Two weeks after the new power manager was installed, this small electronic component put many people at a loss.
Among them was Xiao Tian, who took his wife on a trip to Nandu. They also took her to the First People's Hospital of Nandu for a comprehensive check-up, mainly because the medical conditions at the guesthouse were poor, and the testing equipment wasn't as good as at the hospital.
Fortunately, both the adults and children are healthy.
Xing Baohua began a comprehensive inspection of the final stages of the work. He never imagined in his life that one day, he, who made mobile phones and computers, would be able to create a fire control command system.
Moreover, it is all domestically produced and manufactured independently. Although foreign companies still play a role in many core technologies, all the electronic components are produced entirely by Chinese people using domestically made equipment based on that core technology.
It is characterized by low cost, advanced technology, and independence from external forces, no fear of stockouts, self-sufficiency, easy replacement of broken parts.
Only a handful of countries in the world possess this technology, and some may even be leading in one or two areas.
We don't know the level of expertise of foreigners, and they don't share their technology with us for reference. However, Xing Baohua's proposed integrated strike method seems very advanced. It connects to satellites at the top and land, sea, and air at the bottom, with data sharing as its biggest feature.
It can control more than 200 targets simultaneously, and each target can be assigned to various fire control units. It sounds impressive, but by then, the Americans already had these kinds of devices.
Although it wasn't apparent to others, doesn't that mean it hasn't been tested in real combat? It hasn't been fully utilized yet.
In a little over a year, the US will use Operation Desert to demonstrate what integrated strike, dimensional reduction strike, and comprehensive electronic information warfare are all about.
Besides the US, many countries around the world thought the US would fight for several years, but who knew they would end the desert operation in just 42 days.
The US's adversary is a self-proclaimed regional superpower in the desert region, boasting over 900,000 troops, over 800,000 reserves, more than 5,600 advanced armored vehicles, over 7,500 combat vehicles, 3,800 artillery pieces of various calibers, and over 700 aircraft. This demonstrates its formidable strength; a regional superpower is not to be trifled with.
Moreover, the Little Tyrant possessed the largest and most modern air defense system in the entire desert region at the time. In terms of equipment and quantity, the Little Tyrant's overall strength surpassed that of my country.
Take fighter jets as an example. The smaller superpowers are generally equipped with Mi-23, Mi-25 and Mi-29, while my country only has the J-7 and J-6, which are imitations of the Mi-21 and Mi-19.
Such a formidable unit, covered in thorns, was utterly defeated in 42 days.
Operation Desert was hailed as the first high-tech war in human history, a high-tech war that terrified the world and deeply shocked us.
The gap is far from small. This not only triggered our fear of insufficient firepower, but also led to a new symptom: information blockage.
Operation Desert demonstrated three main characteristics: airborne, electronic, and long-range.
Let's not even talk about the air force; we can't catch up to their level anytime soon. It's fine for deterrence and driving them away, but if it comes to a head-on confrontation, it'll just be like the men's football team, adding points to their achievements for nothing.
When you're fighting with bayonets in the sky, you realize your sword is too short, your legs are too short, and the generation gap is just too big.
Only electronics and remote technologies can catch up.
Once the FAST telescope is in the air, it can wander around the coast all the time. Even if our own small aircraft have short range, FAST can still lock onto them and provide target units to land-based and sea-based aircraft, using long-range technology to compensate.
Beyond the range of the FAST telescope, isn't there still the satellite as a shared unit? Even if the other party flies back, it can still be observed, and even its return home can be observed.
If we give its old home a fire extinguisher, do you think it would be so scared that it couldn't sleep, or even run away overnight?
The power supply IC that Zhang Dongshuo made according to the requirements met the requirements, but he felt that putting in four chips was a bit wasteful, and three would be more appropriate.
Discuss with Xing Baohua to see if the CPU can be configured into a dual-processor mode to increase its computing power.
Xing Baohua was worried about overheating the system, so he opted for a single-socket CPU for safety, planning to set aside time later to build a dual-socket setup. Besides, CPUs upgrade too quickly; according to the "Sky Eye" model, they'd need an upgrade every two years at most.
Moreover, this thing must not let the other party figure out the frequency, otherwise they will make an anti-interference device specifically based on our frequency, and then we will be at a disadvantage.
He then gathered the team and began assembling and testing the computer. During this break, Xing Baohua inquired about electronic temperature control probes and obtained several to be added to the chassis to monitor the chassis temperature. He even managed to procure the most advanced thermal sensors.
This isn't a handheld, portable device; it's a large piece of equipment. The main unit and monitor alone weigh over 200 pounds, and it carries a probe over two meters long to detect heat sources.
The sensitivity is quite high.
On a black-and-white screen, the spots that appear are heat sources. The temperature readings are displayed in the upper right corner of the screen, and this device can only detect heat sources within a 10-degree range. It's a useful tool for detecting electronic components on the motherboard, but its specific purpose is unknown.
Installation test, checking the software. This time the boot was very smooth, entering the system in one minute. There was no desktop; it went directly into the software.
The software interface is very simple, consisting of six windows. Clicking on a specific window will enlarge it, while the remaining windows will automatically shrink around it.
The windows display radar, communications, command, 2D map coordinates, anti-electronic interference power, etc., and each window connects to the operating units in the back row.
For example, in a radar unit, four staff members monitor the footage, observe the surrounding environment, and analyze unidentified intruding objects. This data is then transferred to this main unit for analysis; detailed data such as altitude, trajectory, and speed can be obtained within milliseconds. This information is then shared with the command and communications teams.
My dear reader, there's more to this chapter! Please click the next page to continue reading—even more exciting content awaits!
Continue read on readnovelmtl.com
