Comment l'inspection optique automatisée améliore-t-elle la qualité des PCBA?

Même les plus petits défauts dans un assemblage de circuits imprimés (PCBA) peut causer de gros problèmes à l’avenir aux fabricants d’électronique. Defective boards that pass testing and make it into customers’ hands risk field failures, réparations coûteuses, and lasting damage to your brand’s reputation. So how can you catch these minute defects before they become headaches? The answer is automated optical inspection (AOI) – an extremely useful quality control technique designed specifically for inspecting PCBAs during production.

But what exactly is AOI and how does implementing it lead to higher quality finished boards? Dans ce blog, I’ll give an overview of how AOI technology works and why implementing it can drastically improve your inspection process. À la fin, you’ll see why AOI should be a core part of your quality management strategy.

What Is Automated Optical Inspection?

Automated optical inspection is an automated quality control method used in electronics manufacturing that visually inspects printed circuit boards and assemblies for defects during production using computer vision cameras and software. AOI provides fast, cohérent, and detailed inspection by capturing high resolution images to check for flaws like missing components, wrong parts, poor solder joints, and other issues, without physical contact with the boards. Implementing AOI enables early detection of defects before value is added, leading to improved quality, higher yields, and reduced manufacturing costs.

https://www.www.youtube.com/watch?v=ncBWtigSu3w

How Does Automated Optical Inspection Work?

An AOI machine uses multiple light sources to illuminate a PCB from different angles, along with high-resolution computer vision cameras or video cameras to capture comprehensive images of the board. The PCB moves along a conveyor under the cameras. Precision transport mechanisms and advanced lighting ensure clear images highlighting components, solder joints, markings, and other features across the entire board surface. AOI software then analyzes the captured images, scanning them autonomously to check for defects without the need for human visual inspection. The algorithms compare images to a golden board reference, inspecting for defects based on programmed standards. Any problems found are flagged and classified by type, with images and data recorded.

Benefits of Automated Optical Inspection

  1. Precision Positioning

The precision of the positioning in production equipment and AOI machines is a critical factor. Even minute deviations in placement can result in many flaws. Automated optical inspection offers superior accuracy in detecting small positional inconsistencies.

  1. Cost-Effective Inspection

AOI provides rapid, repeatable and affordable inspection. The installation process is straightforward with online guides, enabling quick deployment. AOI testing can improve pass rates for PCBs, lowering overall costs.

  1. Programmable lighting

Proper lighting is key for machine vision applications. The electronics field is constantly evolving, so no single light source can reveal every potential defect. AOI systems can configure arrays of lights in software and optimize contrast to uncover different flaws.

  1. Increased production speed

Automated inspection is much faster than manual inspection. AOI systems can operate 24/7 and inspect parts at high speeds. This increases throughput and productivity.

  1. Network-capable software

AOI utilizes advanced network-capable software tools to enable zero-defect manufacturing. AOI provides flexible solutions for any PCB inspection need. Data collection and access are critical AOI capabilities. It can gather information in various formats like images, text and more.

  1. Flexible Integration

AOI offers excellent flexibility, allowing deployment at any production stage. Performing AOI post reflow soldering is often best, as major defects tend to occur after soldering.

Defects That PCB Optical Inspection Can Find

AOI is capable of detecting a wide range of defects on the surface, dimensions, Composants, and PCB itself.

  • For surface defects, AOI can identify issues like nodules, rayures, bosses, coating errors, et plus. It uses imaging techniques to analyze the entire surface, finding any irregularities that may impact performance or longevity. Even tiny defects invisible to the human eye can be detected.
  • When inspecting dimensions, AOI checks for problems like open circuits, des courts-circuits, thinner solder, and violations of spacing or width guidelines. Precise measurements on solder joints, Traces de PCB, and other features quickly identify any out-of-spec dimensions. This helps avoid functionality issues or mechanical weaknesses.
  • Inspecting components, AOI can find wrong, missing, or misaligned parts. It confirms component presence, orientation, skew, and polarity against PCB design files. Flipped, décalage, or tombstoned components are easily flagged. AOI also inspects solder joints, paste coverage, and more to ensure proper attachment.
  • For the PCB itself, AOI checks for short circuits, excess copper, missing pads, spacing violations, and via issues. It can detect any damage, breakage, or errors in mounting components. This comprehensive inspection protects circuit integrity and performance.

AOI Test from MOKO Technology

Chez MOKO Technology, we utilize automated optical inspection as one key process to deliver high-quality printed circuit boards to our customers. Our AOI systems use advanced cameras and image processing software to efficiently identify assembly errors and defects. This technology improves detection accuracy over manual visual inspection, especially for complex PCBs and high-volume production.

In addition to AOI, we employ a range of other testing methods to verify PCBA quality, comprenant essai de sonde volante, automatic X-ray inspection, test en circuit, PCB electrical testing, etc. For more information about the AOI test, please click here to send us a message, and we will promptly respond with more details about our capabilities.

Julie Wang

Julie est une spécialiste des tests électroniques, offrant une gamme complète de services de test pour divers types de PCB et de produits électroniques, améliorer les performances des produits et le rendement des tests de production, et effectuer diverses tâches d'ingénierie de soutien à la production.

Messages récents

BGA Reballing: An Essential Process in Electronics Repair and Maintenance

BGA reballing emerges as a critical repair technique for modern electronic devices. Aujourd'hui, appareils électroniques…

5 days ago

What Are PCB Stiffeners? Exploring Their Types, Uses, and Thicknesses

Do you know what PCB stiffeners are? They are widely used in flex and rigid-flex

2 weeks ago

Why PCB Warpage Happens and How You Can Prevent It?

Dans le processus de fabrication des PCB, PCB warpage is a common problem that manufacturers would encounter.

1 month ago

What Is a PCB Netlist? Tout ce que vous devez savoir est ici

In the world of printed circuit board design and manufacturing, precision and accuracy are paramount.

2 months ago

What Is Solder Wetting and How to Prevent Poor Wetting?

Soldering is a cornerstone technique in electronics assembly, it's used to connect electrical pieces and

2 months ago

7 Critical Techniques to Improve PCB Thermal Management

Aujourd'hui, electronic products are both compact and lightweight while performing a variety of functions. Ce…

2 months ago