静電容量式觸碰式面板技術:各種結構・過程分析 是由出版商DisplayBank在2011年06月所出版的。
這份英文市場調查報告書價格從美金4500起跳。
行動電話及可攜式PC等的「智慧化」應用程式的台頭、使得觸碰式面板的需求急增、觸碰面板市場正急速的成長中。技術面部分、智慧型電話及可攜式PC等所採用的投影型静電容量式(PROCAP)觸碰面板的需求壓倒性的增加中。
本報告書內容包括:PROCAP觸碰面板技術的調查、各種結構的製造過程分析、技術的趨勢、問題點等檢證、內容綱要摘記如下:
第1章 調查概要
第2章 觸碰面板技術和趨勢
- 觸碰的優點
- 觸碰面板的技術
- 設備構成和技術的分類
- 紅外線/光學式
- 各種技術的優點/缺點和採用趨勢
- 觸碰的必要特性
第3章 静電容量式觸碰面板的問題點
- Apple和静電容量式觸碰技術
- PROCAP技術的急速佔有率的擴大
- 静電容量式觸碰面板結構的分類
- 玻璃基板和薄膜基板的觸碰種類
- 代表系的產品之觸碰面板結構分析
- 静電容量的大型化技術
- 窄網框架技術
- 白色框架技術
第4章 静電容量式觸碰面板結構的製造過程
- 使用薄膜基板的PROCAP觸碰感應器技術
- 使用薄膜基板的觸碰面板之製造技術
- 螢幕印刷的觸碰面板之製造過程
- 網版的觸碰面板之製造過程
- DFR的觸碰面板的製造過程
- 薄膜基板(GF2)所使用的兩面塗裝種類觸碰面板
- 優越的光纖傳送特性的觸碰面板
- 使用玻璃基板的雙面塗裝種類觸碰面板
- AMOLEDOn-cell式觸碰
- 結構構造
- 製造方法
- LCDOn-cell式觸碰
- SMD的On-cell式觸碰感應器的種類
- On-cell式觸碰式面板的優點/缺點
- G2種類
- G1F種類
- PROCAP觸碰技術的統合
Abstract
Description
Demand for touch panel is surging from the growth of new application including
Tablet PC and many electronic devices including mobile phone becoming "Smart".
In turn, touch panel market is showing sharp growth. From a technical aspect,
demand for touch panel with Projected Capacitive Type (PROCAP) that is
utilized by applications like Smartphones and Tablet PCs is very high. Related
industries seemingly appear to be growing steadily, however if you take a
closer look, many technical issues including strategic decision on cooperation
and technical issues that are needing choices based on this decision are
present.
In particular, companies approach with very different solutions for multiple
structures of PROCAP touch panel. The circumstance is that each company is in
need of expansion through advancement and differentiation of the key
technology that they each own.
Capacitive touch panel is progressing toward cover window integrated touch
that do not require separate touch sensor. This structure is known as G2 (or
DPW, TOC) and it is the most ideal products from optical perspective and touch
performance in terms of touch panel structure. In order to move toward this
goal, makers not only need to meet the performance requirements but also need
to secure cost competitiveness in improved productivity and yield; and for
this, makers need to secure process technology. These technical developments
are competed by many of the current makers.
Currently, the industry is in the process of moving from film-based (GFF) or
glass-based (GG) to G1F, G2, GF2, and glass-based multi-layer structure,
AMOLED On-cell technology. The advantages of GFF are low capital cost,
suitable for small quantity batch production, and light structure. GG is
suitable for mass production and has better appearance properties, but it has
high investment costs and is heavier than film-based. In past, the structure
was fixed as GG or GFF but now we are in the process of expanding shares of
new technologies such as G1F, G2, and AMOLED On-cell gradually.
The most ideal cannot be a right answer to all including touch panel makers,
customers, and others. Various technologies with these pros and cons will
continue to diversify, and the process of solving process technology will
significantly influence development of technology and the competitiveness
factor of individual maker.
With these, Displaybank recently published "Capacitive Touch Panel Technology
by Structure & Process Analysis" report that organizes the technologies
mentioned above.
Table of Contents
1. Report Overview
- 1.1. Planning Intent
- 1.2. Report Configuration & Terminology Definition
- 1.3. Terms & Acronyms Organization
2. Touch Panel Technology & Trend
- 2.1. Advantages Of Touch
- 2.2. Touch Panel Technology
- 2.2.1. Unit Configuration & Technology Classification
- 2.2.2. Ir/Optical Method
- 2.2.2.1. Advance Of Optical Sensing Touch Method
- 2.2.3. Advantages/Disadvantages By Technology And Employment Trend
- 2.3. Properties Required To Touch
3. Capacitive Touch Panel Issues
- 3.1. Apple & Capacitive Touch Technology
- 3.2. Rapid Market Share Increase Of Procap Technology
- 3.3. Capacitive Touch Panel Structure Classification
- 3.4. Glass-Based & Film-Based Touch Type
- 3.5. Touch Panel Structure Analysis Of Representative Product
- 3.6. Larger Capacitive Technology
- 3.7. Narrow Bezel Technology
- 3.8. White Bezel Technology
4. Process Accroding To Capacitive Type Touch Panel Structure
- 4.1. Procap Type Touch Sensor Technology Using Film Substrate
- 4.1.1. Touch Panel Manufacturing Technology Using Film Substrate
- 4.1.1.1. Touch Panel Manufacturing Process Through Screen Printing
Process
- 4.1.1.2. Touch Panel Manufacturing Technology Through Gravure Offset
Process
- 4.1.1.3. Touch Panel Manufacturing Technology Through Dfr Process
- 4.1.2. Double-Sided Coating Touch Panel Manufacturing Technology Using
Film Substrate (Gf2)
- 4.1.2.1. Structure
- 4.1.2.2. Manufacturing Process
- 4.1.3.Touch Panel With Excellent Optical Transmissio Property
- 4.2. Double-Sided Coating Type Touch Panel Using Glass Substrate
- 4.2.1. Structure Of Touch Panel
- 4.2.2. Manufacturing Process
- 4.2.3. Touch Pattern
- 4.3. Amoled On-Cell Touch
- 4.3.1. Structure
- 4.3.2. Manufacturing Method
- 4.3.3. Lcd On-Cell Touch
- 4.3.4. Smd' s On-Cell Touch Sensor Pattern
- 4.3.5. Advantages/Disadvantages Of On-Cell Type Touch Panel
- 4.4. G2 Type
- 4.4.1. Structure
- 4.4.2. Manufacturing Method
- 4.4.3. Advantages/Disadvantages Of G2 Type Touch Panel
- 4.5. G1f (Glass 1 Film) Type
- 4.5.1. Structure
- 4.5.2. Manufacturing Process
- 4.5.3. Advantages/Disadvantages Of G1f Touch Panel
- 4.6. Procap Touch Technology Synthesis
Index
