During World War II, radar technologies with ground radar, carrier-based radar, aviation radar and other functions of enemy-enemies and identification have already appeared.

Of course, radar technology after World War II has become more and more advanced, such as single-pulse angle tracking, pulse Doppler signal processing, and various detection methods such as infrared light, ultraviolet light, laser, etc. in the 21st century to detect enemy aircraft.

In later generations, aircraft detection radars are generally used in combination with horizontal scanning radars and azimuth detection radars, because in this way, the signals of the two radars can more accurately detect the flight altitude and flight position of the enemy aircraft.

However, radar technology is not very advanced during 1940; the more famous one is that in January 1936, Robert Watson Watt set up the first radar station in the UK on the Sovk coast.

That is, the famous chain radar station during World War II. Later, in order to strengthen the reconnaissance of the German aviation troops, Marconi Company built a total of 20 chain radar stations for Britain in 1937.

At the end of 1943, the chain-to-direction radar station, the low-altitude chain-to-direction radar station and the ultra-low-altitude chain-to-direction radar station jointly formed a powerful chain-to-direction radar network; and now Chen Yanlong wants to steal the British radar technology first for use.

He also plans to integrate the plane position PPI display and GCI radar to develop the improved 7 radar that the UK started to use on New Year's Day in 1941, and to conduct large-scale national detection for the German Air Force.

Because the large antenna array of Type 7 radar can rotate within a speed range of 1 to 8 turns per minute, covering an all-round range of 360 degrees; it is more advanced than the manufacturing technology of chain-direction radar stations, and with the current scientific and technological strength of the German army, it can also be produced in large quantities and put into use.

Of course, he most wanted to have more advanced early warning radars, aviation control radars, and battlefield reconnaissance radars now; it was best to have radar equipment that could reach the scientific and technological level of later generations from the 1950s to 1960s.

However, if these devices are more advanced, they will not have early warning radar until 1943, as well as the magnetron radar that appeared after 1943, as well as the linear frequency modulation pulse radar that only exists in 47 years, and the 50-year high-range early warning radar system that can track supersonic aircraft and subsequent pulse Doppler radar...

However, for Chen Yanlong, a special forces soldier from the 21st century in his previous life, he had learned in-depth about the manufacturing process of some more advanced radars; so at this moment, he is absolutely 100% confident that he will let these radar products from the 1940s and 1950s be released in advance.

So when Chen Yanlong decided to develop a more advanced jet as soon as possible, he went to his room to draw a lot of radar design drawings.

While drawing, he was thinking about the types of radars he wanted to configure for Germany immediately, while thinking about the configuration of these radars in Germany.

The radar drawings he finally drew first, but decided to build the PPI display developed by the British, the Type 7 radar integrated with the GCI radar, and 50 radar stations must be deployed, which will be chained to radar stations, low-altitude chained radar stations and ultra-low-altitude chained radar stations, all of which are built in the suburbs of Berlin and Berlin to detect the attacks of British aircraft.

Moreover, after the GCI radar station is completed, it will accelerate the development of technologies such as command, guidance, control and interception, as well as radar vehicles, and mature.

Because he would be able to develop and produce advanced early warning radars, magnetron radars and linear frequency modulation pulse radars before the beginning of 1944.

Even the U.S.-equipped ultra-distance early warning radar systems in the mid-1950s could explore supersonic aircraft and pulsed Doppler radars soon after.

And the ballistic missile early warning radar system developed by General Electric in 1959, space orbit surveillance radar, and artificial satellites.

After he finished drawing, he stretched to the floor-to-ceiling glass window of his room; staring at the brilliant night sky outside the Prime Minister's Mansion in Berlin, falling into deep thought.

"There are less than two years left to be when Germany is defeated. Can I really change my destiny?"

Afterwards, Chen Yanlong muttered to himself with some concern.

But soon he suppressed this concern and then drew drawings of invention designs for electronic component transistors.

According to historical records on later networks, people were developed in 1929. He was the engineer Lilianfeld and successfully applied for a transistor patent.

However, due to the scientific and technological level and backward production technology at that time, there was no way for this great engineer to make this high-purity transistor.

It was not until December 1947 that a research team composed of Shockley, Badin and Bratton from Bell Laboratory in the United States successfully developed a point-contact germanium transistor, which allowed the transistor to be released and the prelude to the human microelectronics revolution to begin.

And in 1950, the first "PN junction transistor" was officially released.

The development of electronic component transistors has very important revolutionary significance and role in the rapid development of future computers, mobile phones, radars, sonars, and various electronic devices.

Therefore, if Chen Yanlong wants Germany to have the first computer computer and more advanced radar, sonar and other electronic equipment, it is necessary to develop more advanced electronic component transistors in advance and invest in various electronic equipment for use.

Transistors are semiconductor devices, commonly used in amplifiers or electronically controlled switches, and are mainly divided into two categories: bipolar transistors (BJTs) and field-effect transistors (FETs).

It is the basic building block of modern electronic circuits such as computers and mobile phones in later generations.

Of course, in addition to the need to be developed in advance for electronic component transistors, imaging tubes and integrated circuits also need to be developed in advance. In short, for scientific and technological inventions that can improve Germany's existing field of electronic equipment, Chen Yanlongdu will try to let it be released in advance to produce lower costs for Germany in the future, and advanced radar, electronic computers, and sonar and other weapons and equipment, and apply them to the battlefield to fight the threat of British, American and Soviet troops.

As for the design drawings and development plans of electronic component transistors, imaging tubes, as well as integrated circuits, Chen Yanlong plans to hand them over to Germany's "father of radar" Holman Howman, and the electronic component research team that is about to be established for manufacturing.

While Chen Yanlong was working hard to draw the drawings and began his deployment of the new electronic components field as the head of the German Empire, the Japanese troops deployed in Makin Atoll were not sleepy at all because they were now engaged in the fierce second Makin Atoll Battle with the US military.
Chapter completed!