2019年2月17日星期日

Automatic Visual Inspection Machine Was Introduced To Help Automated Manufacturing Process By Shenzhen Sipotek Technology

The automated optical inspection machine developed by Sipotek Technology allows visual inspection of products during the manufacturing process to help detect any defects.
With their great experience in the image technologies, Sipotek Technology designs and develops visual inspection machines that can be used for checking defects in products and devices. These machines can allow to conduct inspections at various stages of product development, so that flaws, errors and component missing issues can successfully be avoided. The machines are designed to automate the production process and maintain the quality of the finished products.
According to the company spokesperson, the Sipotek Visual Inspection Machine uses the image comparison technology to match the image of a product with the given template. This makes it possible to detect any flaws in the product and which can be rectified before the final production of the product. The company offers full size precision testing machines that adopts the dynamic data acquisition algorithms and carries out the image analysis to automatically detect any error in the product. The machine features an excellent detection speed and outstanding detection accuracy, and can test glass, steel and various other materials. The machine can also be upgraded to include the 3d visual detection capabilities.

The company particularly boasts of its automated optical inspection machine that is aimed at reducing the human error of inspection. In the traditional production processes, humans are engaged in the inspection process, and which is often prone to errors. On the other hand, the automatic inspection machine uses the superior image vision technology to quickly and successfully detect all types of errors, whether it is related to quality or missing components. The machine can capture high resolution images of a product at a staggering speed of up to 100 frames per second. According to the needs of the manufacturing process, the machine can capture product images and which can be processed automatically to find out any defects or errors in the product. Besides the product inspection, the machine can also carry out certain tasks, such as product identification, barcode reading, character recognition and others.

The spokesperson states that in today’s competitive environment, a company cannot rely on human inspection mechanisms alone. The company’s visual inspection machines make the task of error detection fast and simple and help automate the entire production cycle. A complete inspection of devices negates the chances of a catastrophic failure, while maintaining the quality at the same time. By combining the latest technologies, such as 3d visual and data analysis, the company develops machines that not only inspects products, but also process them. Using industrial cameras and image processing software, these machines can perform a robust image inspection and meet the customer demands.
To learn how a visual inspection machine can automate the production process, one can visit the website https://www.sipotek.net/ .

About Shenzhen Sipotek Technology Co., Ltd

Started in 2002, Sipotek Technology is located in Shenzhen in China. The company designs and manufactures visual inspection systems with its avant-garde R&D department and a great experience in artificial vision technologies. The Sipotek Technology staff supports customers 360 degrees, from listening to their requests to the development of ambitious machines for quality control.
For Media Inquiries:
Contact Person: James Yuan
Tel: 86-755-36994123
Website: https://www.sipotek.net
               http://www.siputaike.com
               https://www.machine-visions.com/

AOI machine,automatic or automated optical inspection systems used in electronics PCB printed circuit board manufacturing

Automatic or automated optical inspection, AOI, is a key technique used in the manufacture and test of electronics printed circuit boards, PCBs. Automatic optical inspection, AOI enables fast and accurate inspection of electronics assemblies and in particular PCBs to ensure that the quality of product leaving the production line is high and the items are built correctly and without manufacturing faults.

Need for AOI, automatic optical inspection

Despite the major improvements that have been made, modern circuits are far more complicated than boards were even a few years ago. The introduction of surface mount technology, and the subsequent further reductions in size mean that boards are particularly compact. Even relatively average boards have thousands of soldered joints, and these are where the majority of problems are found.
This increase in the complexity of boards also means that manual inspection is not a viable option these days. Even when it was an accepted approach, it was realised that it was not particularly effective as inspectors soon tired and poor and incorrect construction was easily missed. With the marketplace now requiring high volume, high quality products to be brought to market very quickly very reliable and fast methods are needed to ensure that product quality remains high. AOI, automatic optical inspection is an essential tool in an integrated electronics test strategy that ensure costs are kept as low as possible by detecting faults early in the production line.
One of the solutions to this is to use automated or automatic optical inspection systems. Automated optical inspection systems can be placed into the production line just after the solder process. In this way they can be used to catch problems early in the production process. This has a number of advantages. With faults costing more to fix the further along the production process they are found, this is obviously the optimum place to find faults. Additionally process problems in the solder and assembly area can be seen early in the production process and information used to feedback quickly to earlier stages. In this way a rapid response can ensure that problems are recognised quickly and rectified before too many boards are built with the same problem.
COMPARISON OF THE MAJOR DEFECT DETECTION CAPABILITIES OF AOI, AXI AND ICT
DEFECT TYPEAOIAXIICT
      Soldering defects
            Open circuitsYYY
            Solder bridgesYYY
            Solder shortsYYY
            Insufficient solderY (not heel of joint)YN
            Solder voidNYN
            Excess solderYYN
            Solder qualityNYN
      Component defects
            Lifted leadYYY
            Missing componentYYY
            Misaligned or misplaced componentYYY
            Incorrect component valueNNY
            Faulty componentNNY
      BGA and CSP defects
            BGA shortsNYY
            BGA open circuit connectionsNYY

AOI, automatic optical inspection basics

AOI, automatic optical inspection systems use visual methods to monitor printed circuit boards for defects. They are able to detect a variety of surface feature defects such as nodules, scratches and stains as well as the more familiar dimensional defects such as open circuits, shorts and thinning of the solder. They can also detect incorrect components, missing components and incorrectly placed components. As such they are able to perform all the visual checks performed previously by manual operators, and far more swiftly and accurately.
They achieve this by visually scanning the surface of the board. The board is light by several light sources and one or more high definition cameras are used. In this way the AOI machine is able to build up a picture of the board
The automated optical inspection, AOI system uses the captured image which is processed and then compared with the knowledge the machine has of what the board should look like. Using this comparison the AOI system is able to detect and highlight any defects or suspect areas.
AOI uses a number of techniques to provide the analysis of whether a board is satisfactory or has any defects:
Template matching: Using this form of process the AOI, automated optical inspection system compares the image obtained with the image from a “golden board”.
Pattern matching: Using this techniques the AOI system stores information of both good and bad PCB assemblies, matching the obtained image to these.
Statistical pattern matching: This approach is very similar tot hat above, except that it uses a statistically based method of addressing problems. By storing the results of several boards and several types of failure, it is able to accommodate minor acceptable deviations without flagging errors.
In order to build up the database of what the board should be, both known status boards and PCB design information is used as described later.
As technology has improved it has been able for AOI systems to very accurately predict defects and have a small number of no defect found scenarios. As such AOI systems form a very useful element in a sophisticated manufacturing environment.

AOI image capture and analysis

One of the key elements of an AOI, automated optical inspection system is the image capture system. This captures an image of the printed circuit board, PCB assembly which is then analysed by the processing software within the AOI system. There are many variants of image capture system dependent upon the exact application and the complexity / cost of the AOI system.
Imaging systems may comprise a single camera or there may be more than one to provide better imaging and the possibility of a 3D capability. The cameras should also be able to move under software control. This will enable them to move to the optimum position for a given PCB assembly.
In addition to this the type of camera has an impact on performance. Speed against accuracy is a balance that has to be struck and will impact on the camera type used:
Streaming video: One type of camera used for automated optical inspection, AOI, takes streaming video from which complete frames are taken. The captured frame then enables a still image to be generated on which the signal processing is performed. This approach is not as accurate as other still image systems but has the advantage of very high speed.
Still image camera system: This is generally placed relatively close to the target PCB and as a result it requires a good lighting system. It may also be necessary to be able to move the camera under software control.
When analysing an image of a board, the AOI system looks for a variety of specific features: component placement, component size, board fiducials, label patterns (e.g. bar codes), background colour and reflectivity, etc. As an important element of its task the AOI system also inspects the soldered joints to ensure they indicate that the joints are satisfactory.
When analysing the boards the AOI system must take into account many variations between good boards. Not only do components vary considerably in size between batches, but also the colour and reflectivity. Often there are also differences in the silk screening where ink thickness and colour typeface may change slightly.

AOI light source

Lighting is a key element in the AOI system. By choosing the correct lighting source it is possible to highlight different types of defect more easily. With the advances that have been made in lighting technology in recent years, this has enabled lighting to be used to enhance the images available and in turn this enables defects to be highlighted more easily with a resultant reduction in processing required and an increase in speed and accuracy.
Most AOI systems have a defined lighting set. This will depend upon the operation required and the product types to be tested. These have usually been optimised for the anticipated conditions. However sometimes some customisation may be required, and an understanding of lighting is always of use.
A variety of types of lighting are available:
Fluorescent lighting: Fluorescent lighting is widely used for AOI, automated optical inspection applications as it provides an effective form of lighting for viewing defects on PCBs. The main problem with fluorescent lighting for AOI applications is that the lamps degrade with time. This means that the automated optical inspection system will be subject to a constantly changing levels and quality of light
LED lighting: The development of LED lighting has meant that AOI, automated optical inspection systems are able to adopt a far more stable form of lighting. Although LED lighting does suffer from a reduction in light output from the LEDs over time, this can be compensated for by increasing the current. Using LED lighting, the level of lighting can also be controlled. LEDs are therefore a far more satisfactory form of lighting than fluorescent or incandescent lights that were used years ago
Infra-red or ultra-violet: On some occasions infra-red or ultra-violet lighting may be required to enhance certain defects, or to enable automated optical inspection to be carried out to reveal certain types of defect.
Apart from the form of lighting, the positioning of the lighting for an automatic optical inspection system, AOI, is equally important. The light sources require positioning to not only to ensure that all areas are well light, which is particularly important when certain components may cast shadows, but also to highlight defects. Careful adjustment may be needed for different assemblies.

AOI, automated optical inspection system programming

In order to be able to test a PCB assembly using AOI, automatic optical inspection, the details for an acceptable board must be stored within the system. This programming activity must be carried out correctly if the AOI system is to be able to correctly detect any defects on the PCB assemblies passing through.
there are several methods that can be used to programme an AOI system:
Use of “Golden Board”: One method is to provide a known good board as a target for the AOI, automated optical inspection system to use. This is passed through the system so that it can learn the relevant attributes. It will look at the components, the solder profiles of each joint, and many other aspects. In order to provide the system with enough variance data several boards are often required.
Algorithm based programming: PCB data is provided to the system and it then generates its own profile for the board. This scheme will also require real boards, but fewer are generally required.
There are advantages and disadvantages to both systems. It is a balance between set-up time, maintenance, accuracy and the requirements for the particular AOI, automated optical inspection system. Typically the requirements will be largely dependent upon the machine in use.
It is essential that any printed circuit board manufacturing area is able to check the quality of the boards coming off the end of the line. Only in this way are they able to monitor quality and when problems are detected to rectify the process so that further boards are not affected by the same problems. In this way automatic optical inspection and where necessary X-ray inspection are two essential tools for the manufacturing industry.

Sipotek Automatic Visual Inspection Machine For Injectable Products In Automated Manufacturing Environment From China Manufacturers

These automatic machines include automated optical inspection machineone-click visual inspection machinefull-size precision testing equipment and other machines to carry out a complete visual inspection of PCBs, prototypes and products.
For an automated quality control, Sipotek Technology has a unique range of visual inspection machines. These machines are very important for the manufacturing industry, where products need to be checked for their accuracy.  These machines come fitted with industrial cameras to capture the product image at an incredible frame speed. The image comparison software then automatically matches the images with the given product template to help detect any difference. This visible difference could be any kind of defect that needs to get rectified before starting a mass production.
According to the spokesperson of the company, they have a variety of ccd visual inspection machines for the manufacturing industry. These machines are designed by adopting a combination of latest technologies, such as image capture, data analysis, image comparison, character recognition etc. The Sipotek Visual Inspection Machine is an advanced machine to check parameters like length, height, diameter, deformities, distortions etc. Besides, issues like dark spots, blurred marks, and scratches on the surface can also be detected using this machine.  The spokesperson reveals that this visual inspection machine can efficiently check different materials such as plastic, stainless steel and rubber. It comes with an automatic feeding system and carries out the inspection task in a speedy manner.
There are other types of machines in their portfolio, such as the high speed precision testing equipment, which features 12 sets of camera lenses that can work simultaneously.  The machine’s main function is to carry out full-size testing of cell phone parts. With very high inspection accuracy, it can have a remarkable detection speed of about 4000pcs/h.  The machine can effectively be used for testing of glass, stainless steel and other materials.  The spokesperson reveals that this equipment can also be upgraded for the 3d visual detection.
The company’s automated optical inspection machine is a reliable instrument that can help automate the manufacturing process. The machine can be implemented for production testing at various stages during the manufacturing process. This helps maintain the accuracy and a precise product can be manufactured that can exactly meet the requirements of the client. The spokesperson states that this inspection machine features an advanced lighting and optics technology. Fitted with industrial cameras, it can capture high-quality images at a speed of up to 100 frames per second. The machine uses the image comparison software to automatically find out defects and missing components in a product or prototype.
To learn more about the company’s visual inspection machine range, one can visit the website https://www.sipotek.net/ .

About Shenzhen Sipotek Technology Co., Ltd
Started in 2002, Sipotek Technology is located in Shenzhen in China. The company designs and manufactures visual inspection systems with its avant-garde R&D department and a great experience in artificial vision technologies. The Sipotek Technology staff supports customers 360 degrees, from listening to their requests to the development of ambitious machines for quality control.
For Product Inquiries:
Contact Person: James Yuan
Tel: 86-755-36994123
Website: https://www.sipotek.net
               http://www.siputaike.com
               https://www.machine-visions.com/

Lighting Kit For Automated Optical Inspection Machines And Eqiupments Sytems In Circuit Boards Testing Process

Sipotek is a professional china automated optical inspection machine manufacturers located in shenzhen city,major products including visual inspection machine and automated optical inspection (AOI) machine.
Today Sipotek will tell you something about the lighting kit for automated optical inspection machines and eqiupments sytems in circuit boards testing process.
When analyzing a circuit image, the Automated optical inspection, AOI system searches for various specific parameters: internal markers, component placement, component size, label templates (for example, barcodes), reflectivity and background color, etc. As an important part of its task, the AOI system also inspects welded joints to ensure that they indicate that the joints are satisfactory.
Now, when analyzing circuit boards, the AOI system must take into consideration many distinctions among the good circuit boards. Not only do components differ considerably in color, but also in size and reflectivity. There are also often screen printing differences where the ink thickness and color type may change a bit.
AOI light source
Lighting is a major part of the AOI system. By selecting the accurate light source, different types of defects can be more easily detected. Thanks to advances in lighting technology over the last few years, it has allowed us to use lighting to improve the available images and, thus, to highlight faults more easily, resulting in reduced necessary treatment and increased speed and precision.
Many AOI systems have a defined lighting package. This will depend on the operation need and the types of products to be tested. These were generally optimized for the expected conditions. However, sometimes personalization and understanding of lighting can always be helpful.
Different types of lighting are available:
Fluorescent Lighting: Now, fluorescent lighting is vastly used for AOI type automated optical inspection applications because it offers an effective form of illumination for displaying defects on printed circuit boards. The main problem with fluorescent lamps for AOI applications is that lamps break down over time. What this implies is that the automated optical inspection system will be subject to ever-changing light levels and quality.
LED lighting: The manufacture of LED lighting has enabled AOI automated optical inspection systems to adopt a more stabilized form of lighting. Although light-emitting diode lighting suffers from a reduction in light output over time, this increase can be offset by an increase in current. With the use of LED lighting, you can also control the lighting level. LEDs are therefore much more satisfactory lighting than incandescent or fluorescent lamps used in the past.
Ultraviolet or Infrared: In some cases, you may need ultraviolet or infrared lamps to improve some defects or to allow automatic optical control to detect certain types of defects.
In addition to the shape of the lighting, the positioning of the lighting for an automatic optical control system, AOI, is also important. Light sources must be positioned not only to ensure that all areas are well lit, which is especially important when some components may project shadows, but also to expose defects. For different mountings, careful adjustment might be necessary.
AOI, automatic programming of optical control system
In order to test a printed circuit board assembly using AOI, automated optical inspection, the details of an acceptable array must be stored in the system. This programming task must be performed correctly if the AOI system is meant to properly detect any faults on the PCBs being passed through.
Several methods can be used to program an AOI system:
Using “Golden Board”: A method used is to provide a circuit board called target for the automated optical inspection system(AOI). This went through the system so that it could learn the relevant attributes. Now, it will analyze the components, the welding profiles of each joint and many other aspects. To provide the system with enough data, several circuit boards are often needed.
Sipotek Technology has a variety of visual inspection machines that allow easy and quick detection of flaws in a product. They also have the single click detection machine that is easy to operate and is fast and efficient to perform testing. The machine is designed to shorten the inspection time and reduce the human error, while assembling or manufacturing a product. With its rapid detection technique, the machine software quickly matches the template and detects the defects or missing components. The company helps automate the manufacturing process and enables companies to stay competitive.
One can check the features of their inspection machines by visiting the website https://www.sipotek.net/ .

About Shenzhen Sipotek Technology Co., Ltd
Started in 2002, Shenzhen Sipotek Technology Co., Ltd is located in Shenzhen in China. The company designs and manufactures visual inspection systems with its avant-garde R&D department and a great experience in artificial vision technologies. The Sipotek Technology staff supports customers 360 degrees, from listening to their requests to the development of ambitious machines for quality control.
For Product Inquiries:
Contact Person: James Yuan
Company: Shenzhen Sipotek Technology Co., Ltd
Tel: 86-755-36994123