Microwave Component MechanicsHereOCOs a first-of-its-kind resource that offers you detailed guidance in the mechanical aspects of designing and manufacturing microwave components. The book takes an interdisciplinary approach that combines design and manufacturing, mechanical and electrical design, and microwave component performance and productivity. By exploring the immediate connection between electrical and mechanical quality, you more easily arrive at cost-effective solutions and reduce the unnecessary use of OC double-tolerancingOCO." |
ما يقوله الناس - كتابة مراجعة
لم نعثر على أي مراجعات في الأماكن المعتادة.
المحتوى
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132 Electromagnetic Radiation | 19 |
133 Electromagnetic Waves Initiated by Cavities | 22 |
References | 200 |
Other Joining Technologies | 203 |
82 Glued Joints | 205 |
822 CyanoacrylateBased Adhesives | 206 |
825 Adhesives for HighStrength Applications | 208 |
826 HighTemperature Ceramic Adhesives | 209 |
References | 210 |
Machined Components | 211 |
14 Connection Philosophies | 26 |
15 Typical User and Application Profiles | 27 |
Systematic Flowchart Model | 29 |
211 Some Assisting Tools | 31 |
212 List of Requirements | 33 |
22 Advanced Methodology for Designing Microwave Mechanics | 34 |
221 Basic Elements of the Advanced Methodology | 35 |
222 Flowchart Presentation of the Tuned Methodology | 39 |
References | 42 |
Material Selection for Microwave Mechanics | 45 |
32 Effects of the Products Operating Frequency | 47 |
322 Definition of the Penetration Depth | 48 |
33 Effects of the Operating Environment | 51 |
34 Metallic Components | 54 |
341 OxygenFree Copper | 55 |
343 Beryllium Copper Alloy | 56 |
344 Phosphorus Bronze | 57 |
345 Brass | 58 |
347 Aluminum Alloys | 60 |
348 Invar | 62 |
35 Use of Plastics | 64 |
353 Other Fluorine Plastics | 65 |
355 Polyphenylene Oxide | 66 |
361 PowderMetallurgically Manufactured Materials for Microwave Mechanics | 69 |
362 Application Areas of Ceramic Materials in Microwave Mechanics | 73 |
363 Low Temperature Cofired Ceramics | 75 |
References | 77 |
ComputerAided Environment for Design Work | 79 |
41 Integration of Basic CAD Tools | 80 |
411 Interaction Between Virtual Engineering and Hypermedia Applications in Controlling Heat Input During Welding of Microwave Components | 86 |
412 Integration of ComputerAssisted Engineering and Microwave Mechanics Simulation in Welded Stripline Filter Design | 94 |
42 Typical Simulation Software Solutions for Microwaves | 96 |
43 Integration Problems of Current CAD Applications | 102 |
432 Problems in CAD Applications Developed for Microwave Design | 103 |
References | 108 |
Instructions for Technical Documentation and Dimensioning | 111 |
51 The Relationship Between RF Parameters and Mechanical Parameters | 112 |
52 Differences Between DFMAand PerformanceOriented Approaches | 114 |
53 On the Suitability of General Manufacturing Tolerances for MW Mechanics | 116 |
References | 118 |
Effects of Production Volume and Related Topics | 119 |
612 Material Costs | 120 |
62 Relationship Between Manufacturing Costs and Surface Finish | 121 |
63 Relationship Between Manufacturing Costs and Dimensional Tolerance | 122 |
641 Goals of DFMDFMA | 123 |
643 Putting DFM in Practice | 125 |
644 Additional Tools for DFM | 127 |
645 More Effective Use of DFM | 128 |
65 A CrossTechnological Approach | 129 |
66 Concurrent Engineering Design | 131 |
661 The Design Process for CE | 132 |
662 Manufacturability for CE Design | 133 |
67 Manufacturing Costs of Prototypes | 134 |
68 Quality Aspects | 135 |
610 Cost Accumulation in Laser Processed Components | 136 |
611 Manufacturing Costs of Other Manufacturing Processes | 141 |
References | 148 |
Manufacturing Technologies for Some Passive Microwave Components | 151 |
Welded Components | 153 |
72 Laser Welding in General | 154 |
721 Parameters of Laser Welding | 156 |
73 LaserWelded Stripline Filter | 157 |
74 Utilizing Ultrasonic Welding in Filter Constructions | 164 |
75 Welded Joint Geometries of Microwave Cavity Resonators and Waveguides | 170 |
751 Practical Welding Instructions for Cavity Resonators and Waveguides | 174 |
76 Welded Radiating Elements of Patch Antennas | 177 |
77 A Comparison of Welding Processes for Encapsulating Electronics | 192 |
771 Advantages of Laser Welded Sealing | 193 |
772 Projection Welding Application | 197 |
92 Milled Low Loss Filters | 215 |
93 Ring Hybrids and Other Milled Power Dividers | 218 |
94 General Enclosures for Encapsulating Electronics | 224 |
95 Connector Mounting Considerations | 229 |
96 Rotary Joints | 231 |
961 Basic Waveguide Rotary Joints | 233 |
962 Swivel Joints | 234 |
963 Coaxial Rotary Joints | 235 |
97 Case Examples of Precision Machined Microwave Components | 237 |
971 HighQ SiO Whispering Gallery Mode Resonator | 238 |
972 Center Conductor for a Tubular Coaxial Filter | 239 |
References | 240 |
Cutting Processes | 243 |
102 Water Jet Cut Striplines and Microstrips | 246 |
1022 A Water Jet Cut Stripline Feeding Network | 249 |
1031 Laser Cutting Process in General | 250 |
1032 A Laser Cut SharpEdged Center Conductor | 251 |
1033 Laser Cut Striplines for LowLoss Interdigital Filters | 253 |
104 Tuning Coaxial Transitions | 256 |
References | 259 |
Forming Processes | 261 |
112 Selected Processes for Shaping Plastics | 264 |
1121 Injection Molding | 265 |
113 Drawing Processes for Wires | 266 |
114 Forming Processes for Sheet Metals | 267 |
115 Electroforming Process for Corrugated Waveguides | 268 |
References | 269 |
Coating | 271 |
122 Requirements for Coating Quality | 273 |
124 Case Examples of Coated Microwave Components | 278 |
References | 282 |
Examples of Requirements for Mechanical Accessories in Microwave Assemblies | 283 |
A Microwave Measuring System for Wood Quality | 285 |
131 Description of the Test Arrangement | 286 |
132 Transducer Arrangements | 289 |
133 Mechanical Requirements for the Measurement System Assembly | 291 |
1331 Serviceability and Easy Access | 293 |
References | 294 |
Antenna Constructions | 295 |
141 Basis for the Design of Antenna Constructions | 296 |
142 Wind and Ice Loads | 297 |
References | 300 |
Test Arrangements and Results of Microwave Components Manufactured with Alternative Technologies | 301 |
Mechanical Measuring Equipment | 303 |
1512 Measuring Geometric Tolerances | 304 |
152 Joint Reliability | 310 |
1531 Oxide Layers | 311 |
1533 Mechanical Composition of the Surface Texture | 312 |
1534 Measuring Surface Roughness | 313 |
1535 Friction Measurement | 315 |
1537 Hardness Tests | 317 |
References | 318 |
Selecting Microwave Test Instrumentation | 321 |
161 Vector Network Analyzers | 322 |
162 Spectrum Analyzers | 323 |
163 Signal Generators | 324 |
164 Cables Connectors and Some Accessories | 325 |
Examples of Practical Test SetUps | 327 |
172 Testing the Shielding Performance of Microwave Enclosures | 329 |
173 Experiments on the Input Impedance of Waveguide to Coax Transitions | 330 |
174 Analyzing the Effects of Mechanical Defects on the Performance of Small Phased Array Antennas | 332 |
References | 338 |
Summary | 339 |
List of Acronyms | 343 |
List of Symbols | 349 |
Requirements for Viewing Appendixes A B and C | 353 |
About the Authors | 355 |
Index | 357 |
طبعات أخرى - عرض جميع المقتطفات
عبارات ومصطلحات مألوفة
adhesives alloy aluminum analysis antenna applications approach appropriate aspects assembly basic beam cause cavity changes characteristics circuit coating coaxial conductivity conductor connectors construction copper costs cutting depending devices dimensional dimensions drawing effective electrical electronics elements engineering ensure environment Eskelinen example field Figure filter frequency function geometry give heat impedance important improve input inside integrated joining joint laser processing limited load loss machining manufacturing material means measured metal methods microwave components microwave mechanics milled necessary needed operating optimization parameters performance phase plane plating position possible practical presented problems properties radiating References relatively requirements resistance resonator screw selected sheet metal shows simulation specific stages standard steel structure suitable surface Table temperature thermal tion tolerances tuning types typical usually utilized values various wave waveguide welding
مقاطع مشهورة
الصفحة 128 - Fuzzy logic is a superset of conventional Boolean logic that has been extended to handle the concept of partial truth — truth values between "completely true
الصفحة 304 - Datum: A theoretically exact point, axis, or plane derived from the true geometric counterpart of a specified datum feature. A datum is the origin from which the location or geometric characteristics of features of a part are established . Datum Feature: An actual feature of a part that is used to establish a datum.
الصفحة 43 - A modelbased method for organizing tasks in product development". Research in Engineering Design, vol. 6, no. 1, pp.
الصفحة 149 - Product life cycle cost analysis: State of the art review.
الصفحة 108 - Integrating Engineering Design and Analysis Using a Multi-Representation Approach," Engineering with Computers, Vol.
الصفحة 128 - A fuzzy expert system is an expert system that uses a collection of fuzzy membership functions and rules, instead of Boolean logic, to reason about data.
الصفحة 43 - Identifying Controlling Features of Engineering Design Iteration," Management Science, Vol. 43, No. 3, March 1997, pp. 276-293. Smith, Robert P., and Steven D. Eppinger, "A Predictive Model of Sequential Iteration in Engineering Design,
الصفحة 43 - Model-Based Approaches to Managing Concurrent Engineering," Journal of Engineering Design, Vol. 2, No. 4, 1991, pp. 283-290. [20] Eppinger, SD, MV Nukala, and DE Whitney, "Generalised Models of Design Iteration Using Signal Flow Graphs," Research in Engineering Design — Theory, Applications and Concurrent Engineering, Vol.
معلومات المراجع
| العنوان | Microwave Component Mechanics Artech House microwave library |
| المؤلفون | Harri Eskelinen, Pekka Eskelinen |
| الناشر | Artech House, 2003 |
| رقم ISBN (الرقم الدولي المعياري للكتاب) | 1580535895, 9781580535892 |
| عدد الصفحات | 368 من الصفحات |
| تصدير الاقتباس | BiBTeX EndNote RefMan |