Adding rework to the test and inspection suite: the two processes don't talk to each other. They should.Not long ago, I was on a tour at a small contract manufacturer's site that prides itself on quality. This EMS builds medical and aerospace products, among other things. In speaking about its quality plans and how it defines quality, there was a thorough review of the test and inspection plans that includes manual visual inspection (MVI MVI Multivitamin MVI Multi-Vendor Import MVI Melt-Volume Index MVI Motor Vehicle Incident MVI MODIS Vegetation Index MVI Multiple Variable Inversion MVI Microsoft Virus Initiative MVI Multi-Vitamin Injection MVI Motion Video Instructions ), automated optical inspection Automated Optical Inspection (AOI) is an automated visual inspection of PCB(or LCD,transistor manufacture) where a camera autonomously scans the device under test for both catastrophic failure (eg. missing component) and quality defects (eg. , automated x-ray inspection Automated x-ray inspection (AXI) is a technology based on the same principles as automated optical inspection. It uses x-rays as its source, instead of visible light, to automatically inspect features, which are typically hidden from view. , in-circuit test and rework re·work tr.v. re·worked, re·work·ing, re·works 1. To work over again; revise. 2. To subject to a repeated or new process. n. . (We did not explore functional test.) Seeing the rework step included in its overall quality plan and part of the test and inspection discussion, I realized this is a very logical inclusion; one I previously had not entertained. I have written and read many papers mentioning rework and how by using AOI AOI Area Of Interest AOI Automated Optical Inspection AOI Art of Illusion (3D modeling software) AOI Associated Oregon Industries AOI Angle Of Incidence AOI Age of Innocence (David Hamilton book, also a band) , AXI AXI Automated X-Ray Inspection (electronics) AXI Association Xpertise Inc (Calgary, AB, Canada) AXI Ada to X-Window System Interface and ICT (1) (Information and Communications Technology) An umbrella term for the information technology field. See IT. (2) (International Computers and Tabulators) See ICL. 1. (testing) ICT - In Circuit Test. , a board assembler Software that translates assembly language into machine language. Contrast with compiler, which is used to translate a high-level language, such as COBOL or C, into assembly language first and then into machine language. can reduce rework, impact rework costs, and so on. However, I had never educated myself on rework from the perspective that it could be included in the test and inspection suite. [ILLUSTRATION OMITTED] I decided to invest some time in learning more about rework. I understood the standard definition of rework, which is the process of removing a faulty component from a PCB PCB: see polychlorinated biphenyl. PCB in full polychlorinated biphenyl Any of a class of highly stable organic compounds prepared by the reaction of chlorine with biphenyl, a two-ring compound. and then soldering a new component. I also would categorize the process steps associated with rework to include finding a failed component, removing it, residual solder removal and soldering a replacement component with appropriate reflow (1) The process of heating and melting the solder that has been screen printed onto a printed circuit board in order to bond chips and other components to the board. Surface mount chips (SMT) use the reflow method. Contrast with wave soldering. See also reflowable text. . However, when I envision a rework station in a production environment, I think of a workstation with an operator using a software interface from an upstream process (i.e., AOI, AXI, ICT) to determine where a fault is and take repair action. My idealistic view shows the inspection steps from the first-pass production communicating with the rework station in a tidy, closed-loop setup. After some investigation, I have determined this is not as likely as I thought. I have some familiarity with hand-soldering and manual rework, and while it was not in a manufacturing environment, I feel I have a good understanding of that process. In reading about rework, I confirmed time and temperature are critical to the reflow profile associated with removing and replacing components. These factors can impact long-term product quality. Hand soldering seemed risky, as I envisioned critical parts (medical, military) being reworked. Therefore, as part of my research, I visited an advanced rework equipment facility and operated one of its semiautomated sem·i·au·to·mat·ed adj. Partially automated. rework systems (Figure 1). I was surprised at how intuitive and easy it was to use. Because I primarily deal with "automated" systems in the automated inspection world, my first thought was, Why not completely automate this process? I quickly realized, if fully automated rework is needed, that would indicate a serious manufacturing or design problem to be revisited. The ability to properly heat/cool the board/components in a reliable fashion, and accurately place the component, are the most critical factors to consider. The semiautomated system I saw could reduce and eliminate variables associated with time and temperature, thus creating a reliable reworked product. [FIGURE 1 OMITTED] Continuous improvement at rework appears a little different than I would have thought. While a barcode scanner See bar code scanner. may be used to call up defects, it is often manual paper systems or Excel spreadsheets that initiate rework station actions. My idealistic view of a closed-loop software connection and shop-floor systems is reserved for but a few high-volume production sites. That said, some rework operators and engineers do revisit their rework data to identify a Pareto of consistently reworked defects, and therefore attempt to solve the up-the-line problems. It is through this effort that I have come to agree with a quote I found: "The rework and repair of printed circuit boards has never been more critical to the success of contract electronics manufacturers and OEMs than it is now." (1) Rework is a necessity. Process improvement, test and inspection will continue to improve yields and quality, but we will never achieve 100% yields. Therefore, it is critical to ensure all the right rework processes and equipment are in place to dictate long-term success. There is a great opportunity that lies ahead for inspection and test companies to incorporate rework into the test and inspection suite. As automation intensifies with AOI, AX1 and ICT, and software systems that talk to one another to close the loop become available, including the rework process should be a priority. Au.: Thank you to Robert Avila and Adrienne Gerard of Finetech for hosting my visit and for direction and consult during the preparation of this column. References (1.) Howard Rupprecht, Step 10: Rework & Repair, SMT (1) (Surface Mount Technology) See surface mount. (2) (Station ManagemenT) An FDDI network management protocol that provides direct management. Only one node requires the software. SMT - Station Management , January 2001. Stacy Kalisz Johnson is Americas marketing development manager at Agilent (agilent. com); stacy-johnson@agilent.com. |
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