Comprehensive Analysis of LCD Black Technology (Part 1): Structure and Connection, Unlocking the Core Code of Display

In today's world where electronic devices are ubiquitous, liquid crystal displays (LCDs) serve as the core interface for human-machine interaction, and their technical capabilities directly determine the user experience of devices. From smart wearables to industrial control systems, from automotive displays to consumer electronics, behind LCD products in different scenarios lie meticulously designed structural schemes and connection technologies. As a professional custom LCD display manufacturer and a powerful LCD display factory, CNK is a specialized and sophisticated high-tech enterprise dedicated to the R&D, production, and sales of display devices and HMI (Human-Machine Interface) products.

Today, we will conduct an in-depth analysis of the core fundamentals of LCDs, helping you understand the underlying logic of display technology.

I. Product Structure: Tailor-Made Display Solutions

The product structure of LCDs is not one-size-fits-all but is customized according to application scenarios and performance requirements. As an experienced display manufacturing company, CNK's core products include monochrome LCDs and monochrome modules, 0.96-15.6 inch TFT display modules, OLED modules, and HMI human-machine interaction modules. Its product structure mainly consists of three categories of core products and various derivative schemes:

1. Integrated Products: Efficient and Stable Mainstream Choices

• COB Products: Adopt a core architecture of "IC + LCD + PCB" and can be equipped with optional components such as iron frames, backlights, and TP (Touch Panels). With high integration and strong stability, they are widely used in scenarios with strict reliability requirements such as industrial control and automotive equipment.
• COG Products: Based on "IC + LCD", they support flexible selection of accessories such as backlights, iron frames, PCBs, and TPs. While ensuring performance, they simplify the structural design, making them suitable for smart wearables, small portable devices, and other products with strict size limitations.
• SMT/COF/TAB Products: Combine SMT IC, COF IC, and TAB IC with LCD respectively, along with optional accessories, covering mid-to-high-end display needs. Among them, COF and TAB schemes excel in narrow-bezel and high-resolution products.

2. Material Products: Flexibly Adapting to Special Needs

• Component Materials: Centered on LCD, they can be paired with components such as FPC (Flexible Printed Circuits), backlights, TPs, and iron frames, providing customers with semi-integrated solutions that balance customization flexibility and assembly efficiency.
• Spare Parts Materials: Offer a full set of spare parts including LCD, backlights, iron frames, PCBs, TPs, and ICs, supporting only the in-depth customization needs of special customers. This fully demonstrates the flexible adaptation capability of a custom LCD display manufacturer and is suitable for niche and personalized display scenarios.

It is worth noting that different structural schemes of CNK support different ITO thicknesses: COB and SMT schemes support 1.1mm and 0.7mm thicknesses; COG, COF, and TAB schemes further extend to 0.55mm and 0.4mm. The thinner ITO thickness enables the miniaturization and lightweight of devices, also reflecting the exquisite technical strength of the LCD display factory.

II. Connection Methods: Efficient Transmission "Bridge" Design

If the product structure is the "skeleton" of an LCD, then the connection method is the "blood vessel" running through it, directly affecting the stability of signal transmission and the assembly convenience of the product. As a professional display manufacturing company, CNK masters 8 mainstream connection methods, fully covering different application scenarios:

1. Basic Connection Schemes: Simple, Reliable, and Cost-Controllable

• Rubber Strip Connection: Easy to operate and low in cost, suitable for ordinary electronic devices with low requirements for connection stability.
• Zebra Paper Connection: With good conductivity and flexibility, it adapts to slight structural deformation and is often used for connecting small LCDs and PCBs.
• Pin Clip Connection: Easy to disassemble and convenient for later maintenance, it is widely used in equipment that requires frequent debugging or component replacement.

2. Advanced Connection Schemes: Stable, Efficient, and Suitable for Complex Scenarios

• FPC Connection: Combined with flexible printed circuits, it can achieve connections in multi-angle and narrow spaces, making it the preferred scheme for smart wearables, foldable devices, and other products.
• TAB Connection: Directly bonds the driver IC to the LCD through TAB (Anisotropic Conductive Film), reducing connection nodes and improving transmission efficiency and stability.
• COG Connection: Directly bonds the IC to the glass substrate of the LCD, greatly reducing the product size and improving integration, which is the core connection method for high-end portable devices.
• COF Connection: The IC is packaged on a flexible film and then bonded to the LCD, featuring both flexibility and high integration, adapting to the display needs of narrow bezels and high resolutions.
• COG ITO Bridging: A special bridging design further optimizes the signal transmission path, performing excellently in large-size and high-image-quality LCDs.

Relying on rich structural schemes and reliable connection technologies, CNK, as a high-quality enterprise in the field of China TFT displays, continuously provides high-quality display solutions for various industries. In the next article, we will continue to explore the type classification and display modes of LCDs, so stay tuned!