Trends in the production of plastic package ICs
- Authors: Plis N.1, Rudakov V.1
-
Affiliations:
- АО «Ангстрем»
- Issue: No 9 (230) (2023)
- Pages: 100-109
- Section: Design solutions
- URL: https://journals.eco-vector.com/1992-4178/article/view/633095
- DOI: https://doi.org/10.22184/1992-4178.2023.230.9.100.109
- ID: 633095
Cite item
Abstract
The article considers the evolution of the IC package domestic concept and the new requirements placed on it. A classification of IC packages according to the degree of tightness is proposed. From an analysis of IC production and application global practice, it follows that the future of the electronics industry lies in polymer package ICs.
Full Text
![Restricted Access](https://journals.eco-vector.com/lib/pkp/templates/images/icons/text_lock.png)
About the authors
N. Plis
АО «Ангстрем»
Author for correspondence.
Email: plis@angstrem.ru
к. т.н., первый заместитель генерального директора
Russian FederationV. Rudakov
АО «Ангстрем»
Email: valeryrudakov@rambler.ru
д.ф-м.н., ведущий специалист
Russian FederationReferences
- Kwak H., Hubing T. An overview of advanced electronic packaging technology. Technical report: CVEL-07-001, 2007.
- Kim J. T., Ham K. S., Park S. I. Plastic Air Cavity Encapsulation Process. – GaAs MANTECH, 1997.PP. 149–152.
- Prototype Assembly with Open Cavity Packages. – MAJELAC Technologies, 2017.
- Боднарь Д. Пластмассовые корпуса с открытой полостью для интегральной и СВЧ-электроники // Компоненты и технологии. 2016. № 11.С. 137–144.
- Громов В. Металлокомпозитные корпуса с полостью. Альтернатива металлокерамическим корпусам микросхем и полупроводниковых приборов // ЭЛЕКТРОНИКА: Наука, Технология, Бизнес. 2014. № 2. С. 106–112.
- Волков В. И. Сборка и герметизация микроэлектронных устройств. М.: Радио и связь, 1982, 144 с.
- Gilleo K., Jones D., Brown R., Pham-Van-Diep G. The Time is Right for Injection-Molded Packages. SMTA-International, Sept. 27, 2004, Chicago, IL, PP. 1–10.
- Zetterer Th., Herzberg J., Baehr J., Waxman K. When Failure is not an Option – Packaging Materials and Technologies for the Reliable Protection of Medical Electronics. – IMAPSource Proceedings 2018 (1): 512–16. https://doi.org/10.4071/2380-4505-2018.1.000512
- Green T. J. Hermetic vs. “Near Hermetic” Packaging – a Technical Review. 2018.PP. 1–5, https://www.tjgreenllc.com.
- Гиллео К. Будущее за пластиками // Печатный монтаж. 2006. № .6.С. 14–16.
- Bereznycky P. Ceramic to Plastic Packaging. – Empfasis, 2010.PP. 1–8.
- Ceramic to Plastic Packaging. – ACI Technologies, Inc. Techtips. 2017.
- Lopez-Buedo S., Boemo E. Electronic Packaging Technologies. – Universidad Autonoma de Madrid. – http://www.doe.carleton.ca/~tjs/10-Packaging.pdf
- Federico Z. Future Trends in Microelectronics Device Packaging. 2015. 22 p.
- Keller G. A Review of Semiconductor Packaging. 2015.
- Huemoeller R., Arcedera A., Alapati R. Five Industry-Leading Packaging Technologies. – Meptec Report. Winter 2016. PP. 20–23. – https://c44f5d406df450f4a66b-1b94a87d576253d9446df0a9ca62e142.ssl.cf2.rackcdn.com/2018/01/11_16-Big_Five_Industry-Leading_Packaging_Technologies.pdf
- Nakamura Y., Katogi S. Technology Trends and Future History of Semiconductor Packaging Substrate Material. – Hitachi Chemical Technical Report. No. 55.PP. 24–29.
- Ahmad M. Advanced packaging: five trends to watch in 2017. – Electronic Products Magazine. Website. 01/25/2017.
- Шумахер У. Полупроводниковая электроника. Справочник. – Издательство: Infinion Technologies AG, 2004. 590 с.
- Pittman L. D., Chance V. O., Renegar P. L. Use of Plastic Encapsulated Microcircuits (PEMs) in Military Equipment. – https://nepp.nasa.gov/docuploads/C9B660A6-27EE-4A0F-A75017DBA3AE94CE/Use%20of%20PEMs%20in%20Military%20Equipment.pdf
- Verdi F. RF Packaging Advancements for Navy Applications. – https://smtnet.com/library/files/upload/RF-Packaging.pdf
- Biddle S. R. Commercial Plastic Microcircuits – A Total Solution For Military Applications? – https://nepp.nasa.gov/docuploads/6000C904–3093–44CA-96A78169BC195A26/Commercial%20Plastic%20Microcircuits%20A%20Total%20Solution%20For%20Military%20Applications.pdf
- Gerke R. D., Shapiro A. A., Agarwal S., Peters D. M., Sandor M. A. Use of Plastic Commercial Off-The-Shelf (COTS) Microcircuits for Space Applications. – Proceedings of InterPack 03: International Electronic Packaging. Maui, Hawaii, USA. July 6–11, 2003. – https://asmedigitalcollection.asme.org/InterPACK/proceedings/InterPACK2003/36908b/801/299172
- De Heus R. Self Qualification Results. NiPdAu pre-plated leadframes, Green Molding Compound and Green Die-Attach for TSSOP8/10/38 packages assembled at Subcontractor Amcor Technologies Philippines. 2005. Philips Internal Report No.: RNR-83–05/RdH/RdH-2028.
Supplementary files
Supplementary Files
Action
1.
JATS XML
Download (124KB)
Download (211KB)
4.
Fig. 3. Evolution of the pin shape [14]. The apostrophe before the number means that it is perceived as a text symbol; the authors [14] use these symbols to show the scale in reducing the thickness of the microcircuit case. The brackets in the BGA mean the possibility in the future to reduce the thickness of the BGA case to the indicated symbolic size.
Download (152KB)
Download (309KB)
![](/img/style/loading.gif)