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標題: RFID在太陽能多晶矽料分類上之應用
The application of RFID in poly crystalline silicon for a solar cell industry
作者: Wang-Cheng Yang
關鍵字: Photovoltaic cells;multi-crystalline;RFID;TAG;太陽能;多晶矽;RFID;TAG
引用: [1]MoneyDJ理財網,。 [2]成大產學電子報,。 [3]元智電子報,。 [4]陳育毅,RFID基本概念介紹,國立中興大學, [5] RFID標籤,SAG公司,。 [6] RFID簡介,SAG公司, [7] sunion公司RFID讀取器, 。 [8] RFID簡介,元智大學,。 [9] PL2303,Prolific,。 [10] 廖年琛,半導體封裝業MES導入成功因素之探討,國立中央大學,2003。 [11]陳永興,建構 RFID 監控技術應用在物流中心之風險分析,國立高雄第一科技大學,2004。 [12] Harrison, M., 'EPC Information Service (EPCIS),' Proceedings of 2004 Auto-ID Labs Workshop, pp. 29-30, August 2004. [13] Evdokimov, S., Günther, O., 'Practical Access Control Management for Outsourced EPC-Related Data in RFID-Enabled Supply Chain,' Proceedings of 2007 IEEE International Conference e-Business Engineering, pp. 331 - 336, October 2007. [14] Kapoor, G., Piramuthu, S., 'Vulnerabilities in Some Recently Proposed RFID Ownership Transfer Protocols,' Proceedings of IEEE Communications Letters, Vol. 14, No. 3, pp. 354-357, March 2010. [15] Peris-Lopez, P., Hernandez-Castro, C. J., Tapiador, M.E. J., Li, T., Li, Y.J., 'Vulnerability analysis of RFID protocols for tag ownership transfer,' Proceedings of 2010 Computer Networks Conference, Vol.54, pp. 1502–1508, November 2010. [16] Song, B., Mitchell, J. C., 'Scalable RFID Security Protocols Supporting Tag Ownership Transfer,' Proceedings of 2011 Computer Communications Conference, Vol. 34, pp. 556–566, March 2011. [17] Kardaş, S., Akgün, M., Kiraz, M.S., Demirci, H., 'Cryptanalysis of Lightweight Mutual Authentication and Ownership Transfer for RFID Systems,' Proceedings of 2011 Workshop on Lightweight Security & Privacy: Devices, Protocols, and Applications, pp. 20-25, March 2011. [18] He, W., Li, Y.J., Chiew, K., Li, T., Lee, E.W., 'A Solution with Security Concern for RFID-Based Track & Trace Services in EPCglobal-Enabled Supply Chains,' Designing and Deploying RFID Applications, ISBN 978-953-307-265-4, June 2011. [19] Kapoor, G., Zhou, W., Piramuthu, S., 'Multi-tag and Multi-owner RFID Ownership Transfer in Supply Chains', Proceedings of 2011 Decision Support Systems, Vol. 52, pp. 258–270, September 2011. [20] Ray, R. B., Chowdhury, M., Abawajy, J., 'Secure Mobile RFID Ownership Transfer Protocol to Cover all Transfer Scenarios,' Proceedings of 2012 7th Computing and Convergence Technology International Conference, pp. 1185 - 1192, December 2012. [21] Zhou, W., Yoon, E.Y., Piramuthu, S., 'Simultaneous multi-level RFID tag ownership & transfer in health care environments,' Decision Support Systems, Vol. 54, Issue 1, pp. 98–108, December 2012. [22]吳碧娥,無人當道 從工業4.0看智慧工廠趨勢,北美智權報,2014。 [23]賀桂芬、黃亦筠,德國的章魚戰略:工業4.0,天下雜誌564期,頁 116-137,2015。
In the process of multi-crystalline (MC) wafer production for Photovoltaic cells, it is difficult to classify silicon materials from its appearance with human eyes. However, it is necessary to mix the different classes of qualities of silicon materials in the MC wafer production. The risk of no good production is getting higher because the operators negligently mixed the different kinds of silicon materials during the moving process.
RFID is presented as a target product in this study to apply in the process of multi-crystalline wafer production for Photovoltaic cells. It can supply all different kinds of information of silicon materials such as source, date, attributes, quantities qualities…etc. to help the operators classify the silicon materials easily and efficiently.
Token type of RFID-TAG is applied to this study, because its qualities of small size, light weight, dust durable, acid wash durable, and temperature durable. An experiment RFID-TAG application in multi-crystalline wafer production for Photovoltaic cells was also performed in this study. RFID system was installed and all the problems related and data were also collected and analyzed as well.
The purpose of this study is shown. RFID system is the better risk management and the efficiency of silicon materials classification in the process of MC wafer mass production for Photovoltaic cells.

導入RFID產品,必需符合輕巧,耐粉塵、耐酸洗、耐高溫、耐碰撞等環境因素,以因應生產中所必需經歷的狀況,此實驗選用硬幣式RFID TAG,以因應以上環境狀況。實驗過程中,開發RFID讀取系統,並將每一批承載矽原料的容器掛載RFID TAG,經過酸洗、烘烤等製程後,測試讀RFID TAG取狀況,並收集各工作站讀取RFID的使用資訊。觀察使用RFID時遇到的問題,進行分析與統計,檢討應用面上人為或非人為的影響因素,並依據問題提出改善方式,讓導入RFID的作業流程更加順暢,最終目的不再需要人工分辨矽原料,而是透過RFID結合資訊系統來管理矽原料,進而降低人工辨識的風險,增加生產效率。
其他識別: U0005-1808201513294900
Rights: 同意授權瀏覽/列印電子全文服務,2018-08-25起公開。
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