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研究生:周煜智
研究生(外文):Yu-Zhe Chou
論文名稱:晶圓製造廠目標導向型生產活動控制系統之設計
論文名稱(外文):The Design of Target-oriented Production Activity Control System in a Wafer Fabrication
指導教授:鍾淑馨鍾淑馨引用關係
指導教授(外文):Shu-Hsing Chung
學位類別:碩士
校院名稱:國立交通大學
系所名稱:工業工程與管理系
學門:工程學門
學類:工業工程學類
論文種類:學術論文
論文出版年:1999
畢業學年度:87
語文別:中文
論文頁數:158
中文關鍵詞:晶圓製造生產活動控制目標監控負荷暫存區
外文關鍵詞:Wafer FabricationProduction Activity ControlTarget MonitorLoadStocker
相關次數:
  • 被引用被引用:22
  • 點閱點閱:254
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  • 收藏至我的研究室書目清單書目收藏:0
因應晶圓製造市場競爭激烈之情況,本文立處於"客戶導向型"生產製造環境下,進行一目標導向型生產活動控制系統之設計。該系統除需面臨原有製造現場既存之不確定因素外,尚需克服因客戶臨時性下單、換單與工單停滯所帶來之衝擊;另外,為確保"客戶導向"之落實與維持產出、週期時間與達交績效之穩健性,於設計系統控制機制的同時,亦針對各項目標加以監控,以確保目標之達成。除前述問題外,本文並突破工作站暫存區無容量限制之傳統假設,使其立論基礎更切合實務。
目標導向型生產活動控制系統,包括:投料反應機制、派工決策機制與目標監控系統。其中,投料與派工機制以負荷型雙界法(load-oriented two-boundary)為主軸,此法係由修正雙界法(TB+)結合負荷導向工單製造法(LOMC)之理念,以實際負荷觀取代原始TB+實體在製品觀之作法後所衍生;而目標監控系統則是以促使目標之達成為標的,其子機制與個別目標如下:交期達成度監控係以掌控工單交期為目的;關鍵工作站現況監控則以監控關鍵工作站之負荷狀況與防止瓶頸缺料為使命;產線平衡監控期能促使監控單位之實際負荷愈趨近於規劃負荷;暫存區容量監控則著眼於防止工作站擁塞上。
經實例驗証顯示:負荷型雙界法確實能彌補TB+以實體在製品量設定門檻之缺失,其成效反應於降低週期時間標準差與全距之績效上;而目標監控系統亦能於產出達規劃目標之前提下,有效避免暫存區擁塞情況,並持續改善週期時間績效與達交績效,此情況實能說明本文所設計之目標導向型生產活動控制系統具備完整應用性。
In the highly competitive environment, this thesis proceeds to design the target-oriented production activity control system (TOPAC) for the customer-oriented wafer fabrication. On the assumption that each stocker has limited capacity, differing from tradition, this system not only has to handle the uncertain events (machine down, PM), but also carries the impact from customer''s casual demands (order trade-off, lot hold). Besides, in order to success in customer-oriented production, TOPAC also focuses on achieving such performance targets as throughput, cycle time, and delivery.
The TOPAC consists of order release mechanism, dispatching mechanism, and target monitor system. Order release mechanism and dispatching mechanism are executed basing on the developing of the load-oriented two-boundary control (LOTB). The LOTB applies the idea of the revised two-boundary (TB+) and load-oriented manufacturing control (LOMC);however, the physical WIP threshold of TB+ is replaced with load threshold. Target monitor system, designed for achieving targets, has four subsystems with individual goal as follows: due-date monitor for order delivery, critical-resource monitor for checking critical resource''s load state and avoiding bottleneck starvation, line-balance monitor for keeping each layer load close to the corresponding target, stocker-space monitor for preventing stockers from burst.
The case study shows that LOTB can reduce standard deviation and the range of product cycle time, which results from the WIP measuring in load so as to offset the weakness of using physical WIP level in TB+. Additionally, target monitor system also achieves the throughput targets with less blocks, shorter cycle time and better delivery performance. Thus, the designed TOPAC is applicable in customer-oriented wafer fabrication.
章節目錄i
表目錄iii
圖目錄v
符號說明vii
第一章 緒論1
1.1研究背景與動機1
1.2 研究目的2
1.3 研究範圍與限制2
1.4 研究方法與步驟4
第二章 文獻探討7
2.1 生產活動控制系統7
2.2 工單審核與發放11
2.3 投料法則14
2.4 派工法則27
2.4.1 一般派工法則27
2.4.2 批量機台派工法則33
2.5 生產控制指標35
第三章 模式構建39
3.1 問題分析與定義39
3.2 目標導向型生產活動控制系統41
3.3 目標監控系統43
3.3.1 交期達成度監控43
3.3.2 關鍵機台現況監控46
3.3.3 產線平衡監控51
3.3.4 暫存區容量監控57
3.4 投料反應機制64
3.4.1 雙界法與負荷導向製造控制之比較64
3.4.2 負荷型雙界法(load-oriented two-boundary;LOTB)67
3.4.3 投料反應機制之流程架構70
3.5 派工決策機制76
3.5.1 主要機種加工特性76
3.5.2 派工決策機制之流程架構79
第四章 實例驗証85
4.1 系統環境說明85
4.2 輸入資訊與模式驗証86
4.2.1 基本輸入資訊86
4.2.2 模擬模式正確性之驗証91
4.3 實驗設計與結果分析94
4.3.1 實驗一:現場投料、派工法則之成效比較94
4.3.3 實驗二:目標監控系統各機制對生產績效之影響性探討99
第五章、結論與未來研究方向107
5.1 結論107
5.2 未來研究方向109
參考文獻110
附錄116
履歷157
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