Green electronics, green bottom line environmentally responsible engineering
Environmentally safe engineering is one of the hottest and most controversial topics in technical circles. Though many publications offer theory and intellectual discussion of the topic, this book provides practical, hands-on advice including hints and tips from the nation's top engineers. Gree...
| Otros Autores: | , |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Boston :
Newnes
c2000.
|
| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627338906719 |
Tabla de Contenidos:
- Front Cover; Green Electronics Green Bottom Line: Environmentally Responsible Engineering; Copyright Page; Contents; Acknowledgments; Preface; Section I: Design Issues; Introduction If You Think Education Is Expensive, Try Ignorance!; Part I: Designing for Energy Efficiency; Chapter 1. Designing Energy-Efficient PCs Using Integrated Power Management; Chapter 2. Energy Efficient Three-Phase AC Motor Drives for Appliance and Industrial Applications; Chapter 3. A High-Voltage Power Factor Controller Helps Improve Power Quality
- Chapter 4. Designing High-Efficiency DSP-Based Motor Controls for Consumer GoodsPart II: Designing for Recyclability; Chapter 5. Design for Disassembly, Reuse, and Recycling; Chapter 6. Defining Electronics Recycling; Chapter 7. Sensor-Based Data Recording for Recycling: A Low-Cost Technology for Embedded Product Self-Identification and Status Reporting; Part III: Green Design Automation Tools; Chapter 8. A Survey of DfE Software; Chapter 9. Design for Environment: A Printed Circuit Board Assembly Example; Chapter 10. Toward Integrated Product Life-Cycle Design Tools
- Section II. Materials and Process IssuesIntroduction Electronic Manufacturing Processes and the Environment; Part IV: Materials Selection for Electronic Products; Chapter 11. Selection of Plastics Using Cost, Structural, and Environmental Factors; Chapter 12. Battery Selection and Application-Environmental Considerations; Part V: Electronic Manufacturing Processes and the Environment; Chapter 13. Implementing Green Printed Wiring Board Manufacturing; Chapter 14. No-Lead Solder Assembly; Chapter 15. Chemical Conversion Coatings on Electronic Equipment; Section III: Management Issues
- Introduction Musings Before a New DawnPart VI: DfE for Engineering Managers; Chapter 16. DfE for Engineering Managers: Making It Count-DfE and the Bottom Line; Chapter 17. Making It Happen-DfE Implementation; Chapter 18. Getting the Math Right: Accurate Costing Through Product Life Cycles; Chapter 19. Design for environment-a European Logistics Perspective; Part VII: ISO 14001--The Environment Standard for Industry; Chapter 20. Meeting the Letter and Spirit of Environmental Management Using the ISO 14001 Standard; Chapter 21. ISO 14001 for the Environment and Your Bottom Line
- Chapter 22. Beyond ISO 14000: ST Microelectronics as a Case Study in Environmental LeadershipSection IV: Visions for a New Future; Introduction A Day in the Life... Circa 2005; Part VIII: Wild Ideas and Possible Futures; Chapter 23. Designing a Better Tomorrow Today with Self-Disassembling Electronics; Chapter 24. Ultralight Hybrid Vehicles-Principles and Design; Chapter 25. The Environment and Nanotechnology; Part IX: Case Studies, Resources, and Contact Information; Appendix A. A Case Study: A Printed Circuit Assembly with a No-Lead Solder Assembly Process
- Appendix B. Case Study: A Search for Chromate Conversion Coating Alternatives for Corrosion Protection of Zinc-Plated Electronic Shelves
