Page 12 - Six Sigma for electronics design and manufacturing
P. 12
Contents
xi
165
production parts
168
Corrective action for process capability
5.4.2
problems
168
Conclusions
5.5
5.6
References and Bibliography
168
Chapter 6.
Six Sigma Quality and Manufacturing Costs of
Electronics Products
6.1 5.4.1 Process capability for prototype and early 169
The Overall Electronic Product Life Cycle Cost Model 170
6.1.1 The use of the quality and cost model to 173
achieve world-class cost and quality
6.1.2 Developing the background information cost 174
estimating of electronic products
6.1.3 Determination of costs and tracking tools 176
for electronic products
6.2 The Quality and Cost Relationship 177
6.2.1 The quality loss function (QLF) 178
6.2.2 Quality loss function example 179
6.2.3 A practical quality and cost approach 181
6.3 Electronic Products Cost Estimating Systems 182
6.3.1 Relating quality data to manufacturing six 184
sigma or Cpk levels
6.3.2 Printed circuit board (PCB) fabrication 185
technologies
6.3.3 Printed circuit board (PCB) design, 187
fabrication cost, and quality issues
6.3.4 PCB fabrication cost and quality alternative 191
example
6.4 PCB Assembly Cost Estimating Systems 192
6.4.1 Material-based PCB assembly cost system 193
6.4.2 The technology cost driver system 193
6.4.3 PCB assembly cost modifiers 197
6.4.4 Quality-based product cost models 201
6.5 Conclusions 203
6.6 References and Bibliography 203
Chapter 7. Six Sigma and Design of Experiments (DoE) 205
7.1 DoE Definitions and Expectations 206
7.1.1 DoE objectives and expectations 209
7.2 Design of Experiments (DoE) Techniques 210
