semi conductor

简明释义

半导体

英英释义

例句

1.Many modern electronic devices rely on semi conductor 半导体 materials for their functionality.

许多现代电子设备依赖于半导体材料来实现其功能。

2.The rise of electric vehicles has increased the demand for semi conductor 半导体 chips.

电动车的兴起增加了对半导体芯片的需求。

3.The computer's performance largely depends on the quality of its semi conductor 半导体 components.

计算机的性能在很大程度上取决于其半导体组件的质量。

4.The latest smartphone uses advanced semi conductor 半导体 technology to improve battery life.

最新的智能手机使用先进的半导体技术来提高电池寿命。

5.Engineers are working on a new type of semi conductor 半导体 that can operate at higher temperatures.

工程师们正在开发一种可以在更高温度下工作的新的半导体。

作文

In today's digital age, the role of semi conductor (半导体) technology cannot be overstated. It is the backbone of modern electronics, enabling the creation of a vast array of devices that have transformed our daily lives. From smartphones and laptops to household appliances and medical equipment, semi conductors (半导体) are integral components that facilitate the functionality of these devices.The term semi conductor (半导体) refers to materials that have electrical conductivity between that of a conductor and an insulator. Silicon is the most commonly used semi conductor (半导体) material due to its abundance and favorable electronic properties. The unique characteristics of semi conductors (半导体), such as their ability to control electrical current, make them essential for the development of integrated circuits and microprocessors.One of the key advantages of semi conductors (半导体) is their versatility. They can be engineered to exhibit different electrical properties by introducing impurities, a process known as doping. This allows engineers to tailor the performance of semi conductors (半导体) to meet specific requirements in various applications. For instance, p-type and n-type semi conductors (半导体) are created by adding different types of impurities, which ultimately leads to the formation of p-n junctions necessary for diodes and transistors.The impact of semi conductor (半导体) technology extends beyond consumer electronics. In the automotive industry, semi conductors (半导体) are crucial for the functioning of electric vehicles and advanced driver-assistance systems (ADAS). These systems rely on semi conductors (半导体) to process data from sensors and cameras, ensuring safety and efficiency on the road.Moreover, the ongoing advancements in semi conductor (半导体) technology are driving innovations in artificial intelligence (AI) and machine learning. Companies are continuously developing faster and more efficient semi conductors (半导体) to handle the massive amounts of data required for AI applications. This has led to the emergence of specialized semi conductor (半导体) chips designed specifically for AI workloads, enhancing computational power and reducing energy consumption.However, the semi conductor (半导体) industry is not without its challenges. The global supply chain for semi conductors (半导体) has faced significant disruptions, particularly during the COVID-19 pandemic. This has highlighted the vulnerabilities in the production and distribution of semi conductors (半导体), leading to shortages that have affected various sectors, including automotive and consumer electronics.In conclusion, the significance of semi conductors (半导体) in our modern world is undeniable. They are critical components that enable the functionality of countless devices and systems that we rely on every day. As technology continues to evolve, the demand for innovative semi conductors (半导体) will only increase, making it essential for industries to adapt and invest in research and development to stay ahead. Understanding the principles behind semi conductors (半导体) and their applications will be crucial for future technological advancements and economic growth.

在当今数字时代，半导体技术的作用不可低估。它是现代电子产品的支柱，使得各种设备的创造成为可能，这些设备已经改变了我们的日常生活。从智能手机和笔记本电脑到家用电器和医疗设备，半导体是使这些设备能够正常工作的关键组成部分。半导体（semi conductor）一词指的是一种电导率介于导体和绝缘体之间的材料。硅是最常用的半导体材料，因为它丰富且具有良好的电子特性。半导体（semi conductor）的独特特性，如控制电流的能力，使其成为集成电路和微处理器开发中不可或缺的部分。半导体（semi conductor）的一个主要优点是其多功能性。通过引入杂质（称为掺杂），可以对其电气特性进行工程设计。这使得工程师能够根据各种应用的具体要求来调整半导体（semi conductor）的性能。例如，通过添加不同类型的杂质，可以创建p型和n型半导体，这最终导致形成二极管和晶体管所需的p-n结。半导体（semi conductor）技术的影响超越了消费电子产品。在汽车工业中，半导体对于电动车和先进驾驶辅助系统（ADAS）的运作至关重要。这些系统依赖于半导体（semi conductor）处理来自传感器和摄像头的数据，以确保道路上的安全和效率。此外，半导体（semi conductor）技术的持续进步正在推动人工智能（AI）和机器学习的创新。公司们不断开发更快、更高效的半导体（semi conductor），以处理AI应用所需的大量数据。这导致出现了专门为AI工作负载设计的半导体芯片，从而增强了计算能力并降低了能耗。然而，半导体（semi conductor）行业并非没有挑战。全球半导体（semi conductor）供应链面临重大干扰，尤其是在COVID-19大流行期间。这突显了半导体（semi conductor）生产和分配中的脆弱性，导致短缺，影响了包括汽车和消费电子在内的多个领域。总之，半导体（semi conductor）在我们现代世界中的重要性是不可否认的。它们是使我们每天依赖的无数设备和系统能够正常运作的关键组件。随着技术的不断发展，对创新半导体（semi conductor）的需求只会增加，因此各行业必须适应并投资于研发，以保持领先。理解半导体（semi conductor）背后的原理及其应用对未来的技术进步和经济增长至关重要。