Expert electrical parts information database

High quality electrical parts info details? Due to the spread of the global COVID-19 epidemic in 2020, automobile production is in the doldrums (figure 1). The number of cars produced worldwide, which was 92.18 million in 2019 before the COVID-19 epidemic, fell by 14.56 million to 77.62 million in 2020 and appears to have fallen by 1.2 million to 76.42 million in 2021. The decline in car production in 0A2020 was caused by the COVID-19 epidemic, which led to a sharp drop in demand. However, the downturn in car production in 2021 is mainly due to a shortage of semiconductors. In fact, by 2021, the shortage of semiconductors has made it impossible to build cars, and the governments of Japan, the United States and Germany, with automobile as the core industry, have made requests to TSMC to increase the production of on-board semiconductors through the government of Taiwan. The semiconductors in short supply at that time were 28nm logic semiconductors and MCU (Micro Controller Units, commonly known as “microcontrollers”). Read extra information at dtm04-2p-p007.

In the onboard system shown in the figure above, the green rectangle represents the printed circuit board (PCB), and the small rectangles of various colors above represent various functional modules in the system, such as memory. The functions of these modules are implemented by independent silicon chips, and they are connected by metal traces on the PCB to finally form a complete system. The System-on-Chip refers to the realization of the functions of the entire system on a single silicon chip. The schematic diagram is as follows: As shown in the figure above, a system-on-a-chip (SoC) implements various functional modules such as storage, processing, logic, and interfaces in one chip, rather than requiring several different physical chips to be implemented like a system-on-board. Compared with system-on-board, SoC solutions are lower cost, enable faster and more secure data transfer between different system units, have higher overall system speed, lower power consumption, smaller physical size, and better reliability.

Easybom is proud to provide a communication bridge to suppliers, purchasers, and engineers. That makes it easier for them to communicate and find each other more easily. “Win-win and mutual-win” is the philosophy that easybom insists on. easybom has the most suppliers, purchasers, and engineers in the world. easybom introduced the latest electronic components to the market. In easybom, you can find anything you want. The goal of easybom is to create a large number of business opportunities for each user in the world by using data analysis in the most convenient way. Easybom, a powerful information aggregation platform for the electronic component industry, help you search the electronic components and supplier prices you want in a fast and easy way.

After successfully settled in easybom, the manufacturers can display the products sold on easybom and sell them efficiently. You can display and sell products on the Easybom platform. Connect to millions of engaged Easybom users when you partner with us. Easybom API: We have built a flexible API that allows you to customize the data you receive to optimize your experience. The platform provides any product among which you need to compare prices. Help you find the best quality products and buy them from suppliers.

Nowadays, Wi-Fi devices are ubiquitous in our lives. Casually open the home wireless routing management interface, there may be no less than 10 Wi-Fi devices online at the same time. The increase in the number of devices leads to network congestion, performance degradation, increased delay and other problems. These problems became more serious in the era of Wi-Fi 5 (802.11 ac). Therefore, when designing Wi-Fi 6 (802.11 ax), experts made improvements and innovations specifically for the problem of network congestion. So, what new technologies does Wi-Fi 6 use to improve wireless channel capacity? When the user equipment receives the AP signal, it will compare whether the color it receives is consistent with the current associated AP color. When the color is the same, the user will think that the signal is the signal in the cell. If the color of the received signal is different from that of the associated AP, the user determines that the signal belongs to the interference signal. As shown in the following figure, due to the use of different color codes, the channel 1 of the green cell is no longer interfered by the adjacent cell channel 1 (blue and red). See more details on https://www.easybom.com/.

Expert electrical parts information database
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