Flexible Thinking: Rules of Thumb: A Word to the Wise
Happy’s Tech Talk #29: Bend-to-Install Semi-flex FR-4
Connect the Dots: Five Best Practices for Designing Flex and Rigid-flex PCBs
Happy’s Essential Skills: The Need for Total Quality Control (Six Sigma and Statistical Tools): Part 1
January 13, 2016 | Happy HoldenEstimated reading time: 11 minutes
In this first of many columns covering my "Twenty-Five Essential Skills Every Engineer Needs to Learn," I will expand on each of those skills. To read the introduction to this series, which published in the January issue of The PCB Magazine, click here. As a quick recap, here are the 25 skills that I will be writing about over the next 18 months or so, to publish every three weeks or so in the PCB007 Daily Newsletter (if you are not yet a subscriber, click here to have the newsletter delivered to your inbox for free):
1. TQC/six sigma/statistics/curve fitting
2. Problem solving
3. Design of experiments
4. FMEA
5. Information research on the Internet
6. Technical writing
7. Product/process life cycles
8. Learning curve/learning theory
9. Figure of merit/shared vision
10. Design for manufacturing/assembly
11. Managing management time
12. Project/program management
13. Benchmarking
14. Engineering economics/ROI/BET
15. Roadmapping
16. Quality functional deployment (House of Quality)
17. Automation strategy/CIM
18. Computer aided manufacturing
19. Recruiting and interviewing
20. METRICS—dimensional analysis
21. 10-Step business plan
22. Programmed instruction/long distance learning
23. Lean manufacturing/JIT/TOC
24. Technology awareness
25. Predictive engineering
Let's get started. The first topic is one of the most important: Total Quality Control (including six sigma, and statistical tools).
Total Quality Control (TQC)
Total Quality Control is the philosophy of continuous process improvement through statistical techniques and a commitment to excellence. TQC are systems for optimizing production based on ideas developed by Japanese industries since the 1950s. This term has evolved into Total Quality Management (TQM) and Six Sigma (6σ). The system, which blends Western and Eastern ideas, began with the concept of quality circles, in which groups of 10–20 workers were given responsibility for the quality of the products they produced. It gradually evolved into various techniques involving both workers and managers to maximize productivity and quality, including close monitoring of staff and excellent customer service.
The concept of kaizen—the notion that improvement must involve all members of a company—is central to TQC. It aims to radically transform the organization through progressive changes in the attitudes, practices, structures, and systems.
Figure 1: Key links between quality, productivity and customer satisfaction.
Total quality control transcends the product quality approach, involves everyone in the organization, and encompasses its every function: administration, communications, distribution, manufacturing, marketing, planning, and training.
TQC views an organization as a collection of processes. It maintains that organizations must strive to improve continuously these processes by incorporating the knowledge and experiences of workers. The simple objective of TQC is "Do the right things, right the first time, every time." True improvements in quality of products and services have multiple positive effects on an organization, as shown in Figure 1: lower costs, lower prices, and increased customer satisfaction. Although originally applied to manufacturing operations, and for a number of years only used in that area, TQC is now becoming recognized as a generic management tool, just as applicable in service and public sector organizations. There are a number of evolutionary offshoots, like Six-Sigma, with different sectors creating their own versions from the common ancestor. TQC is the foundation for activities that include:
• Commitment to leadership by senior management and empowerment of all employees, from the top down
• Meeting of customer requirements
• Reduction of development cycle times
• Just in Time/demand flow manufacturing
• Improvement teams
• Reduction of product and service costs
• Systems to facilitate improvement
• Line management ownership
• Employee involvement and empowerment
• Recognition and celebration
• Challenging quantified goals and benchmarking
• Focus on processes/improvement plans
• Specific incorporation in strategic planning
This shows that TQC must be practiced in all activities, by all personnel, in manufacturing, marketing, engineering, R&D, sales, purchasing, and HR, etc.[1].
Page 1 of 4
Share on:
Suggested Items
HPC Customer Engages Sondrel for High End Chip Design
11/25/2024 | SondrelSondrel, a leading provider of ultra-complex custom chips, has announced that it has started front end, RTL design and verification work on a high-performance computing (HPC) chip project for a major new customer.
NEOTech Significantly Improves Wire Bond Pull Test Process
11/25/2024 | NEOTechNEOTech, a leading provider of electronic manufacturing services (EMS), design engineering, and supply chain solutions in the high-tech industrial, medical device, and aerospace/defense markets, proudly announces a major advancement in its wire bond pull testing process, reducing manufacturing cycle time by more than 60% while maintaining industry-leading production yields of over 99.99%.
Standard of Excellence: Hiring for Quality Positions in Manufacturing, Engineering, and Management
11/25/2024 | Anaya Vardya -- Column: Standard of ExcellenceIn continuing my series on finding, signing, and keeping good people for your company, this month we discuss hiring good people for your quality department. Even when hiring was easier, hiring for the quality department has always been especially challenging. It takes a special kind of person: someone with attention to detail, someone ready to stand for his or her convictions, and someone who can stand up under pressure when the company needs to ship product and the quality manager refuses to because it is not up to par. The quality department is the very soul of any manufacturing company.
Rules of Thumb for PCB Layout
11/21/2024 | Andy Shaughnessy, I-Connect007The dictionary defines a “rule of thumb” as “a broadly accurate guide or principle, based on experience or practice rather than theory.” Rules of thumb are often the foundation of a PCB designer’s thought process when tackling a layout. Ultimately, a product spec or design guideline will provide the detailed design guidance, but rules of thumb can help to provide the general guidance that will help to streamline the layout process and avoid design or manufacturing issues.
Sat Nusapersada Chooses Siemens' Process Preparation Software to Boost NPI and SMT Line Efficiency
11/21/2024 | Siemens Digital Industries SoftwareSiemens Digital Industries Software announced that Sat Nusapersada, one of the largest Electronics Manufacturing Services (EMS) providers in Indonesia, has adopted its Process Preparation software to reduce its timescale for New Product Introduction (NPI) of printed circuit board assemblies and improve the efficiency of its Surface Mount Technology production lines by 23 percent.