Military Industry of Great Powers: Build the Strongest Flanker

The data processed by the passive phased array is compared to a black and white picture with poor quality, while the active phased array is naturally a large high-definition color picture.

Clearer and smarter, of course more things will be discovered. Through certain technical processing, the ability to deal with interference will also be stronger...

As the New Year's bell rang, Teacher Xiao Zhao looked at the calendar and saw that it was only 1994. It would be a bit too bullying to come up with an active phased array at this time.

In fact, the allocation for airborne radar is just this small, not only because the state leads economic construction and all factors are aligned with development, but also because the military is not in a hurry on airborne radar, and there is no original urgency.

In fact, investment in the Air Force has not decreased in recent years, and has even been greatly increased, while investment in the Army has decreased a lot.

The arrival of the Su-27 in China can be seen from the entire Su-27 assembly production line of Shenfei.

The formation of combat effectiveness of the third-generation Su-27 aircraft and the localization of the third-generation fighter aircraft are the current focus of investment.

Of course, the matching weapons are also important.

Mr. Mu said: “The military commander’s intention is to create an air force capable of all-weather operations on the ground, in the air, and in the sea!”

Zhao Guoqing shook his head and said, "This is not easy!"

President Mu sighed and said: "That's why the military commander is very urgent about the localization of Su-27!"

Mr. Mu didn’t say anything, but Teacher Xiao Zhao also knew very well that the Su-27 was just an air superiority fighter, designed to be a member of the Flanker family and bear the responsibility of air confrontation.

The military commander hopes that after the Su-27 is domestically produced, it can be modified to mount anti-sea and anti-ground weapons...

In this regard, Chinese engineers are very experienced.

They can develop J-8 fighters that can attack ships by absorbing technology from the MiG-21.

Of course, the J-H-8 is also an important weapons platform. The J-H-8 modified with new avionics already has all-weather combat capabilities, but its ability to attack ships is unknown.

"Do we have suitable anti-ship missiles?"

Mr. Mu was stunned. He didn't know much about this thing.

Mr. Mu said: "Long-range anti-ship missiles, even in the best of times between China and the United States, are weapons that they prohibit exports!"

Zhao Guoqing nodded, understandable.

During the Falklands Battle in 1982, a Type 42 guided-missile destroyer HMS Sheffield of the Royal Navy was attacked by Exocet anti-ship missiles purchased by the Argentinian army from France.

The impact of a US$2 million anti-ship missile and a billion-dollar guided missile destroyer is too great.

So much so that the Western Group directly included anti-ship missiles in the non-export catalog.

Teacher Xiao Zhao thought for a while, anti-ship missiles are not a great thing, even without themselves, China will be able to develop advanced-level Eagle Strike series anti-ship missiles in more than ten years.

In fact, the technical core of anti-ship missiles is the seeker and flight control system.

Ships are different from airplanes. The background of airplanes is the sky, and radar scanning can hide nothing. But the background of ships is the sea. If you want to identify ships in the vast sea, guidance equipment is more difficult to find than air-to-air missiles and surface-to-air missiles. many.

China's first- and second-generation anti-ship missiles use television guidance. The so-called television guidance means placing a camera in front of the warhead, transmitting the picture back to the control room via radio, and manually controlling the missile to fly.

Mao Xiong's TV guidance is more advanced. Through a certain algorithm, it automatically recognizes the graphic model captured by the TV and performs terminal guidance.

What is more advanced now is active radar guidance, which involves how to deal with complex sea surface clutter. Of course, the electromagnetic interference that needs to be faced also needs to be considered, and the technology is not yet mature.

As for infrared guidance, it is used more often, but there are also more restrictions. After all, warships are not fighter planes. Unless they are exposed to sunlight, the temperature difference between warships and the sea is not large. Besides, the world also has many defensive measures against infrared guided warheads.

Zhao Guoqing said: "102 has a lot of shelf technology, I can't believe it can help!"

With the development of semiconductor technology, especially the development of coms sensing chips, optoelectronic semiconductor guidance technology for military use was eventually derived.

The core of the technology is graphics processing, which involves part of AI graphics recognition technology.

It's very simple to say. It's similar to the automatic guidance of a TV. It's just a camera that takes pictures and searches them, and uses computer algorithms to extract the warships from the background.

After determining the target orientation, precise measurement is carried out through lidar. This guidance method is not affected by radar radio interference and has very high reliability.

As for optoelectronic technology and laser radar technology, both 102 and 101 have technical reserves. He has not paid attention to 101 for a long time. He thought that 102 was more advanced and of course had enough manufacturing processes to complete it!

Not all of Mr. Mu’s demands were met, but he thought Teacher Xiao Zhao’s suggestions were good.

Just the day after Mr. Mu left Shenzhen, China’s official media announced that 102 Research Institute had successfully developed China’s first stepper 193-nanometer lithography machine, and also announced that the Shanghai Microelectronics Research Institute had successfully developed a 193-nanometer laser projector. photolithography machine.

This news was immediately picked up by the world's mainstream media and shocked the industry.

The only one without any surprises should be ASML.

Jeffrey Friedman sipped his coffee and said, "It's a little faster than I thought!"

There are no restrictions on the export of Shanghai Microelectronics' projection lithography machines. However, the export of ASML's technology used in the stepper lithography machines of the 102 Institute is prohibited. However, through negotiations with ASML, they have mutually authorized patent royalties. This The trouble was easily solved.

Institute 102 quickly received foreign trade orders for 17 units, three of which were from Intel.

And China's independent production of photolithography machines was like the last straw that broke Batumi's mind.

Fred said to Zhao Guoqing: "France has publicly stated that they want to withdraw from Batumi!"

"Italy, Spain, the United Kingdom, and Germany all expressed their support for France!"

Although the Batumi Agreement prevented China and Mao Xiong from obtaining advanced technology, from another point of view, it also hindered the economic development of these countries.

Because their high-tech products are high value-added, their products cannot be sold now.

This paper agreement has prevented many people from getting rich.

"Mr. Zhao, according to reliable information, the next Batumi meeting should be the last one! If Batumi loses Europe, is it still Batumi?"

Zhao Guoqing nodded. He also had a sense of urgency. The United States would not give up on Europe. After the dissolution of Batumi, they used coercion and inducement, and soon came up with a Wassenaar Agreement!

From the dissolution of Batumi to the signing of the Wassenaar Agreement, there was a transition period of two to three months.

This is a window that cannot be wasted.

The little teacher immediately set his sights on Toshiba.

Life is not easy for Toshiba these days!