by 工作熊
歡迎來到「工作熊聊電子製造」的Podcast頻道,這個頻道會聊聊工作熊知道的一些關於電子製造、SMT(貼焊)、wave soldering(波焊)與組裝的資訊。目前的計畫是先將已發表在YouTube的影片同步到這個Podcast平台,讓大家可以在不需要用眼睛的情況下也可以閱讀工作熊的文章。如果你喜歡我們的節目,請幫忙按讚、訂閱、分享並5星留言,讓更多人可以知道我們的節目,你也可以在資訊欄中找到節目的所有相關連結。 《在SoundOn贊助工作熊》 https://pay.soundon.fm/podcasts/e570c874-a770-4722-a5d3-30cc37e7f135 -- Hosting provided by <a href="https://www.soundon.fm/" target="_blank">SoundOn</a>
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Publishing Since
3/25/2024
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March 27, 2026
A PCB (Printed Circuit Board) is the bare board with copper traces that connects electronic components. A PCBA (Printed Circuit Board Assembly) is a PCB with components already soldered on. Simply put, PCBA = PCB + Assembly. The PCB acts as the foundation, while the PCBA is the complete, functional circuit board used in electronic devices. Read more articles on our English blog: ✅What Do PCB and PCBA Stand For? What’s the Difference?<a href="https://mpe.researchmfg.com/different-pcb-pcba/">https://mpe.researchmfg.com/different-pcb-pcba/</a> ✅How EMS fabricate a PCB Assembly? <a href="https://mpe.researchmfg.com/how-ems-fabricate-a-pcb-assembly/">https://mpe.researchmfg.com/how-ems-fabricate-a-pcb-assembly/</a> ✅What difference between SMT (Surface Mount Technology) and SMD (Surface Mount Device)? <a href="https://mpe.researchmfg.com/smt-surface-mount-technology/">https://mpe.researchmfg.com/smt-surface-mount-technology/</a> ✅What is Wave Soldering? Laminar Wave and Turbulent Wave Purpose <a href="https://mpe.researchmfg.com/wave-soldering/">https://mpe.researchmfg.com/wave-soldering/</a> Watch more on YouTube: 🎢 5 Key Mindsets Before You Start Writing an 8D Report <a href="https://youtu.be/AGP75yuuej4">https://youtu.be/AGP75yuuej4</a> 🎢 How to evaluate whether an 8D report is well written <a href="https://youtu.be/zOJ5ZCJxEfU">https://youtu.be/zOJ5ZCJxEfU</a> 🎢 QC 7 tools – Cause and Effect Analysis (Fishbone) Diagram Introduction <a href="https://youtu.be/7MH-h_7_TGA">https://youtu.be/7MH-h_7_TGA</a> 🎢 Deep Dive: Comparing SMD and NSMD Pad Designs for BGA Solder Joint Reliability <a href="https://youtu.be/agPNiwJL_eU">https://youtu.be/agPNiwJL_eU</a> 🎢 What is IMC (Intermetallic Compounds) part I? The role of IMC plays in the soldering <a href="https://youtu.be/bPJcJpjAd9k">https://youtu.be/bPJcJpjAd9k</a> 🎢 5 Key Mindsets Before You Start Writing an 8D Report <a href="https://youtu.be/AGP75yuuej4">https://youtu.be/AGP75yuuej4</a> 🎢 8D Reports Made Simple: How to Solve Problems at Work—and at Home <a href="https://youtu.be/v12w0EehazI">https://youtu.be/v12w0EehazI</a> 《Facebook電子製造討論區》<a href="https://www.facebook.com/groups/researchmfg">https://www.facebook.com/groups/researchmfg</a> Apple podcast: <a href="https://podcasts.apple.com/us/podcast/工作熊聊電子製造/id1737667580">https://podcasts.apple.com/us/podcast/工作熊聊電子製造/id1737667580</a> -- Hosting provided by <a href="https://www.soundon.fm/">SoundOn</a>
March 18, 2026
在臺北,有一種以城市命名的「臺北赤蛙」。 曾經遍布半個臺灣,現在卻成了瀕危動物…… 這集邀請人禾環境倫理發展基金會, 帶我們走進第一線的棲地保衛戰。 從友善農法到棲地修復,還有許多默默守護自然的人, 努力讓臺北赤蛙的叫聲不再消失🐸 一起來收聽最新一集《一銀陪你聊“新”事》🎧 <a href="https://sofm.pse.is/8uc2mc">https://sofm.pse.is/8uc2mc</a> -- 日常奔波,是否讓你忘了好好照顧自己? 把行程放心交給旅行老朋友「喜鴻假期」。 我們用超值的貼心款待,替你卸下生活疲憊。 你只需要帶著期待,去感受沿途風景, 將純粹的快樂收進專屬回憶裡。 搜尋「喜鴻假期」, 陪你寫一段段美好的旅行故事! <a href="https://sofm.pse.is/8uc2m8">https://sofm.pse.is/8uc2m8</a> ----以上為 SoundOn 動態廣告---- 前陣子工作熊接到了前長官的電話,他興奮地分享說,他終於又解決了一項工程難題─PCBA發生漏電流(leakage current)或維持電流(retention current)過大的問題,最終導致備份電池提前耗光電量。而他解決的方法居然是把回焊爐的溫度曲線(reflow temperature profile) 從 RTS 改成 RSS。這究竟是怎麼一回事? 話說從頭,RD 當初為了要解決RF及板子變形問題,特意把屏蔽罩(shielding-can)設計成了幾乎完全密封的一體成型樣式,而且製程還從沖壓成型(stamping)改成了抽管成型(drawing),產品在試產及驗證的階段都沒有太大問題,可是經過市場的一段時間使用後,卻陸陸續續出現備用電池提前耗光的問題,從寄回的不良品中分析其原因,發現是一顆位於屏蔽罩內的QFN封裝的PMIC,出現了漏電流(leakage current)及維持電流(retention current)過大問題。 《相關YouTube影片》 🎢 SMT回焊:什麼是RSS曲線?什麼又是RTS曲線?兩者又各有何優缺點?<a href="https://youtu.be/Aq87c8jt5kw">https://youtu.be/Aq87c8jt5kw</a> 🎢 屏蔽罩下BGA本體破裂案例分析 <a href="https://youtu.be/-2RZtpcHgZ8">https://youtu.be/-2RZtpcHgZ8</a> <a href="https://youtu.be/rqXF0lJqZBs">https://youtu.be/rqXF0lJqZBs</a> 🎢 SMT回焊溫度曲線發生平移、飄移、抖動、溫度短暫抬升是怎麼一回事? <a href="https://youtu.be/7UqiWB853_I">https://youtu.be/7UqiWB853_I</a> 《參考文章》 ✅什麼是漏電流(leakage current)與保持電流(retention current)?<a href="https://www.researchmfg.com/2026/02/leakage-current-retention-current/">https://www.researchmfg.com/2026/02/leakage-current-retention-current/</a> ✅比較屏蔽罩(shielding-can)直接SMT打件與後置的優缺點<a href="https://www.researchmfg.com/2017/02/shielding-can-directly-mount/">https://www.researchmfg.com/2017/02/shielding-can-directly-mount/</a> ✅焊接後的隱藏威脅:助焊劑殘留如何影響電子性能?<a href="https://www.researchmfg.com/2025/01/flux-residue-cause-defect/">https://www.researchmfg.com/2025/01/flux-residue-cause-defect/</a> ✅助焊劑在焊接中的角色:4大核心成分與它們的作用解析<a href="https://www.researchmfg.com/2025/01/what-is-flux/">https://www.researchmfg.com/2025/01/what-is-flux/</a> ✅助焊劑的種類解說,電路板焊接後為何要水洗?水洗製程、免洗製程有何差異?有那些電子零件不建議水洗?<a href="https://www.researchmfg.com/2018/09/clean-non-clean-flux/">https://www.researchmfg.com/2018/09/clean-non-clean-flux/</a> ✅什麼是X-Ray?選購X射線檢測機時須注意什麼事項?<a href="https://www.researchmfg.com/2024/09/x-ray-introduction/">https://www.researchmfg.com/2024/09/x-ray-introduction/</a> ✅SMT回焊爐加氮氣(N2)的優缺點探討<a href="https://www.researchmfg.com/2018/08/n2-reflow/">https://www.researchmfg.com/2018/08/n2-reflow/</a> ✅整理SMT回焊爐添加氮氣(N2)對各種焊接不良的影響與效果<a href="https://www.researchmfg.com/2022/03/n2-affect-solder-defect/">https://www.researchmfg.com/2022/03/n2-affect-solder-defect/</a> ✅SMT回流焊的溫度曲線(Reflow Profile)解說與注意事項 <a href="https://www.researchmfg.com/2010/07/reflow-profile/">https://www.researchmfg.com/2010/07/reflow-profile/</a> ✅回流焊的爐溫曲線應該使用RSS(馬鞍)型?還是RTS(斜昇)型? <a href="https://www.researchmfg.com/2018/02/rss-rts/">https://www.researchmfg.com/2018/02/rss-rts/</a> ✅深入了解錫膏(solder paste)及助焊劑(flux)組成對電子組裝的品質影響 <a href="https://www.researchmfg.com/2013/04/solder-paste/">https://www.researchmfg.com/2013/04/solder-paste/</a> 《系列YouTube影片》 🛠️EP001 片式電容零件頂部偶發焊錫短路問題討論 <a href="https://youtu.be/DYAh0BE17yU">https://youtu.be/DYAh0BE17yU</a> 🛠️EP002 BGA虛焊失效模式可以使用X-ray分析嗎? <a href="https://youtu.be/S-Pzfe4-wrY">https://youtu.be/S-Pzfe4-wrY</a> 🛠️EP003 屏蔽罩下BGA本體破裂案例分析 <a href="https://youtu.be/-2RZtpcHgZ8">https://youtu.be/-2RZtpcHgZ8</a> 🛠️EP004 波焊製程為何容易發生焊錫拉尖的問題? <a href="https://youtu.be/-U1JLpGbAxE">https://youtu.be/-U1JLpGbAxE</a> 🛠️EP005 焊錫(Soldering) vs. 焊接(Welding)的差異 <a href="https://youtu.be/ZzkWzSP-BBE">https://youtu.be/ZzkWzSP-BBE</a> 🛠️EP006 網友求助問:SMT焊點表面出現一層顆粒狀金屬球是什麼? <a href="https://youtu.be/0A8Ge42XyzM">https://youtu.be/0A8Ge42XyzM</a> 🛠️EP007 SMT回焊前為何要先量測溫度曲線 <a href="https://youtu.be/U8QexEkFY1s">https://youtu.be/U8QexEkFY1s</a> 🛠️EP008 SMT回焊:什麼是RSS曲線?什麼又是RTS曲線?兩者又各有何優缺點? <a href="https://youtu.be/Aq87c8jt5kw">https://youtu.be/Aq87c8jt5kw</a> 🛠️EP009 SMT回焊溫度曲線發生平移、飄移、抖動、溫度短暫抬升是怎麼一回事?<a href="https://youtu.be/7UqiWB853_I">https://youtu.be/7UqiWB853_I</a> 🛠️EP010 什麼是CAF電路板內層微短路、導電性陽極細絲物? <a href="https://youtu.be/iXQq2xzT_-U">https://youtu.be/iXQq2xzT_-U</a> 🛠️EP011 你知道什麼是打叉板(cross-out boards)?打叉板會影響SMT的產出效率嗎? <a href="https://youtu.be/tDDdu_WREG8">https://youtu.be/tDDdu_WREG8</a> 🛠️EP012 什麼是PCB與PCBA?它們之間有什麼差異?區別是什麼? <a href="https://youtu.be/TD5bLFhd0Ro">https://youtu.be/TD5bLFhd0Ro</a> 🛠️EP013《案例分析》油脂及白色粉末沾汙在電路板PCB按鍵金手指造成按鍵功能不良 <a href="https://youtu.be/CiRosFceFrs">https://youtu.be/CiRosFceFrs</a> 🛠️EP014 SMT或波焊的熱應力(thermal stress)是否造成BGA錫裂? <a href="https://youtu.be/Gbmrr363Bvo">https://youtu.be/Gbmrr363Bvo</a> 🛠️EP015 用案例說明ENIG印刷電路板的金層厚度品質是否影響零件從PCB掉落? <a href="https://youtu.be/m5AfnrhiOQ0">https://youtu.be/m5AfnrhiOQ0</a> 🛠️EP016 你會幫電子郵件做分類?分類後會提升工作效率? <a href="https://youtu.be/OyFzZLaInP8">https://youtu.be/OyFzZLaInP8</a> 🛠️EP017 你會如何整理、活用並有效管理自己的電子郵件清單? <a href="https://youtu.be/pA9G1n7xzU4">https://youtu.be/pA9G1n7xzU4</a> 🛠️EP018 你如何使用代辦事項清單(To-do list)工具? <a href="https://youtu.be/RaHlErg3VjU">https://youtu.be/RaHlErg3VjU</a> 🛠️EP019 PCB的SMD與NSMD焊墊設計哪種較能減少BGA焊接氣泡產生? <a href="https://youtu.be/wZZ_EqiS0OE">https://youtu.be/wZZ_EqiS0OE</a> 🛠️EP020 滑鼠連點的原因與解決方案探討-實作修復G102滑鼠 <a href="https://youtu.be/A9f4GhTJ4o0">https://youtu.be/A9f4GhTJ4o0</a> 🛠️EP021 PCBA硫化汙染問題案例:原因、分析與解決方案 <a href="https://youtu.be/yhASapH5kh0">https://youtu.be/yhASapH5kh0</a> 🛠️EP022 板子SMT後電測正常,整機組裝後發現主板死機 <a href="https://youtu.be/7IWYHFKoMdg">https://youtu.be/7IWYHFKoMdg</a> 🛠️EP023 這種波焊的短路問題就只能這樣了嗎?<a href="https://youtu.be/-bbjEKLJ1eg">https://youtu.be/-bbjEKLJ1eg</a> 🛠️EP025 MSOP高低溫度循環測試後出現錫裂的可能原因探討 <a href="https://youtu.be/IJe_J-nyaHo">https://youtu.be/IJe_J-nyaHo</a> 🛠️EP026 品管七大工具:魚骨圖介紹、特性要因分析圖(Cause and Effect Analysis)重新配音 <a href="https://youtu.be/K6PEbU30wJY">https://youtu.be/K6PEbU30wJY</a> 🛠️EP027 如何評估一份8D report寫得好不好 <a href="https://youtube.com/shorts/1vTwcgmCHDk">https://youtube.com/shorts/1vTwcgmCHDk</a> 🛠️EP028 5個 8D report 開始寫作前的重要觀念 <a href="https://youtu.be/_fjfc-RCZqQ">https://youtu.be/_fjfc-RCZqQ</a> 🛠️EP029 什麼是 8D report?8D是寫給誰看?8D的使用時機?8D可以運用在日常生活上嗎?<a href="https://youtu.be/DeeKtOsOLxU">https://youtu.be/DeeKtOsOLxU</a> 《Facebook電子製造討論區》<a href="https://www.facebook.com/groups/researchmfg">https://www.facebook.com/groups/researchmfg</a> Apple podcast: <a href="https://podcasts.apple.com/us/podcast/工作熊聊電子製造/id1737667580">https://podcasts.apple.com/us/podcast/工作熊聊電子製造/id1737667580</a> Spotify:<a href="https://open.spotify.com/show/6l0DmlBUen6ptGJtCPXNER?si=5ecd99a07f3a454c">https://open.spotify.com/show/6l0DmlBUen6ptGJtCPXNER?si=5ecd99a07f3a454c</a> 《影片章節》 00:09 影片開始 00:35 背景說明 01:33 故事的起源 04:32 回焊製程後清洗殘留助焊劑? 05:02 開氮氣(N2)可以降低助焊劑殘留? 05:47 將回焊溫度曲線從RTS變更為RSS解決助焊劑殘留 08:33 那為何將回焊溫度曲線變更為RSS有用呢? 09:56 屏蔽罩打孔會影響RF及EMI效果嗎? 12:53 小結 -- Hosting provided by <a href="https://www.soundon.fm/">SoundOn</a>
November 24, 2025
The 8D report is a structured problem-solving method that originated from U.S. military standards and was later popularized by Ford Motor Company. It guides a team through eight steps to clarify the issue, identify root causes, plan short-term and long-term actions, and prevent the same problem from happening again. 8D isn’t just for responding to customer complaints—it’s also widely used internally for quality issues, knowledge sharing, cross-department collaboration, and building customer trust. Beyond work, the same logic can be applied to daily life, like reducing forgetfulness, managing schedules, or improving family routines. In short, 8D is a practical framework that strengthens critical thinking and boosts efficiency. Read more articles on our English blog: ✅8D Report: Problem Analysis and Solving <a href="https://mpe.researchmfg.com/8d-report/">https://mpe.researchmfg.com/8d-report/</a> ✅The Role of Process Engineers and Product Engineers in a Company <a href="https://mpe.researchmfg.com/the-process-product-engineer/">https://mpe.researchmfg.com/the-process-product-engineer/</a> ✅The Role of a Manufacturing Testing Engineer in a Company <a href="https://mpe.researchmfg.com/testing-engineer/">https://mpe.researchmfg.com/testing-engineer/</a> ✅Understanding the Role and Responsibilities of Quality Engineers (QC/QA) in a Factory <a href="https://mpe.researchmfg.com/qc-qa/">https://mpe.researchmfg.com/qc-qa/</a> Watch more on YouTube: 🎢 5 Key Mindsets Before You Start Writing an 8D Report <a href="https://youtu.be/dyecRI2cdI0">https://youtu.be/dyecRI2cdI0</a> 🎢 How to evaluate whether an 8D report is well written <a href="https://youtu.be/zOJ5ZCJxEfU">https://youtu.be/zOJ5ZCJxEfU</a> 🎢 QC 7 tools – Cause and Effect Analysis (Fishbone) Diagram Introduction <a href="https://youtu.be/7MH-h_7_TGA">https://youtu.be/7MH-h_7_TGA</a> 🎢 Deep Dive: Comparing SMD and NSMD Pad Designs for BGA Solder Joint Reliability <a href="https://youtu.be/agPNiwJL_eU">https://youtu.be/agPNiwJL_eU</a> 🎢 What is IMC (Intermetallic Compounds) part I? The role of IMC plays in the soldering <a href="https://youtu.be/bPJcJpjAd9k">https://youtu.be/bPJcJpjAd9k</a> 《Facebook電子製造討論區》<a href="https://www.facebook.com/groups/researchmfg">https://www.facebook.com/groups/researchmfg</a> Apple podcast: <a href="https://podcasts.apple.com/us/podcast/工作熊聊電子製造/id1737667580">https://podcasts.apple.com/us/podcast/工作熊聊電子製造/id1737667580</a> Spotify:<a href="https://open.spotify.com/show/6l0DmlBUen6ptGJtCPXNER?si=5ecd99a07f3a454c">https://open.spotify.com/show/6l0DmlBUen6ptGJtCPXNER?si=5ecd99a07f3a454c</a> -- Hosting provided by <a href="https://www.soundon.fm/">SoundOn</a>
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歡迎來到「工作熊聊電子製造」的Podcast頻道,這個頻道會聊聊工作熊知道的一些關於電子製造、SMT(貼焊)、wave soldering(波焊)與組裝的資訊。目前的計畫是先將已發表在YouTube的影片同步到這個Podcast平台,讓大家可以在不需要用眼睛的情況下也可以閱讀工作熊的文章。如果你喜歡我們的節目,請幫忙按讚、訂閱、分享並5星留言,讓更多人可以知道我們的節目,你也可以在資訊欄中找到節目的所有相關連結。
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