small scale integration

简明释义

小规模集成度

英英释义

例句

1.Researchers are exploring the limits of small scale integration 小规模集成 in nanotechnology.

研究人员正在探索纳米技术中小规模集成 小规模集成 的极限。

2.The company specializes in small scale integration 小规模集成 for custom electronic devices.

该公司专注于为定制电子设备提供小规模集成 小规模集成 的服务。

3.The transition from small scale integration 小规模集成 to large scale integration is crucial for industry growth.

从小规模集成 小规模集成 到大规模集成的过渡对行业增长至关重要。

4.In our electronics course, we learned how small scale integration 小规模集成 can lead to more complex designs.

在我们的电子课程中，我们学习了如何通过小规模集成 小规模集成 来实现更复杂的设计。

5.The development of microchips often begins with small scale integration 小规模集成 to test basic functionalities.

微芯片的开发通常从小规模集成 小规模集成 开始，以测试基本功能。

作文

In the world of electronics, the term small scale integration refers to the process of combining a limited number of electronic components into a single chip or integrated circuit (IC). This technology has played a crucial role in the development of modern electronic devices, allowing for more compact designs and improved performance. The advent of small scale integration marked a significant milestone in the history of electronics, as it enabled engineers to create simpler and more efficient circuits that could perform basic functions. Historically, before the introduction of small scale integration, electronic circuits were built using discrete components such as resistors, capacitors, and transistors. These components were often bulky and required a considerable amount of space on a circuit board. As technology progressed, the need for smaller, faster, and more reliable electronic devices became apparent. This led to the development of integrated circuits, where multiple components could be fabricated onto a single semiconductor substrate. The primary advantage of small scale integration is its ability to reduce the size of electronic devices while maintaining or even enhancing their functionality. For instance, early computers relied on numerous individual components that took up significant space. With the implementation of small scale integration, entire functional units could be condensed into a single chip, leading to the creation of smaller and more powerful computers. This not only saved space but also reduced manufacturing costs and improved reliability by minimizing the number of connections that could fail. Moreover, small scale integration paved the way for further advancements in the field of electronics. As engineers became more familiar with the technology, they began to explore the possibilities of integrating more components onto a single chip. This eventually led to the development of medium scale integration (MSI) and large scale integration (LSI), which allowed for thousands and millions of components to be combined into a single device. The impact of small scale integration can be seen in many areas of technology today. From smartphones to home appliances, the ability to integrate multiple functions into a single chip has revolutionized the way we interact with electronic devices. For example, modern smartphones incorporate various functionalities such as cameras, GPS, and communication capabilities all within a compact form factor, thanks in part to advancements in integration technology. In conclusion, small scale integration has been a fundamental development in the field of electronics, enabling the miniaturization of devices and enhancing their performance. It has laid the groundwork for future innovations in integrated circuit technology, ultimately shaping the way we live and work in a technology-driven world. As we continue to push the boundaries of what is possible with electronics, the principles of small scale integration will undoubtedly remain relevant, guiding future advancements in the industry. In Chinese, small scale integration translates to "小规模集成", which emphasizes the concept of integrating a limited number of components to achieve efficiency and compactness in electronic design. Understanding this term is essential for anyone studying electronics or working in related fields, as it represents a foundational aspect of modern technology.

在电子世界中，术语小规模集成指的是将有限数量的电子组件组合到一个单一的芯片或集成电路（IC）中的过程。这项技术在现代电子设备的发展中发挥了至关重要的作用，使得设计更加紧凑，性能得到提升。小规模集成的出现标志着电子历史上的一个重要里程碑，因为它使工程师能够创建更简单、更高效的电路，能够执行基本功能。历史上，在引入小规模集成之前，电子电路是由离散组件如电阻器、电容器和晶体管构建的。这些组件通常体积庞大，并且在电路板上需要相当多的空间。随着技术的进步，对更小、更快和更可靠的电子设备的需求变得显而易见。这导致了集成电路的发展，多个组件可以在单一半导体基底上制造。小规模集成的主要优点是能够在保持或甚至增强功能的同时，减少电子设备的大小。例如，早期的计算机依赖于众多独立组件，占用了相当大的空间。通过实施小规模集成，整个功能单元可以浓缩到一个单一的芯片中，从而创造出更小、更强大的计算机。这不仅节省了空间，还降低了制造成本，通过最小化可能失效的连接数量，提高了可靠性。此外，小规模集成为电子领域的进一步发展铺平了道路。随着工程师对这项技术的熟悉，他们开始探索将更多组件集成到单一芯片上的可能性。这最终导致了中规模集成（MSI）和大规模集成（LSI）的发展，允许数千和数百万个组件结合在一个设备中。小规模集成的影响可以在今天许多技术领域中看到。从智能手机到家用电器，将多种功能集成到单一芯片中的能力彻底改变了我们与电子设备的互动方式。例如，现代智能手机将相机、GPS和通信能力等各种功能都整合在一个紧凑的外形中，这在很大程度上得益于集成技术的进步。总之，小规模集成是电子领域的一项基础性发展，使设备的小型化成为可能，同时提升了其性能。它为未来集成电路技术的创新奠定了基础，最终塑造了我们在技术驱动的世界中生活和工作的方式。随着我们继续推动电子产品的可能性，小规模集成的原则无疑将保持相关性，引导行业的未来发展。在中文中，小规模集成强调了将有限数量的组件集成以实现电子设计的效率和紧凑性的概念。理解这个术语对于任何学习电子学或从事相关领域的人来说都是至关重要的，因为它代表了现代技术的一个基础方面。