• Title/Summary/Keyword: build-up printed circuit board

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THE RECENT TREND OF BUILD-UP PRINTED CIRCUIT BOARD TECHNOLOGIES

  • Takagi, Kiyoshi
    • Journal of Surface Science and Engineering
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    • v.32 no.3
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    • pp.289-296
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    • 1999
  • The integration of the LSI has been greatly improved and the circuit patters on the LSI are becoming finer line and pitch. The high-density electronic packaging technology is improved. In order to realize the high-density packaging technology, the density of the circuit wiring of the printed circuit boards have also been more dense. The build-up process multilayer printed circuit board technology have a lot of vias, possibilities of the finer conductor wirings and have a freedom of capabilities of wiring design. The build-up process printed circuit boards have the wiring rules which are the pattern width: $100-20\mu\textrm{m}$, the via hole diameter: $100-50\mu\textrm{m}$. There three kinds of build-up processes as far materials and hole drilling. In this paper, the recent technology trends of the build-up printed circuit board technologies are described.

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Development of Build-up Printed Circuit Board Manufacturing Process Using Rapid Prototyping Technology and Screen Printing Technology (쾌속조형과 스크린 인쇄기술을 이용한 빌드업인쇄회로기판의 제조공정기술개발)

  • 조병희;정해도;정해원
    • Journal of the Korean Society for Precision Engineering
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    • v.17 no.2
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    • pp.130-136
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    • 2000
  • Generally, the build-up printed circuit board manufactured by the sequential process with etching, plating, drilling etc. requires many types of equipments and lead time. Etching process is suitable for mass production, however, it is not adequate for manufacturing prototype in the developing stage. In this study, we introduce a screen printing technology to prototyping a build-up printed circuit board. As for the material, photo/thermal curable resin and conductive paste are used for the formation of dielectric and conductor. The build-up structure is made by subsequent processes such as the formation of liquid resin thin layer, the solidification by UV/IR light, and via filling with conductive paste. By use of photo curable resin, productivity is greatly enhanced compared with thermal curable resin. Finally, the basic concept and the possibility of build-up printed circuit board prototyping are proposed in comparison with to the conventional process.

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Development of Build-up Printed Circuit Board Manufacturing Process Using Rapid Prototyping Technology and Screen Printing Technology

  • Im, Yong-Gwan;Cho, Byung-Hee;Chung, Sung-Il;Jeong, Hae-Do
    • International Journal of Precision Engineering and Manufacturing
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    • v.4 no.4
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    • pp.51-56
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    • 2003
  • Generally, the build-up printed circuit board manufactured by a sequential process involving etching, plating, drilling, etc, which requires many types of equipments and long lead time. Etching process is suitable for mass production, however, it is not adequate for manufacturing a prototype in the development stage. In this study, we introduce a screen printing technology for prototyping a build-up printed circuit board. As for the material, photo/thermal curable resin and conductive paste are used for the formation of dielectric and conductor. The build-up structure is made by subsequent processes such as formation of a liquid resin thin layer, solidification by a UV/IR light, and via hole filling with a conductive paste. By use of photo curable resin, productivity is greatly enhanced compared with thermal curable resin. Finally, the basic concept and the possibility of build-up printed circuit board prototyping are proposed in comparison with the conventional process.

Development of Build-up Printed Circuit Board Manufacturing Process Using Functional Prototype Fabrication Technology (기능성 시작품 제작기술을 이용한 빌드업인쇄회로기판의 제조 공정기술 개발)

  • Im, Yong-Gwan;Cho, Byung-Hee;Chung, Sung-Il;Jeong, Hae-Do
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.2 no.2
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    • pp.14-21
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    • 2003
  • Rapid prototyping(RP) has been used for design verification and proto sample or mold manufacturing. Many RP systems have been introduced into the market during the past 15 years. However, until now, the systems have used mainly for external physical models (mono function), and have the basic but critical limitation of one material on one stage (mono material). To overcome the limitations of mono-material and mono-function of conventional. RP systems, the concept of Functional Phototype Development (FPD) is newly proposed in this paper FPD provides the necessary prototype functions such as mechanical, optical, chemical and electrical properties in order to meet the broad requirements of the industry. The paper illustrates the representative achievements of electronic components such as the multi-layer printed circuit board(MLB). Experimental results demonstrate that FPD has great potential applied to broad industrial uses and that It Will be a powerful tool in the neat future.

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Patent Survey on Build-up PCB (Build-up PCB 특허출원동향)

  • Yeo Woon Dong;Kim Kang Hoe;Kim Jae Woo;Bae Sang Jin
    • Proceedings of the IEEK Conference
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    • 2004.06a
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    • pp.269-272
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    • 2004
  • Printed circuit boards (PCB) replaced conventional wiring in most electronic equipment I, reducing the size and weight of electronic equipment while improving reliability, uniformity, precision and performance. PCB is used in all kinds of electronic products because they can be mass-produced with very high circuit density and also enable easier trouble-shooting. This paper presents the analyses of the patent information of Build-up PCB which is seen as the most promising solution, as its substrate supports multi-level packaging, thinner board profiles and smaller pitches.

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Roadmap toward 2010 for high density/low cost semiconductor packaging

  • Tsukada, Yutaka
    • Proceedings of the International Microelectronics And Packaging Society Conference
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    • 1999.12a
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    • pp.155-162
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    • 1999
  • A bare chip packaging technology by an encapsulated flip chip bonding on a build-up printed circuit board has emerged in 1991. Since then, it enabled a high density and low cost semiconductor packaging such as a direct chip bonding on mother board and high density surface mount components, such as BGA and CSP. This technology can respond to various requirements from applications and is considered to take over a main role of semiconductor packaging in the next decade.

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Effects of Chloride Ion on Accelerator and Inhibitor during the Electrolytic Cu Via-Filling Plating (전해 Cu Via-Filling 도금에서 염소이온이 가속제와 억제제에 미치는 영향)

  • Yu, Hyun-Chul;Cho, Jin-Ki
    • Journal of Surface Science and Engineering
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    • v.46 no.4
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    • pp.158-161
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    • 2013
  • Recently, the weight reduction and miniaturization of the electronics have placed great emphasis. The miniaturization of PCB (Printed Circuit Board) as main component among the electronic components has also become progressed. The use of acid copper plating process for Via-Filling effectively forms interlayer connection in build-up PCBs with high-density interconnections. However, in the case of copper-via filled in a bath, which is greatly dependent on the effects of additives. This paper discusses effects of Cl ion on the filling of PCB vias with electrodeposited copper based on both electrochemical experiment and practical observation of cross sections of vias.

Effect of Desmear Treatment on the Interfacial Bonding Mechanism of Electroless-Plated Cu film on FR-4 Substrate (Desmear 습식 표면 전처리가 무전해 도금된 Cu 박막과 FR-4 기판 사이의 계면 접착 기구에 미치는 영향)

  • Min, Kyoung-Jin;Park, Young-Bae
    • Korean Journal of Materials Research
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    • v.19 no.11
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    • pp.625-630
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    • 2009
  • Embedding of active devices in a printed circuit board has increasingly been adopted as a future electronic technology due to its promotion of high density, high speed and high performance. One responsible technology is to embedded active device into a dielectric substrate with a build-up process, for example a chipin-substrate (CiS) structure. In this study, desmear treatment was performed before Cu metallization on an FR-4 surface in order to improve interfacial adhesion between electroless-plated Cu and FR-4 substrate in Cu via structures in CiS systems. Surface analyses using atomic force microscopy and x-ray photoemission spectroscopy were systematically performed to understand the fundamental adhesion mechanism; results were correlated with peel strength measured by a 90o peel test. Interfacial bonding mechanism between electrolessplated Cu and FR-4 substrate seems to be dominated by a chemical bonding effect resulting from the selective activation of chemical bonding between carbon and oxygen through a rearrangement of C-C bonding rather than from a mechanical interlocking effect. In fact, desmear wet treatment could result in extensive degradation of FR-4 cohesive strength when compared to dry surface-treated Cu/FR-4 structures.