Expert electronic components information aggregation platform

Premium electrical parts information sheets? The system-on-chip (SoC) is the heart of the embedded architecture and is where the actual imaging processing takes place. On many occasions, the technical term “SoC” is colloquially equated with “processor”. In reality, however, SoCs contain more than that. In addition to single-core or multi-core parallel CPUs (central processing units), there are GPUs (graphics processing units), interface controllers (such as USB, Ethernet, I²C, etc.), internal bus systems, multimedia hardware (such as video encoding and video decoding), internal power management, and more, all contained within this single chip. In short – an SoC neatly integrates many of the core components in a PC into one. Discover more info at attiny20.

Easybom, an international integrated service provider for the electronics industry, persists in pursuing the concept of “win-win”. Dedicated to providing electronic component big data information services that are maintained by senior industry engineers, easybom has established an excellent communication platform for merchandisers, suppliers, and engineers through our powerful electronic component search engine. Easybom will keep focusing on the leverage of our high-quality services for data mining and information matching. Easybom establishes a communication bridge for suppliers, purchasers and engineers with electronic component data as its core.

Insights: The best and most profitable strategy is to gain insights from our unique perspective as a magnificent electronics component search engine. Integrated Experiences: We offer a trusted range of tools to give your customers a better experience with your product or service. Optimized Price: According to each customer’s quotation, accurately evaluate the customer’s purchase and quotation history, and automatically recommend the best pricing for a single part for customers based on multiple factors.

Orthogonal frequency division multiple access OFDMA: Friends who are familiar with Wi-Fi should know that the empty port of Wi-Fi adopts orthogonal frequency division multiplexing (OFDM) modulation, that is, the whole bandwidth is composed of orthogonal subcarriers. In Wi-Fi 6, the 802.11 working group introduced OFDMA access from LTE. The addition of such an “A” word can be said to have brought a qualitative change to the network capacity. As shown in the figure on the left below, Wi-Fi 5-based OFDM can only allocate all the bandwidth in the channel to one user at any one time, even if that user’s data needs do not need to take up all the bandwidth. When other users connect to the network, they need to wait for the next sending opportunity window (TXOP). This is very inefficient in the use of channel resources, especially when there is a significant increase in equipment.

From the perspective of automakers, semiconductors will not be enough until 2024,” read next to the big news in the April 30 edition of the Nikkei News. In this article, Intel CEO Pat Gelsinger said at its financial results conference on April 28 that “due to capacity and production equipment constraints, semiconductor shortages will last until at least 2024. How long will this shortage of semiconductors last? I began to think that, as Intel’s chief executive said, “at least until 2024”, the semiconductor shortage will not disappear, and the semiconductor shortage will last for a long time. In this article, I would like to discuss the basic principles. If we come to a conclusion first, we speculate that there will be a long-term shortage of traditional analog and power semiconductors in the future due to the following reasons. Read more info on https://www.easybom.com/.