The term “quality control” (QC) shows up in a variety of industries, from software design to food safety. It’s incredibly impactful in electronics manufacturing as well, where mistakes are easy to make and costly to fix.
What is quality control, and why is it important? What are some quality control methods to achieve it?
You may be wondering what steps you need to follow for a proper quality control program in your manufacturing plant. Let’s answer these questions now.
Electronic quality control is an integral part of the production line. This top-level priority dictates the quality of factory output. QC matters because:
For the sake of both your brand’s reputation and your clients, never skimp on quality control during the manufacturing process. Let’s get into some methods for QC.
Quality control can apply to any part of the manufacturing, including the component selection, the data processing, and the process optimization.
Electronics depend on circuit boards, which themselves are made up of tiny components. Potential issues you may face include selecting the right components and accurately attaching them to the appropriate boards.
In terms of procurement, you want to ensure you still have a steady supply during times of supplier shortage. There’s also the need to avoid counterfeit parts. Management responds to these risks by verifying the availability of components beforehand and only choosing reputable suppliers.
The assembly of equipment relies heavily on precise data. Data is necessary for executing risk analyses and tracking down errors in the production line. This data must be traceable throughout the organization, and some industries even have regulations for it.
If no other standard is specified, the electronics industry often recommends the ISO 9001 Quality Management Systems standard.
Standards can also include performance classifications, such as IPC-6011 Generic Performance Specification for Printed Boards. This code classifies electronic products into 3 classes, each specifying a certain limit on the number of errors in the production.
Other useful standards are J-STD-001 (Requirements for Soldered Electrical and Electronic Assemblies) and IPC 610-A (Acceptability of Electronic Assemblies), which offer guidelines for the assembly process.
Quality control in electronics manufacturing is clearly an important part of any assembly line. Your business’s quality assurance plan must include the following critical processes.
By reducing the instance of setbacks, you can minimize losses in electronics manufacturing. Risk management also involves delivering on time and meeting deadlines properly. This way, your company is able to reduce liabilities and resolve issues before they can impact the rest of the process.
The success of quality control initiatives relies on the staff that work for it. Hiring experienced engineers with the right skills and knowledge is a vital step.
Keep in mind that some engineers work for multiple companies. For instance, an engineer may perform quality assurance on PCBs for one business and handle a different task for another.
While more of an added bonus rather than an essential step, quality certifications can fill the gaps that most quality control practices overlook. Certifications aim to address equipment quality and the skills of the workers.
These can be a boost for branding, as it raises the reputation of the manufacturer. Clients will likely be impressed too since it acts much like a service guarantee.
The IPC, a trade association designed to standardize electronics manufacturing, acts as the initial line of QA for many organizations. This official group defines the acceptance quality level (AQL) of an electronic component and rejects parts that produce too many defective units.
There are 3 main classes involved that determine how reliable a part is. Class 1 is mainly for general items like remote controls, whereas Class 3 is reserved for heavy duty products that are meant to last. Class 2 can be thought of as an intermediary.
A common practice is the First Article Approval, where the plant builds a batch of products and puts the first unit off the production line through a stringent QC process. If the test passes, then the entire batch continues to mass production.
While First Article Approval is not the end of the story, it does jumpstart production and lead the way for other QC-related tasks.
Finally, having a traceability system in place helps make sure products come out safe and reliable, especially when you order components from overseas or rely heavily on human-operated activities.
Automation has found its way into many aspects of modern business, and electronics manufacturing is no exception.
Electronics manufacturing software is now available to automate many steps of the process, ensuring full visibility into the quality control aspects of any production line.
Are you interested in seeing what electronics manufacturing software can do for your business? Book a discovery call with Vanti-Analytics today to get started.