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[In Depth] Curved (LCD/OLED) TV Analysis - Market, Technology, Process, Product Product Image

[In Depth] Curved (LCD/OLED) TV Analysis - Market, Technology, Process, Product

  • ID: 2725275
  • January 2014
  • 144 Pages
  • SNE Research

Until early 2010, the touch panel market was open for many mid-size companies in Taiwan, Korea, Japan, and China. Most producers were producing small quantities of touch panels in various designs depending on customers' demand.

However, the market entered major growth in early 2010, including not only color filter producers but also large-scale panel makers that joined the touch panel business because the panel producers needed a momentum for growth.

The main reason was the flat panel display producers needed a new growth momentum due to negative growth in the LCD display market while the demand for over 10-inch products, such as notebook PCs, AIO PCs, and monitors with touch panels increased rapidly. Thus, the touch panel standardization also progressed. With the standardization of touch panels, the component producers like color filter lines or In-Cell production facilities are nurturing the touch panel business, which can raise significant profits by satisfying customers' needs for a few designs in mass quantity.

The touch panel business goes to large-scale businesses while mid-small size businesses try to survive. The touch panel market is expected to show READ MORE >

Note: Product cover images may vary from those shown

1. Touch Panel Market forecast
1.1 Touch Technical Trend
1.2 Touch Panel Market (2012 ~ 2017) (1)
1.3 Touch Panel Market (2012 ~ 2017) (2)
1.4 Touch Panel Market (2012 ~ 2017) (3)
1.5 Major trend of TSP Market in 2014
1.6 Touch Sensor Type by Application(2007 ~ 2015)
1.7 Why Panel Makers rush into Touch Business?

2. Overview of Projected Capacitive Touch Panel
2.1 Touch Panel Types(Add-On type)
2.2 Touch Panel Structure & Operation principle (All-In-One)
2-2-1 General Touch Panel Structure (1)
2-2-2 Self Capacitance type (2)
2-2-3 Mutli Capacitive Type(3)
2.3 Touch Panel Structure & Characteristics
Film Base Touch Panel
2-3-1 GFF Type Structure & Characteristics
2-3-2 GF2 Type Structure & Characteristics
2-4 Glass to Film Base(G1F) Touch Panel
2-4-1 GF1 Type Structure & Characteristics (1)
2-4-2 GF1 Type Structure & Characteristics (2)
2-4-3 GF1 Touch Sensor Development forecasts
2-5 Glass Base Touch panel
2-5-1 GG Type Structure & Characteristics
2-5-2 GG Type Development forecasts
2-5-3 GG2 Type Structure & Characteristics
2-5-4 GG2 Development forecasts
2-5-5 OGS Type Structure & Characteristics
2-6 On-Cell Type Touch Panel
2-6-1 On-Cell type Structure & Characteristics
2-6-2 On-Cell Development forecasts
2-7 Hybrid In-Cell Type Touch panel
2-7-1 Hybrid In-Cell Type Structure & Characteristics
2-7-2 Hybrid In-Cell Sensor Structure
2-8 In-Cell type Touch Panel
2-8-1 In-Cell Type Structure & Characteristics
2-8-2 In-Cell Development forecasts
2-8-3 In-Cell Sensor Structure (Apple)
2-9 Touch Sensor Panel Comparison(Hybrid In-Cell, On-Cell, In-Cell)

3. GF2 Touch
3.1 GF2 Touch Panel types
3.2 GF2 Touch Structure Using ITO
3-2-1 Touch Panel Structure & Manufacturing Process
3-2-2 Touch Panel Supply Chain
3-2-3 Film(COP film) Characteristics
3-2-4 GF2 Touch patent (Apple)
3.3 GF2 Touch Panel Using Metal Mesh
3-3-1 Touch Panel Types
3-3-2 Metal Mesh Touch Sensor Producers Status
3-3-3 Metal Mesh Panel Characteristics
3-3-4 Moire
3-3-5 Solutions to Reduce Moire
3-3-6 Starburst Defect
3-3-7 Solutions to Reduce Starburst
3-3-8 Rainbow Phenomenon
3-3-9 Solutions to Reduce Rainbow
3-3-10 Metal Mesh Transparency
3.4 Fujifilm GF2 Touch Sensor
3-4-1 Structure & Manufacturing Process
3-4-2 Sliver Mesh Pattern Characteristics
3-4-3 Sliver Mesh Pattern Characteristics
3-4-4 Sliver Mesh Pattern Flexibility Characteristics
3-4-5 Fujifilm Touch Sensor Characteristics
3.5 Atmel GF2 Touch Sensor (Copper Mesh Touch Sensor)
3-5-1 Touch Sensor Stack-Up Structure
3-5-2 Supply Chain
3-5-3 Manufacturing Process
3-5-4 Copper Mesh Touch Sensor Characteristics
3.6 Uni-Pixel Display GF2 Touch Sensor (Copper Mesh Touch Sensor)
3-6-1 Touch Sensor Stack-Up Structure
3-6-2 Manufacturing Process
3-6-3 UniBoss (Copper Mesh Touch Sensor) Characteristics
3-6-4 UniBoss Grid Transmission & Resistance

4. GF1 Touch Panel
4.1 GF1 Touch Panel Type
4.2 GF1 Touch Sensor based on ITO
4-2-1 One Layer GF1
4-2-2 Multi Layer GF1
4.3 GF1 Touch Sensor based on Metal Mesh
4-3-1 Touch sensor Structure & Characteristics
4-3-2 Black Coated Metal Mesh Senor Structure & Characteristics
4.4 GF1 Touch Sensor Based on AgNW

5. OGS Touch Panel
5.1. Panel Makers' NB OGS Solution
5.2. NBPC OGS Capa Comparison(Touch Module Makers vs. Panel Makers )
5.3 OGS(One Glass Solution) Type
5.4 OGS Touch Panel Produces
5.5 G2 Structure & Characteristics
5-5-1 Sheet Type Sensor Production Process (1)
5-5-2 Sheet Type Sensor Production Process (2)
5-5-3 Sheet Type Touch Sensor Characteristics
5-5-4 Cell Type Sensor Production Process (1)
5-5-5 Cell Type Sensor Production Process (2)
5-5-6 Cell Type G2 Touch Characteristics
5.6 G2 Touch Sensor Type Bezel Material's Characteristics Requirements
5.7 Direct bonding Characteristics
5.8 G1 Touch Structure & Characteristics
5.9 Wintek G1 Touch Panel
5-9-1 Wintek G1 Touch Panel Structure
5-9-2 Wintek(ATT Process Flow Chart)
5.10. G1 Type Touch Panel Patent
5-10-1 One Layer Touch Sensor Patent (Apple)
5-10-2 One Layer Touch Sensor Patent (MELFAS)

6. Flexible Display Touch Sensor
6.1 Flexible OLED Substrate Design Technology
6.2 Flexible OLED Substrate Technology Characteristics
6.3 Flexible OLED Production Process
6.4 OLED Display Stack-Up Structure
6.5 Curved Flexible OLED Display Stack-Up Structure
6.6 Flexible Display Multi Layer Structure
6.7 Cambrios AgNW Transparent Conductor
6-7-1 Cambrios AgNW Supply Chain
6-7-2 AgNW (Silver Nano Wire) Film Production Process
6-7-3 Cambrisos AgNW Transparent Electrode
6-7-4 Cambrios' Optical Characteristics of AgNW
6.8 FLEXX Silver Nano Wire (Roll-To-Roll Processing)
6.9 Ag Ink Type Transparent Conductive Film Technology (Cima Nano Tech)
6.10 Ag Ink Base Touch Sensor(PolyTC Structure)
6.11 Ag Ink Type Touch Sensor (PolyTC Characteristics) )
6.12 PEDOT:PSS (Organic Conductive Film)
6.13 3M Metal Mesh's Electric Optical Characteristics
6.14 Graphene Type Transparent Conductive Film Materials
6.15 Graphene Base Transparent Film's Transparency

7. Large Size Touch Panel
7.1 Large Size Touch Panel Characteristics
7.2 Large Size Touch Panel Technology(1. Using ITO Base Touch Panel Technology)
7.3 Large Size Touch Panel Technology(2. AgNW base large Touch Panel Technology)
7.4 Large Size Touch Panel Technology(3. Using Metal Material Touch Panel Technology)

8. Touch Panel Technology Development Forecast
8.1 Mobile Touch Panel Module requirements
8.2 Film Base Touch Panel
8.3 Glass Base Touch Panel Sensor Type Technology Forecast
8.4 All-In-One Touch Panel Sensor Type Technology Forecast
8.5 Hybrid In-Cell Panel Sensor Type Technology Forecast
8.6 Flexible Device Touch Panel for OLED Forecast (1)
8.7 Flexible Device Touch Panel for OLED Forecast (2)
8.8 Flexible Device Touch Panel for OLED Forecast (3)

* Appendix
1.Touch Type of Projective Capacitive
2.Direct Bonding Technical Comparison
3.Touch Related Terminology

Note: Product cover images may vary from those shown
Note: Product cover images may vary from those shown



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