2025-04-13
In the current era of rapid technological development, micro-OLED display technology is becoming the focus of competition among many manufacturers. Its applications are ubiquitous, ranging from AR and VR devices to the field of professional image design.
But what exactly constitutes the best industry solution for micro-OLED? Today, we will take MOT's silicon-based OLED as a breakthrough point and conduct an in-depth analysis.
Starting from indicators such as resolution, refresh rate, contrast ratio, color gamut, and power consumption, we will meticulously compare and analyze the MOT solution with other industry solutions.
| Index | MOT Solution | Industry Solution |
| Resolution | 2.5K*2.5K | 2.5K*2.5K |
| Maximum Refresh Rate | 3600Hz | 120Hz |
| ANSI Contrast Ratio | 900 | <400 |
| All Gray Levels | >85% | 16 Gray Levels: <60%; 64 Gray Levels: <80% |
| NTSC Color Gamut | Specific value not mentioned | Specific value not mentioned |
| Power Consumption | 500 - 700mW | 1.6 - 2W |
It can be intuitively found from the above data that the refresh rate of the MOT solution is 3600Hz, which is much higher than the 120Hz of the industry solution. This means that there will be very little motion blur when displaying moving images, and the visual effect is extremely smooth.
In terms of contrast ratio, the high contrast ratio of 900 in the MOT solution far exceeds that of the industry solution, which can make the picture details richer and is especially suitable for watching movies and professional image design.
In terms of power consumption, the MOT solution is only 500-700mW, which is significantly lower than the 1.6-2W of the industry solution. This extends the battery life of mobile devices and wearable devices, making these devices more attractive for purchase.
In terms of color rendering, there are still color deviation issues in the high-risk areas of traditional silicon-based OLEDs. If we keep optimizing in the direction of traditional manufacturing technology, this problem cannot be fundamentally solved. This requires the adoption of another technical approach to achieve this goal.
Although the silicon-based OLEDs manufactured by traditional technology have a relatively high number of hundreds of pixels per inch, there are still technical bottlenecks. When an ultimate display effect is required, motion blur may still occur in dynamic images.
In addition, the most crucial issue is that if the refresh rate of VR devices is lower than 20%, it will cause a flickering sensation to the human eyes. Especially when using near-eye devices, many parents are worried that their children's excessive immersive use of VR devices will harm their children's health. Therefore, how to minimize the flickering phenomenon remains a research and development direction of silicon-based OLED technology.
Some related manufacturers are accelerating the research and development of silicon-based OLEDs in the traditional technology field. However, MOT Company has adopted a new technical approach, and using digital driving seems to be a better technical strategy.
MOT uses digital driving technology to improve the resolution of micro-OLED displays. One of the significant advantages of this technology is that it can achieve higher grayscale and resolution with a lower-cost process. The MOT solution can give enterprises an edge in product pricing.
When manufacturing micro-OLED displays using traditional technology, the cost will increase significantly when improving the resolution. However, digital driving is different. While improving the resolution, it can effectively control costs.
The structure relied on by digital driving is simple and stable, which greatly improves the yield rate of the substrate chip. The increase in the yield rate means a significant improvement in production efficiency, and enterprises do not need to bear additional costs for defective products, making device manufacturers more competitive in the market.
The size is 0.71 inches.
The resolution reaches 1920×1080.
It is mainly applied to the AR (Augmented Reality) field. The smaller size and this resolution may be suitable for integration into devices such as AR glasses.
The size is 1.32 inches.
The resolution is as high as 2560×2560.
It is suitable for VR (Virtual Reality)/MR (Mixed Reality) scenarios. The larger size and ultra-high resolution enable users to see more delicate and realistic images in the virtual environment.
The MOT solution has a maximum refresh rate of 144Hz, which can refresh the screen 144 times per second. Coupled with the characteristic of digital driving to eliminate motion blur, the performance of its micro-OLED display is extremely excellent. Taking VR devices as an example, the high PPI design makes it almost impossible for users to see the pixels when wearing the device.
At the same time, this micro-OLED display also has the feature of being gentle on the eyes and can protect eyesight. This is a good marketing selling point for VR device manufacturers.
The ANSI contrast ratio of MOT's micro-OLED display is as high as 900:1, with vivid colors and distinct layers in the picture. In terms of power consumption, compared with traditional technology, its circuit power consumption is reduced by an average of 20% - 30%, which extends the battery life of the device and enables users not to have to worry about the power issue all the time. This is one of the most important features in terms of the practicality of the device.
