on transistor

简明释义

通导晶体管

英英释义

例句

1.The workshop covered various topics on transistor 关于晶体管 applications in modern electronics.

研讨会涵盖了现代电子产品中关于on transistor 晶体管应用的各种主题。

2.This book provides comprehensive information on transistor 关于晶体管 design and fabrication.

这本书提供了关于on transistor 晶体管设计和制造的全面信息。

3.The professor gave a lecture on transistor 关于晶体管 circuits and their applications.

教授进行了关于on transistor 晶体管电路及其应用的讲座。

4.We need to focus our research on transistor 晶体管 technology to improve efficiency.

我们需要将研究重点放在on transistor 晶体管技术上，以提高效率。

5.The engineer conducted a thorough analysis on transistor 关于晶体管 performance under different conditions.

工程师对不同条件下的on transistor 晶体管性能进行了全面分析。

作文

The invention of the transistor marked a pivotal moment in the history of electronics. Before its introduction, vacuum tubes were the primary components used to amplify electrical signals. However, these tubes were bulky, inefficient, and prone to failure. The transition to solid-state devices, particularly the on transistor (晶体管), revolutionized the way electronic circuits were designed and implemented. Transistors are semiconductor devices that can both amplify and switch electronic signals. Their small size and reliability have made them indispensable in modern electronics. The on transistor serves as a fundamental building block for various applications, from simple amplifiers to complex microprocessors. One of the key advantages of the on transistor is its ability to operate at low power levels while still providing high performance. This efficiency has enabled the development of portable electronic devices, such as smartphones and laptops, which have become integral to our daily lives. As technology continues to advance, the demand for smaller, faster, and more energy-efficient components has only increased, further solidifying the importance of the on transistor. In addition to their use in consumer electronics, transistors play a crucial role in telecommunications. They are essential for signal processing, enabling clear and reliable communication over vast distances. The on transistor has also facilitated the growth of the internet, allowing for the rapid transmission of data across networks. Without this remarkable device, our modern digital world would not be possible. The development of the on transistor can be traced back to the mid-20th century, when physicists John Bardeen, Walter Brattain, and William Shockley at Bell Labs created the first working model. Their groundbreaking work earned them the Nobel Prize in Physics in 1956. Since then, numerous advancements have been made in transistor technology, leading to the creation of integrated circuits that house millions of transistors on a single chip. The ongoing miniaturization of transistors has paved the way for the modern computing era, where we see powerful processors in devices that fit in the palm of our hands. The on transistor has not only transformed the field of electronics but has also significantly impacted various industries, including healthcare, automotive, and entertainment. In conclusion, the on transistor (晶体管) is a cornerstone of contemporary technology. Its ability to efficiently amplify and switch electronic signals has led to innovations that have changed the way we live and work. As we look to the future, it is clear that the on transistor will continue to play a vital role in shaping the technological landscape, driving advancements that we can only begin to imagine.