527): Rajiv Sachdeva
Chapter 20 Environmental tracking (pages 529–554): Richard B. Brown and Edward T. Zeixers
Chapter 21 clinical Diagnostics and sufferer tracking (pages 555–577): Michael R. Neuman
Chapter 22 Aerospace Instrumentation (pages 579–602): Isidore Warshawsky
Chapter 1 Definitions and general Examples (pages 1–27): Wolfgang Gopel and Klaus?Dieter Schierbaum
Chapter 2 ancient feedback (pages 29–59): Wolfgang Gopel, T. A. Jones†, Wolfgang Gopel, Jay N. Zemel and Tetsuro Seiyama
Chapter three Chemical Sensor applied sciences: Empirical artwork and Systematic study (pages 61–118): Wolfgang Gopel
Chapter four particular Molecular Interactions and Detection ideas (pages 119–157): Wolfgang Gopel and Klaus?Dieter Schierbaum
Chapter five particular good points of Electrochemical Sensors (pages 159–189): Hans?Dieter Wiemhofer and Karl Cammann
Chapter 6 Multi?Component research in Chemical Sensing (pages 191–237): Stefan Vaihinger and Wolfgang Gopel
Chapter 7 Liquid Electrolyte Sensors: Potentiometry, Amperometry, and Conductometry (pages 239–339): Friedrich Oehme
Chapter eight Solid?State Electrochemical Sensors (pages 341–428): Michel Kleitz, Elisabeth Siebert, Pierre Fabry and Jacques Fouletier
Chapter nine digital Conductance and Capacitance Sensors (pages 429–466): Wolfgang Gopel and Klaus?Dieter Schierbaum
Chapter 10 box impact Chemical Sensors (pages 467–528): Ingemar Lundstrom, Albert van den Berg, Bartholomeus H. van der Schoot, Hendrik H. van den Vlekkert, Marten Armgarth and Claes I. Nylander
Chapter eleven Calorimetric Chemical Sensors (pages 529–572): Peter T. Walsh and T. A. Jones†
Chapter 12 Optochemical Sensors (pages 573–645): Otto S. Wolfbeis, Gilbert Boisde and Gunter Gauglitz
Chapter thirteen Mass?Sensitive units (pages 647–680): Maarten S. Nieuwenhuizen and Adrian Venema
Chapter 1 particular positive aspects of Biosensors (pages 717–817): Hanns?Ludwig Schmidt, Wolfgang Schuhmann, Tu Munchen, Friedrich W. Scheller and Florian Schubert
Chapter 2 Chemical Sensors and Instrumentation in Analytical Chemistry (pages 819–846): Michael Oehme
Chapter three Calibration of gasoline Sensors (pages 847–866): Klaus Kaltenmaier
Chapter four functions of Optochemical Sensors for Measuring Chemical amounts (pages 867–930): Otto S. Wolfbeis and Gilbert Boisde
Chapter five purposes of Optochemical Sensors for Measuring Environmental and Biochemical amounts (pages 931–967): Wolfgang Trettnak, Michael Hofer and Otto S. Wolfbeis
Chapter 6 Sensors and tracking structures in Environmental keep watch over (pages 969–979): Konrad Colbow and Karen L. Colbow
Chapter 7 Humidity Sensors (pages 981–1012): Hiromichi Arai and Tetsuro Seiyama
Chapter eight Biosensors for tracking insecticides in Water (pages 1013–1021): Petra Kramer and Rolf Dieter Schmid
Chapter nine Sensors in Biotechnology (pages 1023–1046): Thomas?H. Scheper and Kenneth F. Reardon
Chapter 10 medical and respiratory gasoline research (pages 1047–1093): Hansjorg Albrecht
Chapter eleven Chemical Sensors in medical Diagnostics (pages 1095–1103): Martin Gerber and Karl Wulff
Chapter 12 Solid?State Electrochemical Potentiometric Sensors for gasoline research (pages 1104–1154): Hans?Heinrich Mobius
Chapter thirteen High?Temperature Sensors for Oxidic Glass?Forming Melts (pages 1155–1180): Friedrich Baucke
Chapter 1 common elements (pages 1–10): Teresio Ricolfi and Joachim Scholz
Chapter 2 actual rules (pages 11–68): Ronald E. Bedford
Chapter three Resistance Thermometers (pages 69–118): Luigi Crovini
Chapter four Thermocouples (pages 119–162): Herbert Vanvor
Chapter five Radiation Thermometers (pages 163–223): Teresio Ricolfi and Roy Barber
Chapter 6 Noise Thermometers (pages 225–251): Heinz Brixy
Chapter 7 Time/Frequency Thermometers (pages 253–294): H. Ziegler, H. J. Aulfes and H. Quint
Chapter eight warmth Flux Sensors (pages 295–322): F. van der Graaf
Chapter nine Thermal Mass?Flow Meters (pages 323–343): Martin Hohenstatt
Chapter 10 Cryogenics (pages 345–357): Franco Pavese
Chapter eleven cars (pages 359–376): Gerd Kleinert and Wolfgang Porth
Chapter 12 functional difficulties in approach keep watch over (pages 377–388): Ingo Gessler
Chapter 1 creation (pages 1–32): Richard Boll
Chapter 2 actual ideas (pages 33–42): Kenneth J. Overshott
Chapter three Magnetogalvanic Sensors (pages 43–96): Radivoje Popovic and Wolfgang Heidenreich
Chapter four Magnetoelastic Sensors (pages 97–152): Gerhard Hinz and Heinz Voigt
Chapter five Magnetic box Sensors: Flux Gate Sensors (pages 153–203): Wolfgang Bornhofft and Gerhard Trenkler
Chapter 6 Magnetic box Sensors: Induction Coil (Search Coil) Sensors (pages 205–253): Gunther Dehmel
Chapter 7 Inductive and Eddy present Sensors (pages 255–313): Walter Decker and Peter Kostka
Chapter eight Wiegand and Pulse Cored Induction Coil?Wire Sensors (pages 315–339): Gerd Rauscher and Christian Radeloff
Chapter nine Magnetoresistive Sensors (pages 341–380): Uwe Dibbern
Chapter 10 Squid Sensors (pages 381–445): Hans Koch
Chapter eleven purposes (pages 447–476): Michael R. J. Gibbs and Patrick T. Squire
Chapter 12 tendencies (pages 477–483): Richard Boll
Chapter 1 basics of Electromagnetic Waves (pages 1–16): Elmar Wagner, Karl Spenner and Rene Dandliker
Chapter 2 Propagation of Optical Radiation (pages 17–37): Rene Dandliker, Karl Spenner and Elmar Wagner
Chapter three Optical elements (pages 39–75): H. Buczek
Chapter four ideas of Photoelectric Conversion (pages 77–95): Maurus Tacke
Chapter five basics and barriers of Optical Radiation Measurements (pages 97–115): Heinrich Kaase
Chapter 6 assets for Optical Sensing (pages 117–142): Roland Grisar
Chapter 7 houses of Optical Waveguides (pages 143–172): Peter Stuwe
Chapter eight UV?Visible and close to IR Semiconductor Sensors (pages 173–199): Jorg Angerstein
Chapter nine IR and FIR Sensors (pages 201–232): Michel Royer and Thierry Midavaine
Chapter 10 picture Sensors (pages 233–252): Karl Knop
Chapter eleven Ultrasensitive Detection (pages 253–276): Oswald H. W. Siegmund
Chapter 12 Wavelength delicate Detection (pages 277–306): Werner Schaefer and Michael Zochbauer
Chapter thirteen Optical Phase?Sensitive Detection (pages 307–331): Hans Marguerre
Chapter 14 dimension of Ultrashort Optical Pulses (pages 333–353): Dietrich Von Der Linde
Chapter 15 Optical?Fiber Sensors (pages 354–398): Alan J. Rogers
Chapter sixteen built-in Optic Sensors (pages 399–420): Albrecht Brandenburg, Vladimir Hinkov and Werner Konz
Chapter 17 Optical Rotation Sensors (pages 421–465): Konrad Bohm and Rudger Rodloff
Chapter 18 computer imaginative and prescient and visible Sensors (pages 467–493): Klaus Fritzsch
Chapter 19 Optoelectronic sign Processing (pages 495–513): Neil Colldstos
Chapter 20 Fiber?Optic Sensor Networks (pages 515–528): Brian Culshaw
Chapter 21 using Low?Coherence gentle assets in Fiber?Optic Interferometric platforms (pages 529–550): ok. T. V. Grattan, A. W. Palmer and Y. N. Ning
Chapter 22 Optical floor and Morphology Inspection ideas (pages 551–587): Heinrich Hofler and Michael Seib
Chapter 23 Holographic Interferometry and Speckle tools (pages 589–628): Rene Dandlker and Pierre Jacquot
Chapter 1 advent (pages 1–11): Haim H. Bau
Chapter 2 Thermoelectric Microsensors and Microsystems (pages 13–55): Henry Baltes, David Moser and Fredemann Volklein
Chapter three pressure Gage Sensors (pages 57–103): A. Bray and G. Barbato
Chapter four Capacitive Sensors (pages 105–144): Shih?Chia Chang and Wen H. Ko
Chapter five Piezoresistive Sensors (pages 145–172): Ben Kloeck
Chapter 6 corridor Sensors (pages 173–204): okay. Maenaka
Chapter 7 Resonant Sensors (pages 205–284): Rudolf A. Buser
Chapter eight Ultrasonic Nonresonant Sensors (pages 285–329): Lawrence C. Lynnworth
Chapter nine Sensors for Measuring Acceleration (pages 331–358): Masayoshi Esashi
Chapter 10 Sensors for Measuring Density and Viscosity (pages 359–372): Frank Spieweck
Chapter eleven Sensors for Measuring circulation (pages 373–436): Paolo Vigo and Furio Cascetta
Chapter 12 Sensors for Measuring strength (pages 437–482): G. Barbato and A. Bray
Chapter thirteen Sensors for Measuring Torque (pages 483–512): Dietrich Juckenack
Chapter 14 Sensors for Measuring strain (pages 513–556): Walter G. Alwang
Chapter 15 Sensors for Measuring rigidity (pages 557–576): Morio Onoe and Junichi Takahashi
Chapter sixteen Sensors for Measuring Sound (pages 577–644): Reinhard Lerch
Chapter 1 Sensors in Micro? and Nanotechnology (pages 1–22): Hans Meixner
Chapter 2 method of Microsystem layout (pages 23–50): B. Kloeck and M. Degrauwe
Chapter three Sensors in Microsystems (pages 51–77): Henry Baltes and Carlos Azeredo Leme
Chapter four Three?Dimensional Microsensor know-how (pages 78–133): H.?J. soreness, J. Burck, W. Faubel, W. Hoffmann, J. Reichert, W. Menz, B. Bustgens, J. Mohr, C. Muller, W. Schomberg and M. Strohrmann
Chapter five Acoustic Wave units (pages 135–180): Gerhard Fischerauer, A. Mauder and R. Muller
Chapter 6 High?Temperature Microsensors (pages 181–219): J. Gerblinger, okay. H. Haerdtl, H. Meixner and Robert Aigner
Chapter 7 built-in Optical Sensors: New advancements (pages 221–258): Helmut Teichmann
Chapter eight Optical Microsensors (pages 259–274): H. Bartelt
Chapter nine fabrics in Nanotechnology (pages 275–293): Helmut Schmidt
Chapter 10 Sensors and “Smart” Molecular Nanostructures: elements for destiny info applied sciences (pages 295–336): Wolfgang Gopel
Chapter eleven destiny Nanosensors (pages 337–356): R. Wiesendanger
Chapter 12 tendencies in Sensor applied sciences and Markets (pages 357–363): Robert Jones
Chapter thirteen Aerospace Sensors (pages 365–411): Reinhard H. Czichy
Chapter 14 strategy Sensing and keep watch over (pages 413–430): Michael J. Scott
Chapter 15 clinical and Healthcare Sensors (pages 431–450): V. M. Owen
Chapter sixteen Environmental Sensors (pages 451–489): Keith W. Jones
Chapter 17 car Sensors (pages 491–523): Peter Cockshott
Chapter 18 Sensors in production and caliber insurance (pages 525–538): N. ok. Pratt and Robert Jones
Chapter 1 Contents of Volumes 1 to eight (pages 1–9):
Chapter 2 Cumulative writer Index of Volumes 1 to eight (pages 11–15):
Chapter three Cumulative topic Index of Volumes 1 to eight (pages 17–140):
Chapter four Cumulative checklist of Abbreviations of Volumes 1 to eight (pages 141–162):

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Trends . . . . . . . . . . . . . . . References . . . . . . . . . . . . . . 1 Historical Remarks The industrial field has always been dependant on measuring instruments for the registration of physical parameters. For this reason, the technology of sensors and transducers has a long tradition. Wilhelm von Siemens, for example, built one of the first sensors in 1860. He made use of the temperature dependance of a resistor made of copper wire for temperature measurements.

Resolution of sensors 19 - resonant fiber optic gyro (RFOG) 225f. , 519 sampling - emission-stack 542 - environmental 531 - - discrete 532 - criteria for aerosols 544 - methods, personal 543 SAP see: protocol, Simple Asynchronous 316 SCADA (supervisory control and data acquisition system) 359 scaling of miniaturized sensing elements 94 f. Scharfetter-Gummel approach 61 Schottky barrier 50, 269 screening 36f. Index screen printing - silk 340 - of thick films 175 scribe-and-break techniques 136 sealing - compression 91 - eutectic 91 - hermetically 91 - hermetic low temperature 161 seam tracking 463 seam welding processes 451 secondary-ion mass spectrometry (SIMS) 259 Seebeck coefficients 51 Seebeck effect 499 selective catalytic reduction (SCR) processes 521 selectivity - of sensors 20 - of sensor systems 323 self-generating transduction principle 9 self identification 361 semiconductors 266, 560 - diaphragms 388 - integrated circuit technologies 107ff.

For the purpose of our work, we have to generalize these definitions slightly. Firstly, we also allow for chemical and biochemical quantities, properties, or conditions as being measurands. Secondly, the range of usable outputs needs not be restricted to electrical quantities. Although at present, all kinds of information processing have been performed almost exclusively by using electrical signals, it is conceivable that optical information processing will gain importance in the future, so that optical signals could someday equally well represent a usable output.

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