Chapter 270 Dawn SMOS

This time the Coolpad joint model has officially laid a solid foundation for the current joint name of the smartphone.

Even this has aroused the frenzy of the joint -name co -branded of smartphone brands and other well -known brands. Even in more than half a year, major brands have launched their own joint products, which once made the entire smartphone market become smoky.

The first is the main cost -effective Nebula 750 processor chip. Although this processor chip is a high -end processor chip that is positioned, it seems that there is no difference in the overall performance parameters.

And many digital bloggers compare the processor chip comparison. The purpose is to compare this processor chip to compare with the Nebula 840 chip.

The comparison results also made netizens have to admit that the Nebula 750 This processor chip is indeed the best processor chip in the industry in terms of power performance.

Even in the daily use process, this processor chip is more in line with the public's requirements for mobile processor chips.

Of course, the new flagship processor chip of the Nebula 850 has also been valued by netizens. After passing the test, netizens found that the processor chip of the Nebula 850 is compared to the previous generation Nebula 840 processor chip.

A lot of it.

Even under some ultimate performance modes, it can also meet the needs of some users for mobile processor chips.

At the same time, it also has a very good expression in terms of the quality treatment of the overall game.

Of course, the first Coolpad joint version equipped with a processor chip that is currently in Nebula 850 has also suffered from some netizens.

Nebula 850 This processor chip is not just a processor on the mobile terminal, but the chip's performance in ISP images at the same time is one of the best in the industry.

However, Coolpad is equipped with an entry -level CMOS sensor, which also makes the current Coolpad really unable to play the most powerful level of this processor chip.

"The most powerful performance of the Nebula 850 lies in its strength for image processing, but friends and merchants do not completely polish this mobile processor chip, and waste the computing power of this processor in image!"

/p>

"Our rice company will bring the most ultimate image experience. In the future, we will cooperate with the most ultimate image experience of the Nebula 850 processor chip!"

While Coolpad was mixed in the industry, the person in charge of the rice company Rebus expressed his speech and views at this time.

This also attracted the attention of some netizens, who also severely criticized Coolpad for being too backward in terms of products.

The Ferrari engine matches the tractor's appearance, which makes the whole product look even weirder.

Of course, netizens don’t actually have that much demand for current smartphone imaging.

After all, computing imaging on the mobile side has just begun, and most users’ requirements for sensor cameras are not as high as they imagined.

Many users will consider the mobile processor chip and screen quality of their mobile phones when pursuing products. As for the image sensor, the vast majority of users completely ignore it.

Of course, this does not mean that major mobile phone manufacturers will not start working on image sensors.

After all, current smart mobility is still relatively chaotic, and all major brands want to occupy a high enough market share in this chaotic situation.

Therefore, in this case, only by having the independent competitiveness of the product can the product go further.

Soon some netizens discovered some new news.

Sugon Semiconductor announced the company's latest Smos on its official website.

This type of CMOS imaging technology even makes many netizens who are watching have to marvel at Sugon Semiconductor's efforts in configuring mobile phone components.

Dawn 482 sensor!

Dawn 502 sensor!

Dawn 642 sensor!

Netizens passed the naming of Sugon Semiconductor sensors and discovered Sugon Semiconductor’s main naming method for sensors this time.

The first two numbers represent the pixel level of the sensor. For example, the Sugon 482 sensor is a sensor that can support up to 48 million pixels.

The last number behind represents the sensor generation. For example, the sensors in this area have a "two" behind them, which means that this batch of sensors is the second generation sensor developed by the company.

The sensors this time are all public version sensors, which means that most future smartphones will use these sensors.

This also made countless netizens lament that this time Sugon Semiconductor has simply changed the development direction of the entire smartphone market on its own.

After all, this time the entire smartphone industry will truly enter a new era because of this sensor.

Among these sensors, the most common one is the Sugon 482 sensor.

Although this sensor has a light sensitivity of 48 million pixels, it only has 12 million pixels, and the entire sensor area is 1/2.25 inches.

This means that the unit pixel area of ​​this sensor is only 1.4um when viewed directly. If it shoots 48 million pixels, the unit pixel area is only 0.7um.

However, compared with the mainstream sensors currently on the market, this sensor is still much improved, which also greatly improves the current overall imaging capabilities.

Of course, the pixels of this sensor adopt the latest technology. In addition to the latest Oplhas new photosensitive material, this material can increase the photosensitivity by about 20%.

This chapter is not over yet, please click on the next page to continue reading!

At the same time, combined with the latest algorithm of the sensor, it can achieve a substantial improvement in the calculation of images, thereby giving users the most extreme imaging experience.

What netizens are most concerned about are the two flagship-level top sensors this time. It can be said that these two sensors are currently the best sensors on Sugon Semiconductor.

And this time Sugon Semiconductor has applied most of the company's technologies to this sensor.

The first is this 50-megapixel quasi-flagship sensor. The bottom of this sensor directly breaks through to 1/1.79 inches, and the entire sensor uses a 12.5-megapixel photosensitive sensor.

The unit pixel area of ​​this sensor is as high as 1.8um. ​​Even if it shoots high-definition 50 million pixels, it can still reach an astonishing level of 0.9um.

In addition to using the same technology as Sugon 482, this time it also adds two new technologies that are currently not available in sensors on the market.

The first is pixel separation technology, which separates the original single pixel into two pixels and uses a bevel method to increase the pixel sensitivity level by 20%. At the same time, the color complement can also be improved.

The second upgrade is to add a new coating to the pixels. This coating can protect the pixels in strong light environments. At the same time, during the shooting process, it can protect the pixels in strong light environments.

Prevent glare.

It can be said that these two technologies have fully reflected Sugon Semiconductor's efforts in image sensors, and even this sensor is enough to meet users' needs for mechanical image sensors.

As for the other sensor, it is a relatively sub-flagship sensor, using a 16-megapixel four-in-one shooting mode.

This sensor has 1/2 the base, and the pixel area of ​​the sensor is basically the same as the Sugon 482 sensor, except that the number of pixels of the sensor has increased by about 30%.

In addition, this sensor also has the same technology as the flagship sensor Sugon 502, and is indeed one of the best in terms of overall image photography capabilities.

The emergence of these three sensors has also attracted the attention of many mobile phone manufacturers, and they have also begun to contact Sugon Semiconductor, hoping to purchase these sensors.

As the latest sensor, it is naturally much more expensive than other flagship sensors.

The most common Sugon 482 sensor is about twice as expensive as the flagship sensors currently on the market.

The Sugon 642 sensor is more expensive in terms of price, almost 3.5 times more expensive. The most expensive one is the Sugon 502 sensor.

In terms of price, it is basically almost five times the price of sensors currently on the market.

It can be said that the pricing of these sensors has really frightened many manufacturers. In the eyes of many manufacturers, these sensors will directly crush the cost of mobile phones.

You must know that the price of most current sensors is around 100 yuan, and some top flagship sensors are around 150 yuan.

This time, the price of the cheapest Sugon Semiconductor sensor is close to 300 yuan, which will directly increase the cost of the product a lot.

This has also made mobile phone manufacturers who were originally somewhat enthusiastic begin to hesitate. After all, if these sensors are used, the cost of the entire product will no longer be controlled by these manufacturers.

Of course, as those who have the closest cooperation with Sugon Semiconductor, manufacturers have also begun to negotiate with Sugon Semiconductor, hoping to reduce the cost of products through large-scale purchases to meet product needs.

After all, only by purchasing a large number of sensors can the price of the product be kept down.

However, what surprised Sugon Semiconductor was that the manufacturer with the largest number of large-scale purchases this time was not someone else, but a green factory spun off from BBK, which had been working quietly offline.

This time, the green factory directly placed an order for 30 million batches of sensors, and finally cut the price of a single chip from 280 yuan to 210 yuan, successfully becoming the first partner of the image sensor this time.
Chapter completed!