Proceedings of the 1997 IEEE International Frequency Control Symposium: 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A.
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| Format: | Tagungsbericht Buch |
| Sprache: | English |
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New York, NY
IEEE
1997
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVII, 1058 S. graph. Darst. |
| ISBN: | 0780337298 |
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| 111 | 2 | |a International Frequency Control Symposium |n 51 |d 1997 |c Orlando, Fla. |j Verfasser |0 (DE-588)5305608-5 |4 aut | |
| 245 | 1 | 0 | |a Proceedings of the 1997 IEEE International Frequency Control Symposium |b 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. |
| 264 | 1 | |a New York, NY |b IEEE |c 1997 | |
| 300 | |a XVII, 1058 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 7 | |a Oscillateurs - Congrès |2 ram | |
| 650 | 7 | |a Résonateurs - Congrès |2 ram | |
| 650 | 7 | |a Stabilité de fréquence - Congrès |2 ram | |
| 650 | 7 | |a Synthétiseurs de fréquence - Congrès |2 ram | |
| 650 | 4 | |a Oscillators, Crystal |v Congresses | |
| 650 | 4 | |a Radio frequency |v Congresses | |
| 655 | 7 | |0 (DE-588)1071861417 |a Konferenzschrift |2 gnd-content | |
| 856 | 4 | 2 | |m Digitalisierung TU Muenchen |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008350962&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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| adam_text | TABLE
OF
CONTENTS
Page No.
AWARD
PRESENTATIONS
1997
Award Winners
..................................................................................................................................... 1
PLENARY
PAPER
Spontaneous Synchronization in Nature
........................................................................................................ 2
S.H.
Stregate,
Cornell University
SENSORS
Comparison between
BAW
and SAW Sensor Principles (INVITED)
........................................................... 5
E. Benes, M.
Gröschl, F. Seifert
and
Α.
Pohl,
Vienna University of Technology, Austria
An Acoustic Plate Mode Study of Complementary and Non-Complementary
Antigen/Antibody Reactions (INVITED)
....................................................................................................... 21
R. Dahint, F. Bender and M.
Grunze, Universität
Heidelberg, Germany
Magnetically-Excited Flexural Plate Wave Resonator
................................................................................... 25
S.J.
Martin,
M.A. Butler, J.J. Spates, W.K. Schubert and M.A. Mitchell,
Sandia
National
Laboratories
A Novel Monolithic Piezoelectric Sensor
......................................................................................................
32
M.G. Schweyer, J.A. Hilton, J.E. Munson and J.C. Andle, BIODE, Inc.;
J.M. Hammond and R.M. Lee, University of Maine
A Temperature Insensitive Quartz
Microbalance
.......................................................................................... 41
D.E.
Pierce, U.S. Army Research Laboratory;
Y. Kim and J.R.
Vig,
U.S. Army Communications-Electronics Command
Quartz Crystal
Microbalance
in Electroanalytical Applications
.................................................................... 49
P.
Vanýsek,
Normern
Illinois University
A Chemical Sensor
Wim
Improved Selectivity Using a Modified-Electrode QCR
....................................... 56
R. Zhou, A. Menon and
F. Josse,
Marquette
University
Using a Quartz Crystal
Microbalance
G.M. Riker and A.W. Czanderna, National Renewable Energy Laboratory
An Acoustic Automotive Engine Oil Quality Sensor
.................................................................................... 72
J.M. Hammond, R.M. Lee, X.J. Zhang and D.G. Lftby, University of
Mame;
L.A.
Prager,
Control Devices Inc.
Three Layer Thickness Extensional Mode Piezoelectric Resonator for Determining Density and
Sound Velocity of Liquids
............................................
^. ¿Г
...........
JZ Z
......
Zl
....................
В
Devcic-Kuhar, D. Haner, R.
ТћаШаттег,
M.
GröschL
E.
Benes
and H.
Nowotny,
Vienna University of Technology, Austria; F. Trampler, SonoSep Biotech Inc.,
Vancouver,
B.C.,
Canada
Electrochemical Piezoelectric Sensors
for Trace Ionic Contaminants
........................................................... 90
J.
Andle,
M.
Schweyer,
J.
Munson,
R.
Roderick and
D.
McAllister, BIODE;
L. French,
J. Vetelino, C
Watson, J. Foley, A. Brace and M. Bruce, University of Maine
Comparison of Lumped-Element and Transmission-Line Models for Thickness-Shear-Mode
Quartz Resonator Sensors
.............................................................................................................................. 96
R.W. Cemosek and
SJ.
Martin,
Sandia
National Laboratories;
A.R. Hillman and H.L. Bandey, University of Leicester, United Kingdom
Viscosity Sensor Based Upon an Angular Momentum Compensated Piezoelectric Thickness
Shear Sandwich Resonator
.............................................................................................................................
Ю5
R.
Thalhammer,
S.
Braun,
В.
Devcic-Kuhar,
M.
GröschL F. Trampler,
E. Benes
and H.
Nowotny,
Vienna University of Technology, Austria; M. Kostal,
M. Hniskovic and
J. Hríbik,
Slovak Technical University, Slovak Republic
Mass Response of me Thickness-Shear Mode Acoustic Wave Sensor in Liquids as a Central
Misleading Dogma
......................................................................................................................................... 114
M. Thompson, University of Toronto; G.L. Hayward, University of Guelph, Canada
SAW and QMB for Chemical Sensing
.......................................................................................................... 120
F.L. Dickert, P. Form and M. Tortschanoff, Vienna University, Austria;
W.E. Bulst, G. Fischerauer and U. Knauer, Siemans Corporate Research and
Development, Germany
Biosensing
Wim
Surface Acoustic Wave Devices
......................................................................................... 124
M. vonSchickfus, W.
Welsch,
M.
Weiß,
S. Hunklinger,
Institut fur
Angewandte Physik,
Germany
SAGAS:
Gas Analyzing Sensor Systems Based on Surface Acoustic Wave Devices
—
an Issue
of Commercialization of SAW Sensor Technology
....................................................................................... 129
M.
Rapp,
J.
ReibeL
S.
Stier,
Α.
Voigt,
and J. Bahlo,
Forschungszentrum
Karlsruhe GmbH, Germany
A Surface Acoustic Wave Mercury Vapor Sensor.
........................................................................................ 133
J
J. Caron, RJB. HaskelL D.G. Libby and C. J. Freeman, Sensor Research
and Development Corporation; IP.
Vetelino,
University of Maine
Performance
Optimization of Surface Acoustic Wave Chemical Sensors...
.................................................. 140
RA. McGill and
DB. Chrisey,
Naval Research Laboratory;
Т.Е.
Mlsna, J.L.
Stepnowslä
and R. Chung, Geo-Centers Inc.; H. CotaL
SFA
Inc.
Comparison of Surface Transverse Wave (STW) and Shear Horizontal Acoustic Plate
Mode (SHAPM) Devices for Biochemical Sensors
....................................................................................... 147
M.G. Schweyer, J.T. Weaver, J.C. Andk and
DJ.
McAllister, BIODE, Inc.;
L. French and
J. Vetelino,
University of Maine; JJ. Height, US Army, ERDEC
A Surface Acoustic Wave Nitric Oxide Sensor ^
.......................................................................................... 156
JJCaroi^LJ. LcGore, D.G. Libby and
С
J. Freeman,
Sensor Research and Development Corporation;
T.D.
Kemy
and J.Vetebno, University of Maine
Temperatore-Concensated SH-APM Sensors: New
ТЬеокгісяі
aiid Experimental Results
..............____. 163
C. DeJous,
I. Esteban,
D.
Rebière
and J.
Pistié,
Université
Bordeaux
I;
R.
Planade,
Сайге
d Études de Boucbet, France
Phase
Noise Characterization of Polymer Coated-SAW Gas Sensors: Implications for the
Performance of an Oscillator Circuit
............................................................................................................. 169
R. Chung,
Geo-Centers; R.A.
McGill and P. Matthews, Naval Research Laboratory
Quartz Thickness-Shear Mode Pressure Sensor Design for Enhanced Sensitivity
........................................ 175
L.D. Clayton and E.P. EerNisse, Quartzdyne, Inc.
Torsionai
Vibration of Quartz Crystal Beams With Static Axial Loads and Its Application to Sensors
....... 183
H. Kawashima and K. Sunaga, Seiko Instruments Inc.;
S. Yamagata, Hokkaido University of Education, Japan
Design and Fabrication of a Dual Axial Gyroscope with Piezoelectric Ceramics
......................................... 189
H. Ryoo, Y. Lee and Y.
Roh, Kyungpook
National University, Korea
Ultrasonic Attenuation Spectroscopy of Industrial Slurries
........................................................................... 196
A. Sharma and H.P. Pendse, University of Maine
Sweep Linearization of a Microwave FMCW
Doppler
Sensor by an Ultrasonic Reference
......................... 201
H. Ruser,
Siemens
AG;
V. Mágori,
Universität der Bunderwehr München,
Germany
Gravimetric Sensitivity of Transverse Waves Trapped by Metal Gratings on Thin Quartz Plates
................ 207
J.B. Briot, S.
Baliandras,
E.
Bigler
and
G.
Martin,
Universite
de
Franché-Comté-Besançon, France
ATOMIC CLOCKS. RELATED CIRCUITRY. SPACE APPLICATIONS. GPS
A Space Clock Prototype Using Cold Cesium Atoms (INVITED)
................................................................ 213
P. Lemonde and
С
Salomon,
Laboratoire
Kastler
Brosséi;
P. Laurent,
E.
Simon,
G. Santarelli and A. Clairon, BNM-Laboratoire Primaire du Temps et des Fréquences;
N.
Dimarcq, P. Petit
and C. Audoin,
Université Paris-Sud;
F. J. Changeait and F. Gonzalez, Centre National d Etudes Spatiales, France
An
All-Diode-Laser Optical Frequency Reference Using Laser-Trapped Calcium.
...................................... 219
С
W.
Oates,
M.
Stephens and L.
Hollberg,
National Institute of Standards and Technology
Radio Frequency Measurements of Cloud Size in a Linear Ion Trap
............................................................ 225
J.D.
Prestage,
R.L.
Tjœlker
and
L.
Maleki, Jet Propulsion Laboratory
Light Frequency Shift in Small Optically Pumped Cesium Beam Frequency Standards
.............................. 228
D. Yang and J. Chen, Peking University, P.R. China
Towards a Solution to me Field Uniformity Problem in me High Field Cesium
Beam Frequency Standard
............................................................................................................................. 234
A. DeMarchi and M. Siccardi,
Politecnico di
Torino, Italy;
V. Barychev, MVP-VNJJFTRL Russia
A Cesium Beam Atomic Clock Computer Model:
П.
The Clock Signal
..................................................... 240
B. Jaduszliwer, The Aerospace Corporation
An Investigation for Combining Optical and
Magnetica!
State Selector in the
Cesium Beam Installation
.............................................................................................................................. 245
H. Bingying, Z. Shougang, G. Yunqing, W. Changhua,
National Institute of Metrology, China
Analysis of Frequency Biases and Noise in Sampled Digital Frequency Servos
for Primary Frequency Standards
................................................................................................................... ^49
W.D. Lee, J.H. Shirley and R.E. Dmllinger, National Institute of Standards and Technology
Laser PM to AM Conversion in Atomic Vapors and Short Term Clock Stability
......................................... 253
J.C. Camparo and W.F. Buell, The Aerospace Corporation
3:1
Optical Frequency Division by Difference-Frequency Mixing in Periodically Poled Lithium
Niobáte
.. 259
P. Nee and N.C. Wong, Massachusetts Institute of Technology
Generalisation of the Dick Effect to Continuous Beam Frequency Standards
............................................... 263
A. Makdissi, E. deClercq and
A. Clairon, Laboratoire Primaire du Temps et
des Fréquences
-
BNM;
С
Audoin,
Universite
Paris-Sud, France
Observation
of
Thermal
Hysteresis in Atomic
Clocks,
and Its
Impact on
Timekeeping
............................... 270
B.
Jaduszliwer and
N.
Bhaskar,
The Aerospace
Corporation;
N.
Russo,
US Air Force
Environmental Sensitivities of Cavity-Tuned Hydrogen
Masers................................................................... 273
Т.Е.
Parker,
J.E.
Gray and
Т.К.
Peppier, National Institute of Standards and Technology
Hydrogen
Maser
Improvements
&
Future Applications
................................................................................ 280
H.E. Peters, STSC, Incorporated; H.B. Owings, Frequency and Time Systems, Inc.
Influence of the Various Factors on the Passive Hydrogen
Maser
Frequency Instability
.............................. 286
S.A.
Kozlov and V.A. Logachev, Institute of Electronic Measurements Kvarz , Russia
Analysis of the Frequency Stability History of GPS NAVSTAR Clocks
...................................................... 295
T.B. McCaskilL U.S. Naval Research Laboratory
Delay Variations in Some GPS Timing Receivers
......................................................................................... 304
M. Weiss, V. Zhang, L. Nelson and V.
Hanns,
National Institute of Standards and Technology;
M.G.
Lopez Regaldo,
Centro Nacional de
Metrologia,
Mexico
Test
Results and Analysis of a Low Cost Core GPS Receiver for Time Transfer Applications
.................... 314
ÌB.
Bullock, T.M. King, H.L. Kennedy, E.D. Berry and G. Zanfino, Motorola
Position and Navigation Systems Business
Instability of Differential Time Between GPS Receivers
.............................................................................. 323
J.
Čermák,
Institute of Radio Engineering and Electronics, Czech Republic
On-Orbit Performance of Milstar Rubidium and Quartz Frequency Standards
............................................. 329
NO.
Bhaskar
and
A.D.
Matt, The Aerospace Corporation;
N.
Russo,
USAF Space and Missile Systems Center;
T. McClelland, M. Bloch and M. Meirs, Frequency Electronics, Inc.
Draft Revision of
ШЕЕ
STD
1139-1988
Standard Definitions of Physical Quantities
for Fundamental Frequency and Time Metrology
-
Random Instabilities
..................................................... 338
ES.
Ferre-Pikal and FX. Walk, National Institute of Standards and Technology;
JA. Vig,
Anny
Communications-Electronics Command;
J.C.
Camparo, Aerospace Corporation; L.S. Cutter, Hewlett-Packard;
L.
Maklo,
Jet Propulsion Laboratory;
W
J. Räey,
EG&G,
Inc;
S.R.Steir^TiimngSototioMCoipoTatio^C.Tho^
France; JJD. White, Naval Research Laboratory
STABILITY. MEASUREMENT. TIMEKEEPING
Does Allan Variance Determine the Spectrum? (INVITED)
......................................................................... 358
CA. Greenhall, Jet
Propulsion Laboratory
Traceability of Frequency Control Systems
................................................................................................... 366
J.S.
Boulanger
and R.J. Douglas,
Institute for National Measurement Standards, Canada
Micro-Jump Screening Station for GPS User Equipment
.............................................................................. 373
L.D. Vittorini, Rockwell International
A Time Scale Based on Optimum Linear Prediction
...................................................................................... 382
A. Lepek,
Newton Metrology Ltd., Israel
On Uncertainty of the Interpolating Time Interval Meters
............................................................................. 388
V. Denisov,
N.
Koshelyaevsky and A. Novosyolov, Institute of
Metrology for Time and Space GP VNHFTRI , Russia
Time Synchronization Using the Internet
....................................................................................................... 395
K.W. Monington,
JILA
and University of Colorado;
J.
Levine,
JILA, NIST
and University of Colorado
First Year Results of the International Comparison of UTC (CENAM)
........................................................ 404
J.M.
López-Romero,
V. Molina-Lopez and J.M. Figueroa-Estrada,
Centro Nacional
de Metrologia,
México
A
Microwave Two-Way Time Transfer Experiment
...................................................................................... 408
C.S. Liao, H.T. Lin, T.Y. Cheng, S.Y. Lin and J.L. Shi,
Telecommunication Laboratories, MOTC, Taiwan
Optimum Precise-Clock Prediction and Its Applications
............................................................................... 412
S. Zhu, Shaanxi Astronomical Observatory, P.R. China
Some New Methods for Precision Time Interval Measurement
..................................................................... 418
W. Zhou, Z. Xuan, J. Yu, Xidian University, P.R. China
Optimum Precise-Clocks Synthesis
................................................................................................................ 422
S. Zhu, Shaanxi Astronomical Observatory, P.R. China
A Frequency-Drift Estimator and Its Removal from Modified Allan Variance
............................................. 428
CA. Greenhall, Jet
Propulsion Laboratory
Noise Model for Frequency Translators and Transposed-Gain Amplifiers
.................................................... 433
J.F. Garcia-Nava,
Centro Nacional
de Metrologia,
México;
E.S.
Ferre-Pikal and F.L. Walls,
National
Institute of Standards and Technology
Improving the Short-Term Stability of Laser Pumped RB Clocks by Reducing the
Effects of the Interrogation Oscillator
............................................................................................................ 438
J.Q. Deng, Wuhan Institute of Physics, P.R. China; G. Mileti, D.A. Jennings,
R.E. DrulUnger and F.L. Walls, National Institute of Standards and Technology
1/F AM and PM Noise in Bipolar Transistor Amplifiers: Sources, Ways of Influence,
Techniques of Reduction
................................................................................................................................ 446
V.N. Kuleshov and T.I. Boldyreva, Moscow Power Engineering Institute, Russia
xi
Numerical Model of Phase Bridge Method Used for Measuring the Phase Modulation
Noise in Quartz Crystal Resonator Pair
......................................................................................................... 456
F. Sthal and
M. Mourey, Ecole Nationale Supérieure
de Mécanique et des Microtechniques, France
Incoherence and Negative Entropy in the Quantum 1/f Effect of
BAW
and SAW Quartz Resonators
.......... 464
P.H. Handel, University of Missouri
Comparison of 1/f PM Noise in Commercial Amplifiers
............................................................................... 470
M.C. Delgado
Aramburo, E.S. Ferre-Pikal, F.L. Walls and H.D. Ascarrunz,
National Institute of Standards and Technology
Low PM Noise Regenerative Dividers
........................................................................................................... 478
E.S. Ferre-Pikal and F.L. Walls, National Institute of Standards and Technology
Suppressed Carrier Based PM and AM Noise Measurement Techniques
..................................................... 485
F.L. Walls, National Institute of Standards and Technology
On the Problem of Oscillator Phase-Noise Reduction
................................................................................... 493
A. Dvomikov and V. Korobov, Moscow Power Engineering Institute, Russia
A New Time-Domain Model of Precise-Clock Noise
................................................................................... 496
S. Zhu, Chinese Academy of Sciences, P.R. China
A Phase Noise Model to Improve the Frequency Stability of Ultra Stable Oscillator
................................... 502
M. Mourey, S. Galliou, R.J. Besson,
Ecole Nationale Supérieure
de Mécanique et des Microtechniques, France
Advanced Phase
Detection
Technique
for the Real Time Measurement and
Reduction of
Noise
in Components
&
Oscillators.........................................................................................
509
С.
McNeilage, J.H.
Searls and P.R.
Stockwell, Poseidon
Scientific
Instruments
Pry Ltd;
E.N.
Ivanov, M.E.
Tobar
and R.A. Woode, University of Western Australia, Australia
On Wavelet Variance
..................................................................................................................................... 515
K. Xizheng, Shaanxi Astronomical Ob servatory; and W. Zhensen, Xi dian University, China
MATERIALS, RESONATORS: BAWfSAWfSTW
A Parametric Study of Line Deflects in Synthetic Quartz Crystal
................................................................. 519
K. Nagai, K. Hamaguchi, K.
Kita
and J. Asahara,
Toyo Communication Equipment Co., Ltd., Japan
The Use of Fourier Transform Infrared Spectroscopy for Alpha Determination of Quartz
........................... 527
J.W. Foise, Sawyer Research Products, Inc.
A Typical Defect in the Bridgman-Grown
LBO
Crystals
..................................................................... 536
SJ. Fan, R.Y. Sun, J.Y. Xu, G.Y. Zhang and Y.F. Lin,
Chinese Academy of Sciences, P.R. China
Super High Electromechanical Coupling and Zero-Temperature Coefficient Surface
Acoustic Wave Substrates in
КЫЬОз
Single Crystal
_______.______,..„....................................... 540
K. Yamanouchi, H. Odagawa, T.
Kojima
and T. Matsumura,
Tohoku Umversityľjapäu
xii
Ultrasonic Properties of PZT Thin Films in UHF-SHF Ranges
-
Prepared by Sol Gel Method
................... 544
M. Yamaguchi, K. Hashimoto and R. Nanjo,
Chiba
University;
N.
Hanazawa, S. Ttsutsumi and T. Yonezawa, Mitsubishi Material Corporation, Japan
A Brief Review of Progress in Quartz Tuning Fork Resonators (INVITED)
................................................. 552
E. Momosaki, Seiko Epson Corporation, Japan
Optimization of the Design of the Resonators Using the New Materials:
Application to Gallium Phosphate and Langasite (INVITED)
....................................................................... 566
J.
Détaint,
A. Zarka and B. Capelle, LM-CP.
Universités
Paris VI, Paris
VII et
CNRS;
D. Palmeir and E. Philippot, L.P.M.S.
Université de Montpellier et CNRS, France
The Force-Frequency Effects and Their Frequency Turn-Over Temperature Characteristics
For SC-Cut Quartz Resonators
....................................................................................................................... 579
M. Nakazawa and T. Michida, Shinshu University, Japan
An Analysis of Frequency Temperature Characteristics vs. Film Thickness of
Electrodes for AT-Cut Resonators
................................................................................................................. 588
M. Nakazawa and M. Suzuki, Shinshu University, Japan
Frequency Shifts Minimization Experiments for Miniature Surface-Mount RF Crystals
.............................. 596
I. Alhayek and J. Voissem, Motorola
A New Low Profile Coldweld Package
......................................................................................................... 605
Т.Е.
Wickard and W.P. Hanson, Piezo Crystal Company;
G.P.
Bal,
Pennsylvania State University
Determination of Blank Orientation by Using Reflection Spectroscopy
....................................................... 613
P.
Zecchini
and
H. Mérigoux, Université de Franche-Comté, France
Analysis of the Effects of Mounting Stresses on the Resonant Frequency of Crystal Resonators
................. 621
J.T. Stewart and
D.S.
Stevens, Vectron Technologies, Inc.
Mounting Characterization of a Piezoelectric Resonator Using
FEM
........................................................... 630
С.
Gehin,
S.
Samper and
Y. Teisseyre, Université de Savoie,
France
Using
FEA
to Treat Piezoelectric Low-Frequency Resonators
..................................................................... 634
J.
Söderkvist,
Colibrì
Pro Development
AB,
Sweden
Three Dimensional Finite Element Modeling of Quartz Crystal Strip Resonators
........................................ 643
J.T. Stewart and
D.S.
Stevens, Vectron Technologies, Inc.
Finite Element Analysis of the Piezoelectric Vibrations of Quartz Plate Resonators
With Higher-order Plate Theory
.................................................................................................................... 650
J. Wang, Epson Palo Alto Laboratory; Y-K. Yong, Rutgers University;
T. Imai, Seiko Epson Corporation, Japan
Piezoelectrically Forced Vibrations of Rectangular SC-cut Quartz Plates
.................................................... 659
P.C.
Y. Lee and W.S. Lin, Princeton University
An Analysis of Contoured
Quartz
Resonators with Beveled Cylindrical Edges
Using me Correct Variation of Thickness
...................................................................................................... 668
L. Huang and H.F.
Tiersten,
Rensselaer Polytechnic Institute;
J.S. Yang, University of Nebraska
Xl 11
The Frequency-Temperature Analysis Equations of Piezoelectric Plates With Lee Plate Theory
................. 677
J. Wang, Epson Palo Alto Laboratory
Study of Analog Type Frequency
-
Temperature Characteristics Measurement Method
for Activity Dips based on DLD Jump
........................................................................................................... 682
M. Koyama and T. Uchida, Nihon Dempa Kogyo Co. Ltd., Japan
Drive Level Dependence of the Resonant Frequency in
BAW
Quartz Resonators
and
ШЅ
Modeling
.......................................................................................................................................... 687
J.
Nosek,
Technical University of
Liberec,
Czech Republic
Mutual-Mode Drive Level Dependence In Dual-Mode Resonators
............................................................... 696
A.V. Kosykh,
S.A.
Zavjalov,
A.N.
Lepetaev,
Omsk State Engineering University, Russia
SC-Cut Resonator with Reduction of B-Mode Electrical Response
............................................................... 704
R. Bourquin, J.J. Boy, B. Dulmet,
Ecole Nationale
Superieure
de Mécanique et des Microtechniques, France
Frequency-Temperature Behavior of Spurious Vibrations of Rectangular AT-Cut Quartz Plates
................. 710
H. Sekimoto, S. Goka and Y. Watanabe, Tokyo Metropolitan University;
A. Ishizaki, Tokyo Metropolitan College of Aeronautical Engineering, Japan
Third Overtone Frequency Turn-Over Temperature Characteristics vs.
Orientations for Quartz Resonators Vibrating in Thickness-Shear B-Mode
.................................................. 715
M. Nakazawa, H. Yamazaki and M. Takeuchi, Shinshu University, Japan
Reliable Quadric Relationship of Frequency Turn-Over Temperature
Characteristics vs. Electrode Film Thicknesses for Quartz Crystal Tuning Forks
......................................... 722
M. Nakazawa, M. Yamamoto, K. Satoh, T. Mori and
H. Itoh, Shinshu University, Japan
Miniaturized High Frequency Fundamental MCF for IF Filters in Mobile Radio Systems
........................... 731
O. Ishii, H.
Karmo,
H.
Iwata and K. Fujita, Toyo Communication Equipment Co., Ltd., Japan
Sensitivity Analysis of a Thin Film Bulk Acoustic Resonator Ladder Filter
................................................. 737
B.L. Ohitade and W.D. Hunt, Georgia Institute of Technology
Bulk Acoustic Wave Mode Shaping Using a Transversely Graded Electrode
............................................... 743
D.C. Malocha, University of Central Florida
Trapped-Energy AT-Cut Quartz Crystal Units with Grooves
........................................................................ 750
K. Hirama, Y. Aoyama, R. Yasuike and K. Yamazaki,
Toyo Communication Equipment Co., Ltd., Japan
The Electrical Behavior of the Fundamental High Frequency (150MHz)
Quartz Crystal Unit in the Plasmatic Environment
......................................................................................... 758
M. Tanaka ,T. Ugajin, and
N.
Araki,
Meidensha Corporation;
Y. Oomura, Tokyo Metropolitan University, Japan
Complex Holographic Module for Vibrodiagnostic and Forecasting of Reliability of Quartz Resonators....
765
P. Borovtsov, Perm State Technical University, Russia
xiv
Piezoelectric
Ceramic
Disks
With Thickness-Graded Material Properties
.................................................... 769
P.C.Y. Lee, Princeton University; J.D. Yu, Nanyang Technological University, Singapore;
X. Li and W.H. Shin, Drexel University
Nonlinear Mixing in Surface-Micromachined Tuning Fork Oscillators
........................................................ 778
T.A. Roessig, R.T. Howe and A.P.
Pisano,
University of California
A Micromachined Vibration Isolation System for a
1
GHz STW Resonator
................................................ 783
J.R. Reid, Rome Laboratory;
V.M.
Bright, Air Force Institute of Technology;
J.A. Kosinski, U.S. Army Communications-Electronics Command
Design of Resonators for the Determination of the Temperature Coefficients of
Elastic Constants of Monocrystalline
Silicone
............................................................................................... 791
С.
Bourgeois, CSEM Centre
Suisse
d Electronique et de Microtechnique SA;
E.
Steinsland,
University of Oslo, Norway;
N.
Blanc, Paul Scherrer
Institut;
N.F. DeRooij,
University of
Neuchâtel,
Switzerland
Groove Gratings Surface Transverse Wave Resonators
................................................................................ 800
W. Daniau, S.
Baliandras,
J.B. Briot,
l Université de Franché-Comte-Besançon,
France
Further Improvements of Surface Transverse Wave Resonator Performance
in (he
2.0
to
2.5
GHz Range
........................................................................................................................... 807
I.D.
Avramov, Institute of Solid State Physics, Bulgaria;
O.
Beata,
T.
Matsuda,
T.
Nishihara and Y. Satoh, Peripheral System
Laboratories of Fujitsu Laboratories, Japan
Surface Acoustic Wave Characteristics on LA3GA5SIO14 Crystals
............................................................... 816
V.N. Fedorets, Y.P. Kondratyev, V.A. Pankov and V.V. Timashev,
Electr. Instit;
B.V. Mill, MSU; Y.V. Pisarevsky, IK
RAS,
Russia
Investigation of Surface Leaky Longitudinal Waves on Lithium
Niobáte
Substrates
................................... 821
Y. Li and D. Zhang, Nanjing University, P.R. China
Application of Synchronous Two Port Resonators for Measurements of
SAW Parameters in Piezoelectric Crystals
.................................................................................................... 827
W. Soluch, Institute of Electronic Materials Technology, Poland
Synthesis Algorithm of Broadband Withdrawal Weighted SAW Transducers
Wim
Specified Amplitude and Phase Responses
........................................................................................... 831
E.V.
Bausk and I.B. Yakovkm, Institute of Semiconductor Physics of
Russian Academy of Sciences, Russia
SAW Oscillator Multi-Chip Module for
300
MHz Low Power Radio
.......................................................... 836
H. Tanaka, T. Ieki, Y. Hirano and Y. Ishikawa,
Murata
Manufacturing Co., Ltd., Japan
Precise Measurement of SAW Velocity Using Multisectional Comb Filter
.................................................. 841
E.A. Kolosovsky, A.V. Tsarev, Institute of Semiconductor Physics SB
RAS,
Russia
The Dual Harmonic
Interdigital
Transducers (DHIDT)
................................................................................. 845
F. Zhai and D. Zhang, Nanjing University, P.R. China
The Experimental and Theoretical Characterization of SAW Modes
on
ST
-Х
Quartz with a Zinc Oxide Film Layer
............................................................................................. 852
F.S. Hickernell, Motorola, SSTG; and EX.
Adler,
McGill University, Canada
xv
Design
of a Selectable Performance Front-End Filter Using Acoustic Surface Waves
................................. 858
R.
Pastore, J.A.
Kosinski and W.N. Porter, U.S. Army Communications-Electronics Command;
R.
Pastore
and H.L.
Cui,
Stevens Institute of Technology
Temperature Coefficients of First and Second Orders of Elastic Stiffness Evaluated from the
SAW Delay-Temperature Behavior on Lithium
Tantalate
Plates
.................................................................. 867
R.M. Taziev, A.S. Kozlov,
IX.
Vasiliev and I.B. Yakovkin,
Institute of Semiconductor Physics of Russian Academy of Sciences, Russia
OSCILLATORS. FREQUENCY CONTROL CIRCUITRY. AGING
A Low-Profile High-Perfonnance Crystal Oscillator for Timekeeping Applications
.................................... 873
R.K. Karlquist, E.M. Ingman and T. Parisek, Hewlett-Packard Company;
L.S. Cutler and J.L. Johnson, Hewlett-Packard Laboratories
A New Type of Balanced-Bridge Controlled Oscillator
................................................................................ 885
R.K. Karlquist, Hewlett-Packard Company
The Theory of Zero-Gradient Crystal Ovens
................................................................................................. 898
R.K. Karlquist, E.M. Ingman and T. Parisek, Hewlett-Packard Company;
L.S. Cutler and J.L. Johnson, Hewlett-Packard Laboratories
A Review of Low Noise Oscillator Theory and Design
................................................................................ 909
J.K.A. Everard, University of York, England
Low Phase Noise Highly Power Efficient Oscillators
................................................................................... 919
J.K.A. Everard, University of York; and J.
Bitterling,
Filtronic Components Ltd, UK
Automatic Formal Derivation of the Oscillation Condition
........................................................................... 925
N.
Ratier, L. Couteleau and R.
Brendel,
Université de Franche-Comté-Besançon;
P. Guillemot, Centre National d Etudes Spatiales, France
A
Dual Mode Oscillator Based on Narrow-Band Crystal Oscillators with Resonator Filters
........................ 932
Y. Watanabe, H. Sekimoto and S. Goka, Tokyo Metropolitan University;
I. Niirni, Hitachi Ltd., Japan
An Inductorless Dual-Mode Crystal Oscillator
.............................................................................................. 938
L
Balaz, M. Minarik and J. Petrek, Department of Radioelectronics
FEI-STU, Slovak Republic
Miniature OCXO Using
DHR
Technology
.................................................................................................... 943
I. Abramzon, Consultant; R. Boroditsky and DA. Cocuzzi, Valpey-Fisher Co.
Ultra-Stable Crystal and Rubidium Oscillators for Space Applications
........................................................ 947
A. Jeanmaire, P. Rochat,
С
Boudy,
Tekelec
Neuchâtel
Time
SA,
Switzerland
A Low Cost Microcontroller Compensated Crystal Oscillator
...................................................................... 954
S. Deno, C. Hahnlen and
D. Landis,
The
Pennsylvania
State University;
R. Aurand,
Murata
Electronics
Nonlinear Multifrequency Model of Piezoreasonant Oscillatory Systems
.................................................... 96
j
O.E.
Rudnev, Sichron Center, Ukraine
Low Drive
Levei
Crystal Oscillator Circuit
............................................................................................... 965
Y. Tsuznki, T. Adachi and H. Yokohara, Yokohama National
Umvmity7Jäpan
..........................
XVI
A Digitally Temperature Compensated Compact
PLL
Module
..................................................................... 969
T. Kobayashi, H. Iwamoto and
Т. Нага,
NEC Corporation, Japan
Phase and Amplitude Disturbances in Direct Digital Frequency Synthesizers
.............................................. 975
V.F.
Kroupa,
Academy of Sciences of the Czech Republic, Czech Republic
Thermal Effects in High Performance Frequency Synthesizers
..................................................................... 980
R.
Barillet, Laboratoire de l Horloge Atomique, France
Tunable Microwave Oscillator for Low
Phase Noise Applications
............................................................... 985
E.N.
Ivanov, M.E.
Tobar
and R. A. Woode, The University of Western Australia, Australia
Microwave Oscillators Incorporating High Performance
Distributed Bragg Reflector Microwave Resonators
..................................................................................... 994
CA. Flory
and H.L.
Ko,
Hewlett-Packard Laboratories
Sapphire-Rutile Frequency-Temperature Compensated Whispering Gallery Microwave Resonators
.......... 1000
M.E.
Tobar,
J.G. Harnett, E.N.
Ivanov
and R.A. Woode, University of Western Australia,
Australia; and J.
Krupka,
Warsaw University of Technology, Poland
Cryo-Cooled Sapphire Oscillator for
Ше
Cassini
Ka-Band
Experiment
........................................................ 1009
GJ. Dick and R.T. Wang, Jet Propulsion Laboratory
Phase Locked DRO/CRO for Space Use
....................................................................................................... 1015
B. Hitch and T.
Holden,
Space Systems
/
Loral
Temperature Compensated
High-ß
Dielectric Resonators for
Long Term Stable Low Phase Noise Oscillators
............................................................................................ 1024
I.S. Ghosh, D.
Schemion, N. Klein, Institut
fur
Festkörperforschung,
Germany
Software Simulation Accurately Predicts the Microwave Oscillator
Q
Factors
............................................ 1030
A. Behagi, Penn State University-Harrisburg
Plastic Encapsulated Integrated Circuits
Application Issues for Severe Environments
................................................................................................. 1035
M
J. DiFranza, The Mitre Corporation
A Study on Estimation of Frequency Aging for Rectangular AT-Cut Resonators
........................................ 1042
Y. Kobayashi and E. Momosaki, Seiko Epson Corporation, Japan
PROCEEDINGS ORDERING INFORMATION
..................................................................................... 1051
SPECmCATIONS AND STANDARDS WCT.ATING TO FREQUENCY CONTROL
....................... 1052
AUTHOR INDEX
........................................................................................................................................ 1055
XVII
|
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| spelling | International Frequency Control Symposium 51 1997 Orlando, Fla. Verfasser (DE-588)5305608-5 aut Proceedings of the 1997 IEEE International Frequency Control Symposium 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. New York, NY IEEE 1997 XVII, 1058 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Oscillateurs - Congrès ram Résonateurs - Congrès ram Stabilité de fréquence - Congrès ram Synthétiseurs de fréquence - Congrès ram Oscillators, Crystal Congresses Radio frequency Congresses (DE-588)1071861417 Konferenzschrift gnd-content Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008350962&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Proceedings of the 1997 IEEE International Frequency Control Symposium 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. Oscillateurs - Congrès ram Résonateurs - Congrès ram Stabilité de fréquence - Congrès ram Synthétiseurs de fréquence - Congrès ram Oscillators, Crystal Congresses Radio frequency Congresses |
| subject_GND | (DE-588)1071861417 |
| title | Proceedings of the 1997 IEEE International Frequency Control Symposium 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. |
| title_auth | Proceedings of the 1997 IEEE International Frequency Control Symposium 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. |
| title_exact_search | Proceedings of the 1997 IEEE International Frequency Control Symposium 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. |
| title_full | Proceedings of the 1997 IEEE International Frequency Control Symposium 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. |
| title_fullStr | Proceedings of the 1997 IEEE International Frequency Control Symposium 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. |
| title_full_unstemmed | Proceedings of the 1997 IEEE International Frequency Control Symposium 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. |
| title_short | Proceedings of the 1997 IEEE International Frequency Control Symposium |
| title_sort | proceedings of the 1997 ieee international frequency control symposium 28 30 may 1997 hilton hotel disney world village orlando florida u s a |
| title_sub | 28 - 30 May 1997, Hilton Hotel, Disney World Village, Orlando, Florida, U.S.A. |
| topic | Oscillateurs - Congrès ram Résonateurs - Congrès ram Stabilité de fréquence - Congrès ram Synthétiseurs de fréquence - Congrès ram Oscillators, Crystal Congresses Radio frequency Congresses |
| topic_facet | Oscillateurs - Congrès Résonateurs - Congrès Stabilité de fréquence - Congrès Synthétiseurs de fréquence - Congrès Oscillators, Crystal Congresses Radio frequency Congresses Konferenzschrift |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008350962&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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