SMT-ELS機聯網通訊協定的材料握手軟體實作

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姓名

張銘仁(Ming-Jen Chang) 查詢紙本館藏

畢業系所

資訊工程學系

論文名稱

SMT-ELS機聯網通訊協定的材料握手軟體實作
(Implementation of Material Handshake Software for SMT-ELS Protocol)

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至系統瀏覽論文 (2028-1-12以後開放)

摘要(中)

在工業物聯網蓬勃的發展下，生產線設備日益漸增，並涵蓋不同的通訊協定，為了提高數據在設備間的傳輸能力與可靠性，以及通訊協定能應用於不同的設備，國際半導體協會(SEMI)針對SMT生產線提出SMT-ELS通訊協定。本研究依據SEMI SMT-ELS A1/A1.1通訊協定，設計與實作出負責傳輸材料數據的材料握手軟體，我們利用Socket API架構，介於IEEE802.3之上，以TCP/IP通訊協議建立設備與設備間的連線，每台設備依據生產線軌道流動方向可視為Server端或Client端，模擬生產線實際的狀況，藉此驗證我們所設計與實作出的材料握手軟體在設備與設備間水平通訊的即時性與穩定性，透過材料握手軟體的邏輯訊號控制可即時掌握材料數據於不同設備間的傳輸狀態。

摘要(英)

With the vigorous development of the Industrial Internet of Things, the produc-tion line equipment is increasing day by day, and covers different communication protocols. In order to improve the transmission capability and reliability of data be-tween devices, and the communication protocol can be applied to different devices, the Semiconductor Equipment and Materials International(SEMI) proposes the SMT-ELS communication protocol for the SMT production line. According to the SEMI SMT-ELS A1/A1.1 communication protocol, this study designs and imple-ments the material handshake software responsible for the transmission of material data. We use the Socket API framework, which is based on IEEE802.3, and build equipment with the TCP/IP communication protocol. For the connection with the equipment, each equipment can be regarded as the server end or the client end ac-cording to the track flow direction of the production line, simulating the actual situ-ation of the production line, so as to verify the horizontal communication between the equipment and the equipment of the material handshake software we designed and implemented Real-time and stability, through the logic signal control of the ma-terial handshake software, the transmission status of material data between different devices can be grasped in real time.

關鍵字(中)

★ 材料握手

關鍵字(英)

論文目次

摘要 I
Abstract II
誌謝 III
目錄 IV
圖目錄 VI
表目錄 VIII
第一章、緒論 1
1.1 研究背景 1
1.2 研究目的 3
1.3 論文架構 3
第二章、文獻回顧 4
2.1 智慧生產 4
2.2 機聯網 4
2.3 SEMI SMT-ELS A1/A1.1通訊協定 6
2.4 MIAT高階系統設計方法論 9
2.4.1 IDEF0階層式架構設計 10
2.4.2 Grafcet離散事件系統建模 12
2.4.3 高階軟體合成 14
第三章、材料握手通訊協定軟體設計 18
3.1 材料握手通訊協定 18
3.2 材料握手通訊軟體架構 20
3.3 傳送端材料握手通訊模組離散事件建模 21
3.4 接收端材料握手通訊模組離散事件建模 23
3.5 錯誤偵測與重置離散事件建模 25
3.6高階軟體合成 26
第四章、軟體驗證與實驗結果 30
4.1 實驗開發環境 30
4.2 材料握手通訊機制 30
4.3 材料握手軟體實驗 32
4.3.1 設備間端口連線建立 32
4.3.2 材料握手通訊執行 33
4.3.3 材料數據傳送與接收驗證 34
4.3.4 材料數據接收完成結果 36
4.3.5 材料握手通訊異常與重置 38
第五章、結論與未來展望 40
5.1結論 40
5.2未來展望 41
參考文獻 42

參考文獻

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指導教授

陳慶瀚

審核日期

2023-1-17

推文