all transistor
简明释义
全晶体管的
英英释义
A type of electronic circuit that uses only transistors to perform its functions, as opposed to incorporating vacuum tubes or other components. | 一种仅使用晶体管来执行其功能的电子电路,而不是包含真空管或其他组件。 |
例句
1.The new radio model is designed with an all transistor 全晶体管 circuit for better sound quality.
新款收音机采用了全晶体管 all transistor电路,以提高音质。
2.The all transistor 全晶体管 design reduces power consumption significantly.
全晶体管 all transistor设计显著降低了功耗。
3.Many modern amplifiers use all transistor 全晶体管 technology to enhance performance.
许多现代放大器使用全晶体管 all transistor技术来增强性能。
4.In the workshop, we learned how to build an all transistor 全晶体管 radio from scratch.
在车间,我们学习了如何从头开始制作一台全晶体管 all transistor收音机。
5.You should consider buying an all transistor 全晶体管 television for a clearer picture.
你应该考虑购买一台全晶体管 all transistor电视,以获得更清晰的画面。
作文
In the world of electronics, the term all transistor refers to devices that utilize transistors exclusively for their operation, without any reliance on vacuum tubes or other older technologies. This concept is crucial as it marks a significant evolution in electronic design and performance. The transition from vacuum tubes to all transistor technology has enabled the development of smaller, more efficient, and more reliable electronic devices. Transistors are semiconductor devices that can amplify or switch electronic signals. They have become fundamental building blocks in modern electronic circuits. The introduction of all transistor designs has revolutionized various industries, including telecommunications, computing, and consumer electronics. For example, radios and televisions that were once bulky and fragile due to vacuum tube technology have transformed into compact and durable devices thanks to all transistor circuitry. One of the most significant advantages of all transistor technology is its energy efficiency. Transistors consume far less power compared to vacuum tubes, which translates into longer battery life for portable devices and reduced energy costs for larger systems. This efficiency is particularly important in today's world, where sustainability and energy conservation are paramount. Moreover, all transistor devices are generally more reliable than their vacuum tube counterparts. Vacuum tubes are prone to burn out and require frequent replacements, while transistors have a much longer lifespan. This reliability has made all transistor technology the preferred choice for critical applications, such as medical equipment and aerospace systems, where failure is not an option. The impact of all transistor technology extends beyond just individual devices. It has paved the way for advancements in integrated circuits (ICs) and microprocessors, which are the brains behind modern computers and smartphones. The miniaturization of circuits made possible by all transistor designs has led to the rapid growth of the tech industry, enabling innovations like artificial intelligence, the Internet of Things (IoT), and advanced robotics. In conclusion, the term all transistor encapsulates a pivotal moment in the history of electronics. By relying solely on transistors, engineers have created a new generation of devices that are smaller, more efficient, and more reliable than ever before. The ongoing advancements in all transistor technology will undoubtedly continue to shape our future, influencing everything from how we communicate to how we interact with the world around us. As we move forward, it is essential to appreciate the profound impact that all transistor technology has had on our daily lives and the technological landscape as a whole.
在电子世界中,术语全晶体管指的是完全依赖晶体管进行操作的设备,不依赖于真空管或其他旧技术。这个概念至关重要,因为它标志着电子设计和性能的重大演变。从真空管到全晶体管技术的转变使得更小、更高效和更可靠的电子设备的发展成为可能。晶体管是可以放大或切换电子信号的半导体设备。它们已成为现代电子电路的基本构件。全晶体管设计的引入彻底改变了电信、计算机和消费电子等各个行业。例如,曾因真空管技术而笨重且易碎的收音机和电视机,因全晶体管电路的应用而变得紧凑耐用。全晶体管技术最显著的优势之一是其能效。与真空管相比,晶体管消耗的电力要少得多,这意味着便携设备的电池寿命更长,较大系统的能源成本也降低。在当今可持续性和节能至关重要的世界中,这种效率尤为重要。此外,全晶体管设备通常比真空管设备更可靠。真空管容易烧坏,需要频繁更换,而晶体管的使用寿命要长得多。这种可靠性使得全晶体管技术成为关键应用(如医疗设备和航空航天系统)的首选,在这些应用中,故障是不可接受的。全晶体管技术的影响不仅限于单个设备。它为集成电路(IC)和微处理器的进步铺平了道路,这些都是现代计算机和智能手机的核心。通过全晶体管设计实现的电路微型化推动了科技行业的快速发展,使得人工智能、物联网(IoT)和先进机器人等创新成为可能。总之,术语全晶体管概括了电子历史上的一个关键时刻。通过完全依赖晶体管,工程师们创造了一代新设备,这些设备比以往任何时候都更小、更高效和更可靠。未来,全晶体管技术的持续进步无疑将继续塑造我们的未来,影响我们沟通的方式以及我们与周围世界的互动。展望未来,重要的是要欣赏全晶体管技术对我们日常生活和整体技术格局所产生的深远影响。
相关单词
