New article: War is always the promoter of scientific and technological progress. Recently, the United States announced that the radar of the F-35 fighter will be completely replaced with the latest model APG-85, which has attracted widespread attention. And this also means that the competition between the main combat strength of China and the United States has officially entered a new stage, that is, the era of gallium nitride. The APG-85 radar is perfectly compatible with various models of the F-35, but the biggest improvement is the use of gallium nitride technology. Compared to the previously used GaAs technology, GaN devices offer enhanced performance. The higher power density of such devices allows for smaller radars and longer detection ranges. And China's J-20 and FC-31 carrier-based aircraft may have begun to use gallium nitride radars, which indicates that it is not far off for Chinese fighters to be fully replaced with gallium nitride radars. This move will allow the radar detection range of Chinese fighters to be close to that of AWACS, greatly enhancing their situational awareness. From a technical point of view, the advantage of GaN radar is the higher power density.
This means that the radar can perform more in a smaller volume. In other words, Chinese fighters can achieve a longer detection range with a smaller radar size, which is essential for improving combat effectiveness. In practice, the advantages of GaN radar are also obvious. It can greatly enhance the situational awareness of the fighter, allowing it to detect enemy targets earlier and thus react in advance. For fighters, this means greater living space and higher combat effectiveness. However, the adoption of GaN radar has also presented some challenges. The first is the issue of the cost of technology. GaN devices are more expensive to manufacture than previous GaAs devices. This can put some pressure on the procurement and maintenance of fighters. The second is the issue of technical confidentiality. Therefore, in the process of promoting the development of gallium nitride radar, China must strengthen technical confidentiality to prevent technology leakage to competitors.
Finally, the development of GaN radar also requires more research and innovation. Although China has made some progress in this area, there is still a certain gap compared with the United States. Therefore, China needs to increase its investment in research and development of GaN radar technology and improve its own R&D capabilities. To sum up, the development of gallium nitride radar will bring a huge boost to Chinese fighters. This not only means that the detection range of the fighter will be closer to that of the early warning aircraft, but also marks that the competition between the main forces of China and the United States has entered a new stage. At the same time, however, China faces a number of challenges. Only by increasing R&D investment and technical secrecy can we ensure the smooth development of GaN radar technology, thereby improving the overall combat capability of Chinese fighters. Gallium nitride (GaN) radar is a term that may not be familiar to most people. However, it is a very important technology, especially for fighter jets. Why? There are many reasons for this, so let's find out together.
First of all, gallium nitride radar has a higher detection range and stronger anti-jamming ability. This means that fighters can detect enemy targets earlier and have more time to react. This is very important for air combat, because time is often the difference between victory and defeat. Secondly, fighters equipped with gallium nitride radars are better able to cooperate with ** fighters to perform ground-to-air combat missions, and can more easily obtain electromagnetic supremacy. Fighters are usually able to avoid detection by enemy radar, but as soon as the location is revealed, they immediately become the main target of the enemy. GaN radar, on the other hand, can provide more accurate target information to help fighter jets strike better. In addition, the gallium nitride radar is also capable of exploiting the performance of ultra-long-range air-to-air missiles to strike targets such as early warning aircraft, electronic warfare aircraft, tankers, and bombers. This means that fighters can attack enemy targets at a longer distance, while also being more difficult to intercept by the enemy.
In addition, the lightweight design of the GaN radar can also reduce the weight of fighter jets, improve maneuverability and save fuel. This is also very important for air operations, since the maneuverability and fuel consumption are directly related to the combat capability and sustained combat time of the fighter. Therefore, it can be said that gallium nitride radar is a very promising technology, which can further improve the performance of fighters and enhance their combat effectiveness. As a country with strong military strength, China is likely to use GaN radar in various types of fighter jets in the future and become a leader in the world aviation field. Of course, gallium nitride radar is not the only option. In recent years, other new radar technologies have emerged, such as phased array radar and frequency diversity radar. Each of these technologies has its own advantages and application areas. However, in the field of fighters, the gallium nitride radar is undoubtedly a very promising option.
In conclusion, gallium nitride radar is a technology of great significance that can improve the performance of fighter jets and enhance their combat effectiveness. Fighters equipped with gallium nitride radars are better able to perform ground-to-air combat missions and are able to more easily obtain electromagnetic supremacy. In addition, the gallium nitride radar is capable of using the performance of ultra-long-range air-to-air missiles to strike at enemy targets. At the same time, the lightweight design of GaN radar can also reduce the weight of fighter jets, improve their maneuverability and save fuel. Therefore, it is possible that China will widely use GaN radar in various types of fighters in the future to further improve its combat performance. In addition, there are a number of other radar technologies that are also evolving, such as phased array radar and frequency diversity radar. Each of these technologies has its own characteristics and areas of application. However, there is no doubt that GaN radar is one of the most promising radar technologies available today and will be widely used in future fighter jets.
To sum up, gallium nitride radar is a very important technology that can improve the performance of fighters and enhance their combat effectiveness. Fighters equipped with gallium nitride radars are better able to perform ground-to-air combat missions and are able to more easily obtain electromagnetic supremacy. In addition, the gallium nitride radar is capable of using the performance of ultra-long-range air-to-air missiles to strike at enemy targets. At the same time, the lightweight design of GaN radar can also reduce the weight of fighter jets, improve their maneuverability and save fuel. Therefore, it is possible that China will widely use GaN radar in various types of fighters in the future to further improve its combat performance.