Scholar’s Advanced Technological System

On the first day the beep charge went live, it seemed to detonate a lot of talk.

Lithium-sky batteries are holding hands for wireless charging, and the new energy industry is running into the field of "science fiction”. Although not everyone drives a new energy car, there is no doubt that the vast majority of people are curious about this new thing.

And no matter how much is true, all kinds of trail news has spread to the circle of friends.

And with the arrival of the May 1 Gold Week, it pushed the heat of beep charging to a new peak!

There is considerable interest in this new and strange new thing, even for owners of traditional fuel cars, and some people who like to make fun of it have even registered a member scan code to park the car and just send a circle of friends for a punch shot.

It won't cost much anyway.

It has to be said that this is a very successful marketing, Neither Yida Square nor Li Tinghui predicted that “Lithium Sky Battery + Wireless Charging” and the name "Star Sky Technology" could trigger so much talk, even the first day of 51Golden Zhou Yida Square passenger traffic went up.

Watching the soaring number of subscribers sign up, a stone hanging in his heart finally landed on the ground.

Whether or not the plan goes as smoothly as it is now.

At least this wave, they can be considered successful!

In fact, wireless charging is not very black technology.

Although this domestic sector has started relatively late, it has in fact already been invested in research and development of relevant technologies on an international scale and has even achieved some results.

For example, when Audi developed its new energy vehicle, it had designed a programme to address the loss of efficiency in the transmission process, which improved the efficiency of power transmission through a liftable wireless charging system that brought the transmitting coil at the cable end closer to the receiving coil at the bottom of the electric vehicle.

Back 14 years, a 12-kilometre-long "wireless charging section” was planned for the south, which could be charged while the vehicle was driving. Of course, because of the high cost, maintenance difficulties, etc., the technology has also stopped at the figure of 12 kilometres and has not been successfully promoted.

According to the plan made by Beep Charging in the BP book, Beep Charging's wireless charging business will adopt a three-step strategy, first occupying more than 80% of the large and medium shopping malls and small parking lots in Shanghai, and second extending the business to the entire planning area of the Long Triangle city complex and to the large and medium business circles nationwide.

As for the third step, nature is the ultimate form of the technology - charging cars anytime, anywhere, even on the road. That is, to have wireless charging technology cover more than 50 percent of the road network across the core of the Long Triangle urban cluster.

Of course, the meal had to be eaten in one bite, and the plan was only now in its first phase.

But even so, this angel wheel financing is no more than 10 million startups show a strong, quite frightening...

Jinling Higher Institute.

Carbon-based semiconductor laboratory.

A group of staff in white coats are busy living in front of an experimental facility covering a considerable area of land.

After several months of effort, this giant device integrates “chemical deposition + etching” functions with the collaboration of a sinking machine with high precision machine tools, Baosheng Group, which owns and produces SG-1 ambient superconducting materials, and several domestic semiconductor companies such as Huawei Hays.

This device, like a "photolithographer” in the field of carbon-based semiconductors, is capable of processing the raw materials that have been initially processed and directly “grows” the generated carbon nanotransmitters onto a specially angled overlapping double-layer graphene material.

If, a few months ago, a carbon-based semiconductor laboratory was able to produce only 150 nm of “handmade samples” with an integration level of 300,000 per square millimeter, the laboratory is now able to reduce the process to a maximum of 80 nm, and the integration level has been increased by an entire order of magnitude.

If it weren't for electronics that require particularly high processor performance, such as mobile phones and computers, the carbon-based chip with a process of 80nm and 300,000 carbon transistors per square millimeter already has a lot of application value.

The higher the chip integration, the better, but not all areas are so demanding about high-tech.

For example, in the field of monitoring, and for example, routers…

Of course, what this semiconductor lab is developing is not a monitor or router chip, or even the recent "Longteng" series of high-end chips with a tripartite agreement, but rather a wireless charging technology that has recently sparked the heat.

At this point, the sound emitted by a gas sounded softly, and the researchers in front of the experimental equipment made amazing noises.

Looking at the data presented on the computer, Professor Wu Tianqun, with his hands on the console, had a slight ecstatic look on his face.

“… done! ”

The ark standing next to him asked hastily.

“Has it succeeded? ”

“Hmmm!” Professor Wu Tianqun pushed harder and said in a positive tone, "Very successful, success can no longer succeed! I'll show you later and you'll see! ”

Didn't keep the ark waiting long.

Soon, a chip the size of a thumbnail cover was removed from the device.

Looking at this chip stored in a bottled brown glass cover, the face of the ark gradually emerged with a staggered look of shock and comfort.

This is the second finished chip developed by the carbon-based semiconductor laboratory.

The first one is used on scientific calculators, with no particular technical content. This one, on the other hand, is used for wireless charging receptacles and transmitter devices, and the technical content is still a little high.

It is well known that wireless charging techniques can generally be divided into receiving and transmitting parts because of the problems involved in electromagnetic conversion, and can also be divided into chips, coil modules, magnetic materials, scheme designs, system integration, etc., if specifically subdivided into functional components of the receiving and transmitting ends.

Coil modules, magnetic materials, etc. are okay. These are not really high-tech areas, nor are there many patent barriers that cannot be bypassed. However, this chip is different.

Nearly all technical barriers are concentrated in the receiver chip and system integration design segment, with profits that can even account for 30 per cent of the total profits of the wireless charging industry chain.

At present, the main customers of these technologies are mobile phones, but with the continuous advancement of new energy technologies, there are now new energy vehicles.

In fact, in addition to the road of self-research chips, there are a number of international chip supply plants to choose from. In fact, the chips listed on the first batch of charging pile equipment were produced by the International Chip Factory.

But now that all the carbon-based chips have been made, Huawei Hayes, who is a stock owner of Starscream Technology, has moved from a "pure R&D + proxy” model to a "R&D + semi-produced” model. It would be a waste to leave such good conditions unused.

Even if I use the chips I bought for the time being, when the time comes, I'll have to replace them all.

Looking at the chip on the ark hand, Professor Wu Tianqun was excited to say, like the father of the child, his mouth could not stop whispering.

“Two months of tossing, finally got it out, we need to give this thing a better name! ”

In fact, when he said this, Professor Wu did not intend to ask the opinion of the Ark, but merely because he was so excited and emotional.

But it didn't occur to me that the speaker was unintentional, the listener intentionally, and after listening to the ark, he felt some sense, so he thought about it.

Nice name?

It's a little difficult...

He kept his head down for a long time, and when Professor Wu Tianqun was about to take this chip sample of his hand and put it in the warehouse, the Ark suddenly raised its head and said.

“It's called the… BB system. ”

Wu Tianqun: “…? ”

Fellows: "…???? ”

Ark: “? ”

One person looks at a group of people.

The atmosphere was awkward for many seconds.

The canoes that so many people are staring at are also a disgrace, and I don't know why these research dogs are looking at themselves like this.

emmmm…

What's wrong with that name?

Just as the ark was also somewhat embarrassed by the atmosphere, wondering whether or not to change its name, Professor Wu Tianqun broke the silence in the laboratory and couldn't help but laugh.

“This... this name definitely can't be used. First of all, we can't mix it up with them even to avoid misunderstandings if we don't say it right or not. Our project is not that beep charger! ”

“... Professor Wu also said," If you see so many objections, the Ark can only give up this namesake and watch him sweat, “what do you call it? ”

Wu Tianqun nailed the iron to pieces and said.

“Lui Gung! ”

“Lui Gung? ”

“Hmm!” Wu Tianqun nodded, the whole person was like a drug addict, his spirit trembling, “Flat thunder, amazing! Now that our chip is going to the world, and we're going to shock the world, that's not a random name! ”

“Makes sense," Ark thought for a while, not feeling that the name was much better than he thought, but reluctantly nodded the place, “then do as you say! ”