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引言
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2000.02.29
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表格無markdown
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# A1(H1) |
**B1粗體** |
1. 數字標號 |
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## A2(H2) |
~~B2刪除~~ |
[連結名稱](https://google.com "游標顯示") |
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_B3斜體_ |
<mail@mail.com> |
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__B4斜粗__ |
1. |
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##### A5(H5) |
*B5斜體2* |
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###### A6(H6) |
- 無序清單ul |
引言
內文欄位內文欄位內文欄位內文欄位內文欄位
表格 有markdown
左右托拉查看表格資訊
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表頭A較寬 |
表頭B |
表頭C |
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# A1(H1) |
**B1粗體** |
1. 數字標號 |
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## A2(H2) |
~~B2刪除~~ |
[連結名稱](https://google.com "游標顯示") |
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### A3(H3) |
_B3斜體_ |
<mail@mail.com> |
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#### A4(H4) |
__B4斜粗__ |
1. |
跟下方合併 |
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##### A5(H5) |
*B5斜體2* |
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###### A6(H6) |
- 無序清單ul |
這裡不是合併區塊 |
引言
內文欄位內文欄位內文欄位內文欄位內文欄位
base H5 - Pushing the Limits of Diode Miniaturization with WLCSP Technology
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With the evoluti
on of product appli
cations and manufac
turing processes, trad
itional diode packagi
- ng methods suc
h as wire bonding and sol
- dering are gradually fa
lling short of meet
ing the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
Comchip has long been a leader in the development of ultra-small package components and is now at the forefront of process innovation. The company has introduced a six-sided molded WLCSP ESD protection diode, setting a new industry benchmark with the launch of the smallest 01005 (0.4 x 0.2 mm) package. The process is also upward-compatible, supporting 0201 (0.6 x 0.3 mm) and paving the way for the development of various diode types using WLCSP technology, showcasing its advantages across a broader product range.
Traditional diode production uses a vertical P/N chip structure, requiring packaging methods like wire bonding or soldering to align the anode and cathode on the same side. Due to frame limitations, the actual chip size in such packaging is typically less than one-tenth of the package size, restricting power output. WLCSP, however, eliminates these constraints by maximizing chip usage within the same package footprint—enabling compact components with improved power handling and functional performance for space-constrained applications.
base H4 - Pushing the Li
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With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
base H6 - Pushing the Li
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With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
圖片描述圖片描述
順序相反圖上 - Pushing the Li
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
圖片描述圖片描述
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一致圖上 - Pushing the Li
With the evolution of product applications and
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文繞圖右 Pushing the Li
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
圖片描述圖片描述
文繞圖左 Pushing the Li
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
圖片描述圖片描述
Pushing the Limits of Diode Miniaturization with WLCSP Technology
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
圖片描述圖片描述
Pushing the Limits of Diode Miniaturization with WLCSP Technology
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
圖片描述圖片描述
Pushing the Limits of Diode Miniaturization with WLCSP Technology
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
圖片描述圖片描述
Pushing the Limits of Diode Miniaturization with WLCSP Technology
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
With the evolution of product applications and manufacturing processes, traditional diode packaging methods such as wire bonding and soldering are gradually falling short of meeting the needs of new-generation products. Particularly in handheld electronic devices, where designs are becoming increasingly compact and slim, along with growing demands for battery efficiency, PCB space is constantly shrinking—directly impacting component selection. Beyond improving performance, today's components must also meet stringent size requirements that continually challenge the limits of manufacturing and product design.
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