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200 10$aDynamics of explosions$b[electronic resource] /$fedited by J.R. Bowen, J.-C. Leyer, R.I. Soloukhin
210   $aNew York, N.Y. $cAmerican Institute of Aeronautics and Astronautics, Inc.$dc1986
215   $a1 online resource (679 p.)
225 1 $aProgress in astronautics and aeronautics ;$vv. 106
300   $a"Technical papers presented from the tenth International Colloquium on Dynamics of Explosions and Reactive Systems, Berkeley, California, August 1985, and subsequently revised for this volume."
300   $aCompanion volume to: Dynamics of reactive systems.
311   $a0-930403-15-0 
320   $aIncludes bibliographical references and index.
327   $a""Cover""; ""Title""; ""Copyright""; ""Table of Contents""; ""Preface""; ""Chapter I. Flame Acceleration and Transition to Detonation""; ""On the Transition from Deflagration to Detonation""; ""Influence of Chemical Composition on the Deflagration-Detonation Transition""; ""Transmission of a Flame from a Rough to a Smooth-Walled Tube""; ""Investigation of the Explosion-Enhancing Properties of a Pipe-Rack-Like Obstacle Array""; ""The Effect of Transverse Venting on Flame Acceleration and Transition to Detonation in a Large Channel""; ""Truly Unconfined Deflagrations of Ethylene-Air Mixtures""
327   $a""Chapter II. Initiation and Transmission of Detonations""""The Influence of Experimental Condition on the Reinitiation of Detonation Across an Inert Region""; ""Critical Diameter of Diffraction for Strong Plane Detonations""; ""Detonation Diffraction by Divergent Channels""; ""Normal Shock Wave Reflection on Porous Compressible Material""; ""Correlation Between Shock Flame Predetonation Zone Size and Cell Spacing in Critically Initiated Spherical Detonations""; ""Critical Charge for the Direct Initiation of Detonation in Gaseous Fuel-Air Mixtures""
327   $a""Chapter III. Detonation Structure and Limit Propagation""""Detonation Cell Size Measurements in Hydrogen-Air-Steam Mixtures""; ""Influence of Cellular Regularity on the Behavior of Gaseous Detonations""; ""Near-Limit Propagation of Detonation in Tubes""; ""Chapter IV. Detonation Kinetics, Structure,and Boundary Effects""; ""Chemical Kinetics of Hydrogen-Air-Diluent Detonations""; ""Chemical Kinetics and Cellular Structure of Detonations in Hydrogen Sulfide and Air""; ""Influence of Hydrocarbon Additives on the Detonation Velocity of Methane-Air Mixtures at Elevated Initial Pressures""
327   $a""The Influence of Physical Boundaries on Gaseous Detonation Waves""""Chapter V. Explosions, Shock Reflections, and Blast Waves""; ""Oblique Shock Wave Reflections in SF6: A Comparison of Calculation and Experiment""; ""Mach Reflection from an HE-Driven Blast Wave""; ""Validation of Numerical Codes for the Simulation of Blast Generated by Vapor Cloud Explosions""; ""Approximate Analytical Solutions for Strong Shocks with Variable Energy""; ""The Effective Constraints for Maximum Entropy Formalism in Gas Explosion Systems""; ""Chapter VI. Heterogeneous Detonations and Explosions""
327   $a""Detonation Velocity in Heterogeneous Liquid Decane-Gas Systems""""Direct Initiation of Detonation in a Decane Spray""; ""Experimental Study of Detonations in Starch Particle Suspensions with O2/N2, H2/O2, and C2H4/O2 Mixtures""; ""The Chapman-Jouguet Condition and Structure of Detonations in Dust-Oxidizer Mixtures""; ""Structure of the Detonations in Gaseous Mixtures Containing Aluminum Particles in Suspension""; ""A Control System Model for Coal Dust Flame Transition from Combustion to Detonation""; ""An Experimental Study of Soot Film Detonations""
327   $a""Influence of Turbulence on Dust and Gas Explosions in Closed Vessels""
410  0$aProgress in astronautics and aeronautics ;$vv. 106.
606   $aExplosions$vCongresses
606   $aGas dynamics$vCongresses
608   $aElectronic books.
615  0$aExplosions
615  0$aGas dynamics
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701   $aBowen$b J. R$g(J. Raymond)$0876403
701   $aLeyer$b J.-C$023161
701   $aSoloukhin$b Rem Ivanovich$0903478
712 12$aInternational Colloquium on Dynamics of Explosions and Reactive Systems
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200 10$aRF and microwave transmitter design /$fAndrei Grebennikov
205   $a1st edition
210   $aHoboken, N.J. $cWiley$dc2011
215   $a1 online resource (838 p.)
225 1 $aWiley series in microwave and optical engineering
300   $aDescription based upon print version of record.
311 08$a9780470934654 
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320   $aIncludes bibliographical references and index.
327   $aRF AND MICROWAVETRANSMITTER DESIGN; Contents; Preface; Introduction; References; 1 Passive Elements and Circuit Theory; 1.1 Immittance Two-Port Network Parameters; 1.2 Scattering Parameters; 1.3 Interconnections of Two-Port Networks; 1.4 Practical Two-Port Networks; 1.4.1 Single-Element Networks; 1.4.2  - and T -Type Networks; 1.5 Three-Port Network with Common Terminal; 1.6 Lumped Elements; 1.6.1 Inductors; 1.6.2 Capacitors; 1.7 Transmission Line; 1.8 Types of Transmission Lines; 1.8.1 Coaxial Line; 1.8.2 Stripline; 1.8.3 Microstrip Line; 1.8.4 Slotline; 1.8.5 Coplanar Waveguide; 1.9 Noise
327   $a1.9.1 Noise Sources1.9.2 Noise Figure; 1.9.3 Flicker Noise; References; 2 Active Devices and Modeling; 2.1 Diodes; 2.1.1 Operation Principle; 2.1.2 Schottky Diodes; 2.1.3 p-i-n Diodes; 2.1.4 Zener Diodes; 2.2 Varactors; 2.2.1 Varactor Modeling; 2.2.2 MOS Varactor; 2.3 MOSFETs; 2.3.1 Small-Signal Equivalent Circuit; 2.3.2 Nonlinear I-V Models; 2.3.3 Nonlinear C-V Models; 2.3.4 Charge Conservation; 2.3.5 Gate-Source Resistance; 2.3.6 Temperature Dependence; 2.3.7 Noise Model; 2.4 MESFETs and HEMTs; 2.4.1 Small-Signal Equivalent Circuit; 2.4.2 Determination of Equivalent Circuit Elements
327   $a2.4.3 Curtice Quadratic Nonlinear Model2.4.4 Parker-Skellern Nonlinear Model; 2.4.5 Chalmers (Angelov) Nonlinear Model; 2.4.6 IAF (Berroth) Nonlinear Model; 2.4.7 Noise Model; 2.5 BJTs and HBTs; 2.5.1 Small-Signal Equivalent Circuit; 2.5.2 Determination of Equivalent Circuit Elements; 2.5.3 Equivalence of Intrinsic  - and T -Type Topologies; 2.5.4 Nonlinear Bipolar Device Modeling; 2.5.5 Noise Model; References; 3 Impedance Matching; 3.1 Main Principles; 3.2 Smith Chart; 3.3 Matching with Lumped Elements; 3.3.1 Analytic Design Technique; 3.3.2 Bipolar UHF Power Amplifier
327   $a3.3.3 MOSFET VHF High-Power Amplifier3.4 Matching with Transmission Lines; 3.4.1 Analytic Design Technique; 3.4.2 Equivalence Between Circuits with Lumped and Distributed Parameters; 3.4.3 Narrowband Microwave Power Amplifier; 3.4.4 Broadband UHF High-Power Amplifier; 3.5 Matching Networks with Mixed Lumped and Distributed Elements; References; 4 Power Transformers, Combiners, and Couplers; 4.1 Basic Properties; 4.1.1 Three-Port Networks; 4.1.2 Four-Port Networks; 4.2 Transmission-Line Transformers and Combiners; 4.3 Baluns; 4.4 Wilkinson Power Dividers/Combiners; 4.5 Microwave Hybrids
327   $a4.6 Coupled-Line Directional CouplersReferences; 5 Filters; 5.1 Types of Filters; 5.2 Filter Design Using Image Parameter Method; 5.2.1 Constant-k Filter Sections; 5.2.2 m-Derived Filter Sections; 5.3 Filter Design Using Insertion Loss Method; 5.3.1 Maximally Flat Low-Pass Filter; 5.3.2 Equal-Ripple Low-Pass Filter; 5.3.3 Elliptic Function Low-Pass Filter; 5.3.4 Maximally Flat Group-Delay Low-Pass Filter; 5.4 Bandpass and Bandstop Transformation; 5.5 Transmission-Line Low-Pass Filter Implementation; 5.5.1 Richards's Transformation; 5.5.2 Kuroda Identities; 5.5.3 Design Example
327   $a5.6 Coupled-Line Filters
330   $aRF and Microwave Transmitter Design is unique in its coverage of both historical transmitter design and cutting edge technologies. This text explores the results of well-known and new theoretical analyses, while informing readers of modern radio transmitters' pracitcal designs and their components. Jam-packed with information, this book broadcasts and streamlines the author's considerable experience in RF and microwave design and development.
410  0$aWiley series in microwave and optical engineering.
517 3 $aRadio frequency and microwave transmitter design
606   $aRadio$xTransmitters and transmission
606   $aMicrowave circuits
606   $aMicrowave transmission lines
615  0$aRadio$xTransmitters and transmission.
615  0$aMicrowave circuits.
615  0$aMicrowave transmission lines.
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