Tech

Know More About Display Fabs And AMOLED From The Technology Guide For Rajesh Exports-Owned Elest

  • Grantwood Technologies is believed to be guiding Elest, a subsidiary of Rajesh Exports, which is building India's first modern display manufacturing unit in Telangana.

Arun MampazhyJun 13, 2022, 05:36 PM | Updated 05:34 PM IST
AMOLED displays.

AMOLED displays.


With the Union government's Rs 76,000 crore incentives package for domestic manufacturing of semiconductors and displays, Elest, a subsidiary of Rajesh Exports, has decided to build India's first modern display manufacturing unit in Telangana.

There is no easily available public information on who is providing the technology knowhow to Elest. However, based on various pointers, Swarajya had reported that it is likely that a company called Grantwood Technologies could be guiding them.


The nearly 50-page study titled "Flat Panel Displays — Creation of a Display Industry in India" is available on ICEA website, and gives an overview of flat display technologies and market in general and opportunities for India in particular.

As per the report, the global display market is predicted to be about $126 billion by 2024, most of which is driven by mobile phone, followed by televisions.





Flat panel displays are fabricated by the integration of its building-block technologies, namely,

a) Thin film transistor (TFT) backplane,

b) Liquid crystal display (LCD) panel or organic light emitting diode (OLED) panel frontplane and,


There are several technology choices within each of these building-block categories and the combination of technology choices is selected to ensure that the display can meet or exceed the technical requirements demanded by the display-centric end product.

The active matrix organic light emitting diode (AMOLED) based displays were first demonstrated in 1999 by the combination of TFT backplanes used in TFT-LCD displays and OLED devices deposited over them. They entered mass-production in 2002 and were first commercialised in 2003 for digital still camera and mobile phone applications. The first AMOLED displays for use in TVs was developed in 2006 and introduced to the market in 2012.


As AMOLED display production costs decreased with increasing production experience, they started eroding the market share of equivalent LCD displays in smartphone applications. The development and emergence of flexible AMOLED display technology that allows bendable, foldable and rollable display-centric product designs provides another vector of new growth opportunity.



The display manufacturing supply chain consists of suppliers of patterning materials, functional materials, optical materials, process equipment, metrology tools, subcomponents for module assembly, display driver ICs, factory automation, cleanroom and auxiliary equipment either for LCD or AMOLED display production.


A display module contains an assembly of the display panel integrated with optical, mechanical and electronic subcomponents. As an example, the figure below shows some of the additional components needed to convert an LCD panel into an LCD module. The LCD panel requires an external broadband light source, such as the LED backlight assembly, for its operation and this light source is attached behind the TFT as shown in the figure below.


The assembly process for conversion of an AMOLED panel into an AMOLED module is more or less the same as shown in the figure above, except that LED backlight assembly is eliminated as the display is self-emissive. The electronics assembly to the AMOLED module is similar to that shown above, except that the display driver IC (DDI) has completely different functionality than that of the LCD display and is designed with a different architecture.


Figure below shows the migration of glass substrate to larger sizes over the past two decades. Larger glass yields more panel count and therefore more products for sale. The display industry has thus far operated based on the principle of ‘economies-of-scale’. When the substrate size increases, the investment cost in display fabs increases but the panel count for MG substrate also increases. The industry experience is that the final product costs are lowered by the migration to larger substrate size due to the larger number of products that can be manufactured and monetised.


The most optimum solution for the TV market is Gen 8.5 or higher since the panel count can be 6 or 8 for the 47-in to 55-in TVs, respectively. Ultra large TVs (60-in to 70-in class) will require Gen 10.5 size display fabs. Smartphones with 2K or higher pixel counts require LTPS-TFT backplanes and these fabs are limited to Gen 6 size, whether the products are intended for LCD or AMOLED displays. All other product categories, namely, notebook PCs and monitors, are manufactured in fabs that are between Gen 6 and Gen 8.5 in size.





The report looks at India display requirement from two different scenarios:


Scenario 2: India domestic and exports demand arising out of the ‘Make-in-India’ which has attracted a series of global players to make in India and export to the world.


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