Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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23 | 12 | 2024
2024, 07 July

DOI: 10.14489/td.2024.07.pp.054-067

Artemyev B. V., Isroilov Zh. O., Samuhair Mulatola, Selivanov K. V.
EQUIPMENT FOR X-RAY INSPECTION OF PRINTED CIRCUIT BOARDS, INCLUDING BGA
(pp. 54-67)

Abstract. In the modern world, there is mass production of electronic equipment, microelectronics and electronic components. To reduce the number of defects and refine production processes, it is imperative to control the quality of manufactured products at all stages of production. Of all the non-destructive methods of installation quality control, the most effective is radiation non-destructive testing, namely X-ray tomography. This article provides an overview of equipment designed for X-ray tomography and laminography used in quality control of soldering and installation of electronic equipment. The equipment under consideration makes it possible to identify defects that arise when the technological process of electronic equipment production is disrupted, including poor-quality soldering when installing microcircuits in BGA packages.

Keywords: non-destructive testing, laminograph, tomograph, X-ray, BGA, printed circuit board.

B. V. Artemyev, Zh. О. Isroilov, Samuhair Mulatola, K. V. Selivanov (Bauman Moscow State Technical University (National Research University), Moscow, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра. , Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.  

1. Artem'ev B. V., Bukley A. A. (2013). Radiation control. 2nd ed. Moscow: ID «Spektr». (Security Diagnostics). [in Russian language]
2. Zeng Lei. (2013). Research on technology for processing and analyzing three-dimensional CT images of printed circuit boards [D]. PLA Information Engineering University.曾磊. 刷电路板三维CT图像处理与分析技术研究[D]. 解放军信息工程大学, 2013.
3. Glebova A. A. (2017). X-ray inspection method for printed circuit boards. Almanac of scientific works of young scientists of the XLVI scientific and educational-methodological conference of ITMO University, 368(6), 46 ‒ 49. [in Russian language]
4. Shchetinkin S., Chahlov S., Usachev E. et al. (2006). "OREL" - a complex for testing microelectronic products using x-rays. Tekhnologiya v elektronnoy promyshlennosti, 80(3), 56 ‒ 58. [in Russian language]
5. Phoenix V|tome|x S240 microCT: technical document. Waygate Technologies. Retrieved from Waygate-Technologies_Phoenix-v-tome-xs240.pdf (ostec-smart.ru) [in Russian language]
6. 日联科技UNICOMP |AX9500. Retrieved from www.unicomp.cn/ECM-X-Rayi02041.html
7. Quality inspection of printed circuit assemblies: equipment catalogue. SMT technologies. Retrieved from https://www.smttech.ru/upload/uf/118/Инспекция%20печатных%20узлов.pdf [in Russian language]
8. Operational X-ray inspection: technical document. Waygate Technologies. Retrieved from https://ostec-smart.ru/upload/iblock/424/b90f6dfda1ff24f7d5f57ebb6b7f6a01.pdf [in Russian language]
9. Dage X-ray Inspection System – XD7600NT500: technical document. Nordson DAGE. Retrieved from https://images.bid-on-equipment.com/prod-documents/1396-XD7600NT500XRayInspectionSystem-0.pdf [in Russian language]
10. X-ray inspection system for printed circuit boards "Prodis.Scan": official website. Retrieved from https://prodis-tech.ru/x-ray-pcb-inspection-system-prodis-scan// (Accessed: 06.03.2024.) [in Russian language]
11. Shmakov M. (2006). Selecting an X-ray inspection system. Technologist's view. Tekhnologii v elektronnoy promyshlennosti, 100(4). [in Russian language]
12. Li Iingyuan. (2019). Research on BGA welding ball defect detection technology based on X-ray image. University of Electronic Science and Technology.李井元.基于X射线图像的BGA焊球气泡缺陷检测技术研究.2019.电子科技大学.
13. Kalinichenko N. P., Viktorova M. O. (2012). Atlas of solder joint defects: textbook. Tomsk: Izdatel'stvo Tomskogo politekhnicheskogo universiteta. [in Russian language]
14. Jiang G. Y., Yu M., Chen X. M., et al. (2002). Image Processing Based Defect Detection Algorithm for Pack-aged BGA Devices[J]. Computer Application Research, 19(7), 100 ‒ 101.蒋刚毅, 郁梅, 陈晓明, et al. 基于图像处理的BGA 封装器件缺陷检测算法[J]. 计算机应用研究, 2002, 19(7): 100 ‒ 101.
15. Li Chao-lin. (2011). A Study on Zero-Void Defect Control in Lead-Free BGA Solder Joints. Journal of Semiconductor Technology, 36(12), 972 ‒ 975. .李朝林. BGA 无铅焊点零空洞缺陷控制研究[J]. 半导体技术, 2011, 36(12): 972-975.
16. Zhang S., Wang M.Q., Guo J.Q. et al. (2017). Quantitative analysis of void defects in BGA solder joints. Jornal of Thermal Processing Technology, 15, 187 ‒ 189.张俊生, 王明泉, 郭晋秦, et al. BGA 焊点空洞缺陷的定量分析[J]. 热加工工艺, 2017, 15):187 ‒ 189.
17. Zhao Ruixiang. (2020). Research on bubble defect detection technology of BGA welding ball. North Central University.赵瑞祥.BGA焊球气泡缺陷检测技术研究.2020.中北大学.

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