Trouble in Your Tank: Organic Addition Agents in Electrolytic Copper Plating
Marcy’s Musings: Can You Hear the Voices?
The Marketing Minute: Strategic Short-form Content Builds Brand Momentum
Stepping Up to Laser Processing for Flex, Part 2: Calculating and Optimizing Production
April 14, 2016 | Mike Jennings and Patrick Riechel, ESIEstimated reading time: 1 minute
A Process of Continual Improvement
In Part 1 of this series, we discussed the advantages of adding flex laser processing to gain a competitive advantage. In Part 2 we will build on that discussion, looking at the ways you can optimize your flexible circuit laser processing to get the efficiencies that drive lower cost of ownership. When considering the cost associated with adding FPC processing, where do you look, what should you expect, and how can you control or minimize those costs?
Controlling Fixed costs
Aside from the obvious system purchase price and its associated depreciation expense, there are a variety of other—and less significant—fixed costs to consider. These can include system installation and personnel training costs, costs to qualify the system prior to running production, floor space allocation overhead allocation costs, as well as the costs related to upgrading facilities to meet the system’s site requirements. We will discuss site preparation in Part 3.
Typical areas to watch for in laser system site requirements include electrical, vacuum, compressed air, environmental air, as well as temperature and humidity. Neglecting any of these can result in poor product yield, scrap, or even damage to and downtime on your valuable UV laser system. Poor electrical power quality and sporadic brownouts and blackouts often can result in unexpected system errors, yield issues, and scrap.
Extending System Longevity
Typical high-power UV lasers used for flex processing have lifespans ranging from 1–2 years, although those lifespans may be drawn out if the laser is not in 24/7 use or the laser powers used for processing are much lower than the system’s work surface laser power specification.
Editor's Note: This article originally appeared in the March 2016 issue of The PCB Magazine.
Share on:
Suggested Items
Lam Research Donates Leading-Edge Etch System to Accelerate Nanofabrication R&D at UC Berkeley
04/17/2025 | PRNewswireLam Research Corp. announced the donation of its innovative multi-chamber semiconductor etching system to the Marvell Nanofabrication Laboratory at the University of California, Berkeley to advance research and development (R&D) for next-generation chip technologies.
New High Power 3D AXI for Power Electronics from Test Research, Inc.
04/17/2025 | TRITest Research, Inc. (TRI), a leading provider of Test and Inspection solutions for the electronics manufacturing industry, proudly announces the launch of the 3D AXI TR7600HP system. Designed for power semiconductor inspection, the TR7600HP enhances accuracy and efficiency in detecting defects in components such as IGBTs, MOSFETs, SiC inverters, and Paladin Connectors.
IPC APEX EXPO 2025 Review: The New Normal Looks Like the Old Normal
04/16/2025 | Nolan Johnson, SMT007 MagazineAt IPC APEX EXPO, my days are filled with either talking or listening from sunup to sundown. I get to answer questions of some of the brightest minds in the business, while also listening and synthesizing what they’re sharing with me about the current and future state of the industry. Here are five observations based on the conversations.
Smart and Compact Sensors with Edge-AI
04/16/2025 | FraunhoferA newly launched interdisciplinary research project involving universities of Brandenburg and research institutions is developing new technological approaches for better and more effective integration of artificial intelligence at the edges of IT networks, so-called “edges”.
Nortech Expands Fiber Optic Capabilities to Include MT Connectors, Strengthening Aerospace and Defense Solutions
04/16/2025 | BUSINESS WIRENortech Systems, a trusted leader in innovative connectivity solutions, announced an exciting expansion in its fiber optic capabilities with the integration of MT connectors. MT connectors, known for their ability to support multiple fiber terminations in a compact form factor, are an ideal choice for applications requiring robust data transmission and reliability.