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<p class="wp-block-paragraph">自從第一部應用了潛望å¼é•·ç„¦é¡é 的手機在 2019 年推出,這五年間推出了無數部é…備潛望å¼é¡é 的手機。近年我們都看到很多ä¸åŒçš„潛望å¼é¡é è¨è¨ˆï¼Œè€Œ Samsung 最近公佈了一個全新的潛望å¼é•·ç„¦é¡é è¨è¨ˆï¼Œæ‰€ä½”空間更å°ã€‚這個技術åˆæœ‰æœ›ä¸‹æ”¾åˆ°æ›´å¤šæ‰‹æ©Ÿä¸å—Žï¼Ÿ</p>



<figure class="wp-block-image size-large"><img src="https://danieltechdiary.com/wp-content/uploads/2024/11/samsung-telephoto-1024x576.jpg?crop=1" alt="" class="wp-image-29488"/></figure>



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<p class="wp-block-paragraph">傳統形態的潛望å¼é¡é 都已經出ç¾äº†äº”年,近年ä¸åŒå» 商都開始尋求新的è¨è¨ˆæŠ€è¡“,務求進一æ¥å£“縮長焦é¡é çš„é«”ç©ã€‚例如去年 Apple 就在 iPhone 15 Pro Max 起應用新的<a href="https://danieltechdiary.com/2023/09/24/iphone-15-series-camera-analysis/">四連å射稜é¡è¨è¨ˆ</a>。而今年有更多新一代的潛望å¼è¨è¨ˆï¼Œé™¤äº† OPPO é‡ç”¢å€’置潛望é¡é 外,三星åŠå°Žé«”最近也公佈了自家的稜é¡å…¨é¡ç‰‡è²¼åˆæŠ€è¡“ ALoP (All Lenses on Prism)。</p>



<figure class="wp-block-image size-large"><img src="https://danieltechdiary.com/wp-content/uploads/2024/11/pc-contents-01-1024x575.jpg?v=1731919078" alt="傳統潛望å¼é•·ç„¦é¡é " class="wp-image-29483"/><figcaption class="wp-element-caption">傳統潛望å¼é•·ç„¦é¡é </figcaption></figure>



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<h3 class="wp-block-heading"><strong><mark style="background-color:rgba(0, 0, 0, 0)" class="has-inline-color has-dark-blue-color">甚麼是 ALoP?</mark></strong></h3>



<p class="wp-block-paragraph">相比 OPPO 幾乎改變了潛望å¼é¡é çš„æ•´é«”è¨è¨ˆï¼ŒSamsung çš„è¨è¨ˆå°±æ¯”較ä¿å®ˆï¼Œåœ¨æœ¬è³ªä¸Š ALoP çš„è¨è¨ˆå…¶å¯¦èˆ‡å‚³çµ±æ½›æœ›å¼é¡é 相若,ä¸éŽæœ€ä¸»è¦çš„分別就是它把在潛望折射通é“ä¸çš„é¡ç‰‡ç§»è‡³ç¨œé¡ä¸Šï¼ˆé€™å°±æ˜¯ç‚ºç”šéº¼å« Lenes on Prism)。這個è¨è¨ˆé™¤äº†å¯ä»¥ç¸®æ¸›æ•´é«” 22% é•·åº¦å¤–ï¼Œå› ç‚ºé¡ç‰‡ç„¡éœ€å±€é™æ–¼æŠ˜å°„通é“的大å°ï¼Œæ‰€ä»¥é‚„å¯ä»¥åŠ 大光圈到 f/2.58(但沒有說感光呎å‹ï¼‰ã€‚</p>



<figure class="wp-block-image size-large"><img src="https://danieltechdiary.com/wp-content/uploads/2024/11/longFocus.png-1-2-1024x575.jpg?v=1731919112" alt="Samsung ALoP 傾斜å¼è¨è¨ˆ" class="wp-image-29485"/><figcaption class="wp-element-caption">Samsung ALoP 傾斜å¼è¨è¨ˆ</figcaption></figure>



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<h3 class="wp-block-heading"><strong><mark style="background-color:rgba(0, 0, 0, 0)" class="has-inline-color has-dark-blue-color">ALoP 改善了甚麼è¨è¨ˆï¼Ÿ</mark></strong></h3>



<p class="wp-block-paragraph">這個全新的è¨è¨ˆé™¤äº†ç§»å‹•äº†é¡ç‰‡çš„ä½ç½®ï¼Œé‚„調整了稜é¡å’Œæ„Ÿå…‰å…ƒä»¶çš„角度,稜é¡çš„角度由直接直角åå°„çš„ 45° 微改為 40°ï¼Œé€²ä¸€æ¥æ¸›å°‘了稜é¡æ‰€å¸¶ä¾†çš„厚度;æ¤å¤–感光元件亦以 10° 傾斜,用回ä¸å¸å¸éŽçš„ç•¢æ°å®šç†ï¼Œè‡ªç„¶æ‰€ä½”的厚度也減低。連åŒèª¿æ•´ç¨œé¡ä½ç½®æ‰€æ¸›å°‘的長度,令整體的體ç©èƒ½å¤ 大幅縮減。令它就算ä¿æŒç´°å°ä½†ä»ç„¶èƒ½æ供到ç‰æ•ˆ 80mm 焦è·çš„é•·è·ã€‚</p>



<figure class="wp-block-image size-large"><img src="https://danieltechdiary.com/wp-content/uploads/2024/11/pc-contents-03-1024x575.jpg?v=1731919136" alt="傳統潛望å¼é•·ç„¦æ¨¡çµ„ VS Samsung ALoP 模組" class="wp-image-29486"/><figcaption class="wp-element-caption">傳統潛望å¼é•·ç„¦æ¨¡çµ„ VS Samsung ALoP 模組</figcaption></figure>



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<h3 class="wp-block-heading"><strong><mark style="background-color:rgba(0, 0, 0, 0)" class="has-inline-color has-dark-blue-color">OPPO 的倒置潛望é¡é åˆæ˜¯ç”šéº¼ï¼Ÿ</mark></strong></h3>



<p class="wp-block-paragraph">ç¾æ™‚åŒæœŸå¦ä¸€å€‹æ½›æœ›å¼é¡é 的方案就是 OPPO 的倒置潛望é¡é 。這個è¨è¨ˆå…¶å¯¦åƒè€ƒäº† Apple 的四連å射稜é¡è¨è¨ˆï¼ŒåŒæ¨£æ˜¯åˆ©ç”¨äº†æ¨¡çµ„ä¸å…¨å…§å射的特性,但ä¸çŸ¥æ˜¯å¦ç‚ºäº†é¿é–‹ Apple 的專利,所以模組並ä¸æ˜¯ä»¥å¹³è¡Œå››é‚Šå½¢è¨è¨ˆï¼Œè€Œæ˜¯æ¢¯å½¢çš„「Wã€é€²è¡Œä¸‰é€£å射,以最薄的厚度é”到ç‰æ•ˆ 73mm 焦è·çš„è·é›¢ã€‚</p>



<figure class="wp-block-image size-large"><img src="https://danieltechdiary.com/wp-content/uploads/2024/11/images-lens-bg-1-1024x576.jpg?crop=1?v=1731909942" alt="OPPO 倒置潛望é¡é " class="wp-image-29475"/><figcaption class="wp-element-caption">OPPO 倒置潛望é¡é </figcaption></figure>



<p class="wp-block-paragraph">相比 iPhone åŒé¡žåž‹çš„è¨è¨ˆï¼ŒOPPO 方案的好處是由於手機è¨è¨ˆæ™‚的相機模組是一大個圓形平é¢ï¼Œä¸ç”¨åƒ iPhone 般è¦çªå‡ºé¡ç‰‡ï¼Œæ‰€ä»¥å¯ä»¥å–„用é¡ç‰‡å‡ºçªå‡ºçš„部分放置感光元件,完美利用空間。至於由於模組呈倒梯形,所以底部的é¢ç©ç”šå°ï¼Œæ›è¨€ä¹‹åœ¨ä¸»æ¿é 留的開å”也å¯ä»¥æ¸›å°‘,進一æ¥å¢žåŠ 主æ¿çš„空間容ç´æ›´å¤šå…ƒä»¶ã€‚</p>



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<h3 class="wp-block-heading"><strong><mark style="background-color:rgba(0, 0, 0, 0)" class="has-inline-color has-dark-blue-color">Samsung ALoP VS OPPO 倒置潛望é¡é 誰更優å‹ï¼Ÿ</mark></strong></h3>



<p class="wp-block-paragraph">Samsung å’Œ OPPO 甚至 Apple çš„è¨è¨ˆéƒ½æ˜¯å分相似,都是把é¡ç‰‡æ”¾åœ¨ç¨œé¡ä¸Šï¼Œå…¶å¯¦é€™å€‹è¨è¨ˆçš„缺點是由於é¡ç‰‡èˆ‡æ„Ÿå…‰å…ƒä»¶çš„è·é›¢æ›´é ,所以很容易出ç¾è‰²æ•£çš„情æ³ã€‚但是其實åªè¦æ”¹ç”¨çŽ»ç’ƒé¡ç‰‡ç‰æ–¹æ³•éƒ½å¯ä»¥æ”¹å–„色散情æ³ï¼Œæ‰€ä»¥å•é¡Œä¸å¤§ã€‚</p>



<p class="wp-block-paragraph">ä¸éŽå…¶å¯¦ Apple å’Œ OPPO 的方案都涉åŠå¤šé‡å射,更多的åå°„ç†è«–ä¸Šæ˜¯æœƒå¢žåŠ å½±åƒè³ªç´ 下é™ï¼Œæ‰€ä»¥å¦‚ Samsung 般åªåå°„ä¸€æ¬¡çš„è©±è³ªç´ ç†è«–上會更佳。當然ç¾æ™‚手機æ”影上絕大部分畫質都å¯ä»¥é€éŽå¾ŒæœŸæ¼”算法修æ£ï¼Œä¸éŽç›¸ä¿¡ Samsung çš„ç•«è³ªèƒ½æ›´ä½³ã€‚åŠ ä¸Š Samsung ALoP 模組的大å°çš„優勢,所以相信這個 ALoP 會挺å—æ‰‹æ©Ÿå» å•†æ¡è¿Žã€‚</p>



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<p class="wp-block-paragraph">ä¸éŽ Samsung çš„å…‰å¸æ¨¡çµ„å¿…è¦é…åˆ Samsung 自家的 ISOCELL æ„Ÿå…‰å…ƒä»¶ï¼Œè€Œè¿‘ä¾†å» å•†éƒ½é–‹å§‹ä½¿ç”¨ Sony LYT-600 作為長焦,Samsung 在æ供光å¸æ¨¡çµ„時,åˆæœ‰æ²’有好的感光元件產å“é…åˆå‘¢ï¼Ÿé€™å€‹ä¹Ÿå€¼å¾—ç•™æ„。ç¾æ™‚其實 ISOCELL GN8 çš„è¦æ ¼ä¹Ÿæ˜¯èˆ‡ LYT-600 相若(1/1.95&#8243; 感光呎å‹ã€0.8µm åƒç´ 大å°ï¼‰ï¼Œä½†é€™å€‹å…ƒä»¶æš«æ™‚都åªæ˜¯ç”¨åœ¨ä¸»é¡é ,接下來就è¦çœ‹ Samsung 會ä¸æœƒæ‹¿å®ƒåŽ»ä½œ ALoP 模組的長焦é¡é 了。</p>



<p class="wp-block-paragraph">資料來æºï¼š<a href="https://semiconductor.samsung.com/us/news-events/tech-blog/samsung-isocell-alop-camera-technology-brightens-the-night-but-keeps-the-camera-slim/">Samsung Semiconductor</a></p>
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【深度分析】潛望式長焦設計再突破!Samsung ALoP 技術縮小模組體積效能更強
