Electrical product compliance and safety engineering
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| Main Authors | , , |
|---|---|
| Format | Electronic eBook |
| Language | English |
| Published |
Boston, Massachusetts :
Artech House,
[2017]
|
| Series | Artech House technology management and professional development library.
|
| Subjects | |
| Online Access | Full text |
| ISBN | 9781630814564 1630814563 9781523119288 1523119284 9781630810115 1630810118 |
| Physical Description | 1 online resource : illustrations |
Cover
Table of Contents:
- Intro; Contents; Foreword; Preface; 1 Why Do We Need Electrical ProductCompliance and Safety?; 1.1 Product Compliance and Safety in the Twenty-First Century; 1.2 Electrical Product Safety Legislation and Liability; 1.3 Designing for Safety; 1.4 Safety Cost Estimation; 2 International Regulations and GlobalMarket Access; 2.1 Regional Regulations: How They Differ; 2.2 CE Marking; 2.3 NRTLs; 2.4 Certification Body (CB) Scheme; 2.5 Product Certification Marks; 2.6 ISO Registration Process; 3 Product Safety Standards; 3.1 Introduction; 3.2 Product Safety and Standardization
- 3.3 What Is a Standard?3.4 Structure of the Product Safety Standard; 3.5 Conformity to Product Safety Standards; 3.6 Types of Product Safety Standards; 3.7 Objectives for Products Safety Standards; 3.8 Product Safety Standard Developers; 4 Electrical Products Safety Philosophy; 4.1 Introduction; 4.2 Safety Versus Safe; 4.3 How Do Reliability Engineering and Product Safety Differ?; 4.4 Perception of Risk; 4.5 Failure; 4.6 Single-Fault Safe; 4.7 Redundancy; 4.8 Safety Factors; 4.9 Work Safety Versus Product Safety; 5 Methods for Failure Analysis; 5.1 FMEA; 5.2 FTA
- 5.3 Hazard and Operability Study (HAZOP)5.4 Action Error Analysis (AEA); 5.5 Event Tree Analysis (ETA); 6 Risk Management for Product Safety; 6.1 Introduction; 6.2 Identifying Hazards; 6.3 Estimation of the Risk; 6.4 Risk Evaluation; 6.5 Risk Control; 6.6 Functional Safety; 6.7 Standards for Risk Management; 7 Electrical Product Safety Concepts; 7.1 Means of Protection; 7.2 Insulation Diagrams; 7.3 Safe Current and Voltage limits; 7.4 Leakage Currents; 7.5 Spacing: Air Clearance and Creepage Distances; 7.6 Earthing/Grounding; 7.7 Fire, Electrical, and Mechanical Enclosures; 7.8 Ratings
- 7.9 Types of Circuits7.10 Normal Load; 7.11 Abnormal Operating Conditions; 8 Selection of Components; 8.1 Introduction; 8.2 Semiconductors; 8.3 Passive; 8.4 Temperature Control Devices; 8.5 Motors and Fans; 8.6 Thermoplastic Materials; 8.7 Terminal Blocks; 8.8 Connectors; 8.9 Internal Wiring; 9 Batteries; 9.1 Introduction; 9.2 Secondary Batteries; 9.3 Secondary Battery Safety Standards; 9.4 Primary Batteries; 9.5 Primary Battery Safety Standards; 9.6 Battery Safety Design; 10 Power Source; 10.1 Introduction; 10.2 Power Supplies: Plugs, Connectors, and Cord Sets; 10.3 Fuses/Fuse Holders
- 10.4 Power Entry Modules10.5 Switches; 10.6 Varistors; 10.7 Transformers; 10.8 Power Supplies; 11 Product Construction Requirements; 11.1 Introduction; 11.2 Enclosures; 11.3 Circuit Separation; 11.4 Grounding and Bonding; 11.5 Resistance to Fire and Flame Rating; 11.6 Interlocks; 11.7 Moving Parts; 11.8 Constructive Aspects Related to EMC; 11.9 Parts Subjected to Pressure; 11.10 Serviceability; 12 Markings, Indicators, and Accompanying Documents; 12.1 Marking/Safety Labels/External Marking; 12.2 Internal Markings; 12.3 Marking of Controls and Instruments; 12.4 Color of Indicators and Lights