Electronic equipment packaging technology
著者
書誌事項
Electronic equipment packaging technology
Van Nostrand Reinhold, c1992
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
The last twenty years have seen major advances in the electronics industry. Perhaps the most significant aspect of these advances has been the significant role that electronic equipment plays in almost all product markets. Even though electronic equipment is used in a broad base of applications, many future applications have yet to be conceived. This versatility of electron ics has been brought about primarily by the significant advances that have been made in integrated circuit technology. The electronic product user is rarely aware of the integrated circuits within the equipment. However, the user is often very aware of the size, weight, mod ularity, maintainability, aesthetics, and human interface features of the product. In fact, these are aspects of the products that often are instrumental in deter mining its success or failure in the marketplace. Optimizing these and other product features is the primary role of Electronic Equipment Packaging Technology. As the electronics industry continues to pro vide products that operate faster than their predecessors in a smaller space with a reduced cost per function, the role of electronic packaging technology will assume an even greater role in the development of cost-effective products.
目次
1 Packaging Implementation.- 1.1 Related General Packaging Issues.- 1.2 Levels of Packaging.- 1.3 Design Implementation Team.- 1.4 Product Applications.- 1.5 Packaging Priorities.- References.- 2 Integrated Circuits.- 2.1 Process Technology.- 2.2 Application-Specific Integrated Circuits.- References.- 3 Circuit Component Packages.- 3.1 Electronic Circuit Components.- 3.2 Electromechanical Circuit Components.- 3.3 Mechanical Circuit Component Hardware.- References.- 4 Multiple Bare Die Packaging Technologies.- 4.1 Bare-Die Termination Techniques.- 4.2 Hybrid Microcircuits.- 4.3 Chip-on-Board Technology.- 4.4 Multichip Modules.- References.- 5 Packaged Component Subassemblies.- 5.1 Electrical Performance.- 5.2 Packaging and Interconnecting (P&I) Structures.- 5.3 General Assembly Selection Considerations.- 5.4 Through-hole Technology.- 5.5 Surface Mount Technology (SMT).- References.- 6 Subassembly Interconnection Systems.- 6.1 Backplane Structures.- 6.2 Backplane Connectors.- 6.3 Discrete Solderless-wrap Backplane Wiring.- References.- 7 Wiring and Cabling Assemblies.- 7.1 Electrical Characteristics.- 7.2 Wire and Cable Materials.- 7.3 Wire and Cable Configurations.- 7.4 Cabling Connectors.- 7.5 Wire Terminations.- References.- 8 Electronic Equipment Enclosures.- 8.1 General Enclosure Selection Considerations.- 8.2 Cabinets.- 8.3 Small Equipment Enclosures.- 8.4 Portable Carrying Cases.- 8.5 Printed Board Enclosures.- References.- 9 Thermal Management.- 9.1 Basic Thermal Management Considerations.- 9.2 General Thermal Analysis.- 9.3 Heat Sinks.- 9.4 Air Movers (Fans and Blowers.- 9.5 Liquid Cooling.- 9.6 Thermoelectric Heat Pump Modules.- References.- 10 End Product Applications.- 10.1 Consumer Electronics.- 10.2 Data Processing Equipment (Computers).- 10.3 Aircraft (Avionics) Equipment.- 10.4 Military Shipboard Electronics.- 10.5 Biomedical Electronics.- References.
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