That is, the electrode material that most people are well-known.

These materials make up the luminous pixel points on the screen panel, and these pixel points also determine the display effect of the screen, the quality and life of the screen.

In order to provide a better screen, the current research and development personnel of Feiteng Microelectronics also rely on the support of existing patent theories to optimize the electrode materials on the screen panel.

This way is used to improve the display effect of the screen, and at the same time, it also enhances the life of the screen pixels, so that the oled screen can be truly used on the product.

The direction of Feiteng Microelectronics has also been gradually established.

Xu Cong also moved his destination to Shuguang Semiconductor, which is not far from Feiteng Microelectronics.

This year, Dawn Semiconductor has established a brand new semiconductor design team.

This type of semiconductor team is mainly responsible for the development of CMOS sensors.

CMOS sensors are complementary metals, and oxide semiconductors are essentially semiconductor products.

The main method of this type of conductor is to use it in the field of photography.

This type of semiconductor is mainly made of semiconductors made of two elements: silicon and germanium. Such semiconductors have electrodes of n and p.

These two different electrodes have complementary effects. When recording and imaging through light effects, the current can be generated to be recorded by the processor chip, and the recorded data is converted to the device to become the corresponding data recording image.

CMOS sensors can also be subdivided into passive pixel sensors and active pixel sensors.

CMOS technology not only requires very powerful sensors, but also requires very high requirements for equipment that compute images.

CMOS sensor technology is an important breakthrough in the development of image sensor technology in the future.

After all, the widespread use of CMOS sensors in the future and present is mainly due to its powerful hardware advantages.

First of all, this sensor has higher sensitivity and short exposure time, and the pixel sensitivity can better record the image data and thus restore it.

Short exposure can achieve rapid data conversion, and it has an absolute advantage over CCD sensors in terms of shooting and recording sensitivity.

In the future, CMOS sensors are not only used on digital cameras, but also on mobile phones, becoming an indispensable sensor on mobile phones.

At the same time, the CMOS sensor is combined with the lens of the mobile phone, the lens module of the mobile phone, and the corresponding image import chip, and finally becomes the image camera that everyone knows on the mobile phone.

CMOS sensors are understood by most people as cameras for mobile phones. In fact, in essence, they are just the most core hardware components of mobile phone cameras.

CMOS sensors are just like mobile phone SOC chips compared to mobile phones. This means that the stronger the CMOS sensor, the better the imaging camera of the mobile phone will be.

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Of course, in addition to the CMOS sensor that can affect the camera of a mobile phone, the lenses of a mobile phone, the aperture of a mobile phone, and the anti-shake of a mobile phone, these external factors will also affect the level of a mobile phone.

Moreover, the image photography of a mobile phone itself is a calculation image photography, and the essential technical application of the CMOS sensor currently used is to convert the seen light into graphic data.

How to optimize and process these graphic data, and how to better display the performance of these graphic data on mobile phones or display screens, all require the optimization of the ISP and mobile phone system of the processor chip.

Overall, a powerful CMOS sensor can increase the lower limit of calculating image photography, and the final imaging level still requires calculating images and data processing and polishing.

As a semiconductor sensor, CMOS sensor requires a lot of technology. Although its overall design difficulty is much easier than that of a mobile phone processor chip, its difficulty is still not low.

Now Shuguang Semiconductor has completely begun to design and produce smartphones, and is naturally preparing to invest and develop mobile phone CMOS sensors.

However, the computing images of mobile phones are not valued by most netizens now.

The main development direction of domestic mobile phones is the operation experience of mobile phones, rather than the image experience that was valued by netizens later.

The development of image experience is inseparable from a domestic manufacturer.

Of course, this so-called manufacturer is not just one manufacturer.

In fact, the most prosperous era of mobile phone images in China is actually the era of the rise of short video and mobile Internet design.

The use of mobile phones has gradually begun to develop new developments. Many people are willing to use mobile phones to take photos and send them to the social platform of the mobile Internet.

The rise of short videos and live broadcasts has also led some short video producers and users to further increase their requirements for mobile phone video cameras.

The demand for software and market has gradually made hardware manufacturers start to put a lot of effort into their products.

At the same time, it also brings a new track to the future competition of flagship and high-end aircraft.

Early high-end machines compared with flagship machines with system experience, product texture and product performance.

However, with the opening of the image track, major mobile phone high-end mobile phone brands have gradually shifted most of their energy to image photography, and the image track above has also become an important indicator for domestic mobile phone brands to distinguish mid-to-high-end mobile phones from flagship phones.

Xu Cong originally planned to use better mobile phone image sensors to promote the improvement of his brand's overall product strength in his mobile phone brand.

In order to save time, Xu Cong also went to the island country in a special hope to reach a cooperation with Sony to obtain the CMOS sensor provided by Sony.

After all, Sony's CMOS sensor technology and research and development time are very long, and its CMOS process maturity level has surpassed many manufacturers.

It’s a pity that Sony has innate resistance and resistance to this company in China, which eventually made Xu Cong turn away. This also made Xu Cong truly realize that only by mastering all the technologies can he do not need to look at other people’s faces.

Nowadays, Shuguang Semiconductor's strength in the field of chip design has basically belonged to the first echelon, and the design direction of chip semiconductors is becoming more and more extensive.

Basically, more than 85% of the sensors used on smartphones are now used, and Shuguang Semiconductor can design them independently.

And nearly half of the sensor technology is already at the leading level in the industry.

In the future, these sensors will be truly popularized into most domestic smartphone products, thereby helping the development of the domestic smartphone field.

Now Shuguang Semiconductor's research and development in CMOS and sensors has entered a critical moment. After almost half a year of research and development, the company has also developed the first batch of SMOS sensor design plans.

The SMOS performance solutions of the first batch of equipment are placed on the current market, and are also at the upper and lower level that have not reached the top level.
Chapter completed!