microchips
简明释义
英[ˈmaɪkrəʊʧɪps]美[ˈmaɪkroʊʧɪps]
n. 微芯片(microchip 的复数形式)
英英释义
Microchips are small electronic circuits made of semiconductor material that can perform various functions, including processing and storing data. | 微芯片是由半导体材料制成的小型电子电路,可以执行各种功能,包括处理和存储数据。 |
单词用法
半导体微芯片 | |
集成微芯片 | |
微芯片制造 | |
微芯片技术 | |
微芯片行业 | |
设计微芯片 | |
生产微芯片 | |
安装微芯片 | |
测试微芯片 | |
使用微芯片 |
同义词
反义词
例句
1.The use of microchips in the kaiten process can be sorted into four types of use by function: information, inventory control, delivery and billing.
在制作寿司的过程中使用微芯片在功能上分为四类:信息、库存控制、发送以及结算。
2.Microchips are used in computers, cell phones and other electronic devices.
目前微型集成电路广泛应用于电脑、手机及其他的电子设备上。
3.We use math and mechanics methods and apply them to microchips.
我们把数学和力学的手段应用到芯片里。
4.It's like getting a faster set of microchips embedded in the cortex.
这就像在大脑皮质层嵌入了一块加速芯片。
5.Microchips are just one aspect of our research.
芯片只是我们研究工作的一个方面。
6.As such, it is very important to protect microchips against ESD stress in electronics assembly industry.
因此,在电子制造行业里保护芯片免受静电放电的损害是非常重要的。
7.The automotive industry relies heavily on microchips (微芯片) for vehicle safety systems.
汽车工业在车辆安全系统中高度依赖微芯片。
8.Researchers are developing microchips (微芯片) that can monitor health conditions in real-time.
研究人员正在开发可以实时监测健康状况的微芯片。
9.The new smartphone is equipped with advanced microchips (微芯片) that enhance its performance.
这款新智能手机配备了先进的微芯片,提升了其性能。
10.Smart home devices utilize microchips (微芯片) to connect to the internet.
智能家居设备利用微芯片连接到互联网。
11.Many household appliances now use microchips (微芯片) to improve energy efficiency.
许多家用电器现在使用微芯片来提高能效。
作文
In today's digital age, the significance of microchips (微芯片) cannot be overstated. These tiny semiconductor devices are at the heart of modern electronics, enabling everything from smartphones to advanced medical equipment. As technology continues to evolve, the role of microchips (微芯片) becomes increasingly pivotal in driving innovation and enhancing our daily lives.The invention of the microchip (微芯片) revolutionized the way we think about computing and electronics. Prior to their development, computers were large, cumbersome machines that required extensive resources. The introduction of microchips (微芯片) allowed for the miniaturization of components, leading to the creation of personal computers and portable devices. This transformation has made technology accessible to millions of people worldwide.One of the most remarkable aspects of microchips (微芯片) is their versatility. They can be found in a vast array of products, from household appliances to automotive systems. For instance, in the automotive industry, microchips (微芯片) play a crucial role in the functioning of safety features, navigation systems, and even electric vehicle batteries. The integration of microchips (微芯片) in vehicles enhances performance, efficiency, and safety, illustrating how they contribute to advancements in various sectors.Moreover, the healthcare industry has greatly benefited from the development of microchips (微芯片). Medical devices such as pacemakers, insulin pumps, and diagnostic equipment rely on these tiny chips to function effectively. The precision and reliability provided by microchips (微芯片) have improved patient outcomes and streamlined medical procedures, showcasing their importance in life-saving technologies.As we look to the future, the demand for microchips (微芯片) is expected to grow exponentially. With the rise of the Internet of Things (IoT), where everyday objects are connected to the internet, the need for efficient and powerful microchips (微芯片) will only increase. Smart homes, wearable technology, and connected vehicles all rely on microchips (微芯片) to process data and communicate seamlessly.However, the growing reliance on microchips (微芯片) also brings challenges. Supply chain issues, geopolitical tensions, and the environmental impact of manufacturing these components are pressing concerns. The recent global chip shortage highlighted how vulnerable industries can be when reliant on a limited number of manufacturers. This situation has prompted governments and companies to invest in domestic production capabilities and explore sustainable practices in microchip (微芯片) manufacturing.In conclusion, microchips (微芯片) are fundamental to modern technology and our daily lives. Their ability to drive innovation across various industries makes them invaluable. As we navigate the complexities of a rapidly changing technological landscape, understanding the significance of microchips (微芯片) will be essential for both consumers and industry professionals. Embracing advancements in this field will not only enhance our current technologies but also pave the way for future innovations that can address global challenges.
在当今数字时代,微芯片(microchips)的重要性不容小觑。这些微小的半导体设备是现代电子产品的核心,使得从智能手机到先进医疗设备的所有事物都得以实现。随着技术的不断发展,微芯片(microchips)在推动创新和提升我们日常生活中的作用愈发关键。微芯片(microchips)的发明彻底改变了我们对计算和电子产品的思考。在它们发展之前,计算机是大型、笨重的机器,需要大量资源。微芯片(microchips)的引入使得组件的小型化成为可能,进而催生了个人计算机和便携设备的出现。这一转变使得技术对全球数百万人变得更加可及。微芯片(microchips)最引人注目的方面之一是它们的多功能性。它们可以在从家用电器到汽车系统的各种产品中找到。例如,在汽车工业中,微芯片(microchips)在安全功能、导航系统甚至电动汽车电池的运行中发挥着至关重要的作用。微芯片(microchips)的集成提升了性能、效率和安全性,展示了它们在各个行业进步中的贡献。此外,医疗行业也极大受益于微芯片(microchips)的发展。心脏起搏器、胰岛素泵和诊断设备等医疗设备依赖这些微小的芯片来有效运作。微芯片(microchips)提供的精确性和可靠性改善了患者的治疗结果,并简化了医疗程序,展示了它们在生命救助技术中的重要性。展望未来,对微芯片(microchips)的需求预计将呈指数增长。随着物联网(IoT)的兴起,日常物品连接到互联网,对高效且强大的微芯片(microchips)的需求只会增加。智能家居、可穿戴技术和联网汽车都依赖于微芯片(microchips)来处理数据并实现无缝通信。然而,日益依赖微芯片(microchips)也带来了挑战。供应链问题、地缘政治紧张局势以及制造这些组件对环境的影响都是迫在眉睫的关注点。最近的全球芯片短缺突显了产业在依赖有限数量的制造商时的脆弱性。这种情况促使政府和公司投资于国内生产能力,并探索微芯片(microchips)制造中的可持续实践。总之,微芯片(microchips)是现代技术和我们日常生活的基础。它们推动各行业创新的能力使其不可或缺。在我们应对快速变化的技术环境的复杂性时,理解微芯片(microchips)的重要性对消费者和行业专业人士来说都是必不可少的。拥抱这一领域的进步不仅会提升我们当前的技术,还将为未来应对全球挑战的创新铺平道路。
