transistorize
简明释义
英[trænˈzɪstəˌraɪz]美[trænˈzɪstəˌraɪz]
v. 装上晶体管,使晶管体化
第 三 人 称 单 数 t r a n s i s t o r i z e s
现 在 分 词 t r a n s i s t o r i z i n g
过 去 式 t r a n s i s t o r i z e d
过 去 分 词 t r a n s i s t o r i z e d
英英释义
To convert a device or circuit to use transistors instead of vacuum tubes or other technologies. | 将设备或电路转换为使用晶体管而不是真空管或其他技术。 |
单词用法
对电路进行晶体管化 | |
对放大器进行晶体管化 | |
晶体管收音机 | |
晶体管技术 |
同义词
反义词
停用 | 在进行维护之前,请停用系统。 | ||
断开 | Make sure to disconnect the power supply before starting repairs. | 在开始维修之前,请确保断开电源。 |
例句
1.The engineer decided to transistorize the old radio circuit to improve its efficiency.
工程师决定将旧收音机电路晶体管化以提高其效率。
2.By transistorizing the amplifier, we were able to reduce its size significantly.
通过晶体管化放大器,我们能够显著减小其体积。
3.The company plans to transistorize their entire product line to keep up with modern technology.
公司计划将整个产品线晶体管化以跟上现代技术。
4.In the 1960s, many devices began to transistorize, leading to the miniaturization of electronics.
在1960年代,许多设备开始晶体管化,导致电子产品的小型化。
5.To achieve better performance, they decided to transistorize the control system.
为了获得更好的性能,他们决定将控制系统晶体管化。
作文
The invention of the transistor marked a revolutionary change in the world of electronics. Before this innovation, electronic devices relied heavily on vacuum tubes, which were bulky, fragile, and consumed a lot of power. The introduction of the transistor allowed engineers to design smaller, more efficient devices. To put it simply, the process of making devices smaller and more efficient is often referred to as the ability to transistorize (将设备小型化和高效化). This term encapsulates the transition from traditional vacuum tube technology to modern semiconductor technology, which has paved the way for the development of numerous electronic gadgets we use today. One of the most significant impacts of transistorizing (小型化) technology is its contribution to the miniaturization of consumer electronics. Devices such as radios, televisions, and eventually computers became more compact, leading to the portable devices we carry in our pockets today. In fact, the first portable radio was made possible due to the transistorization (晶体管化) of radio technology, allowing it to be small enough to fit into a handbag. Furthermore, the ability to transistorize (晶体管化) has had profound implications for various industries. In telecommunications, for instance, the shift from vacuum tubes to transistors allowed for the development of more reliable and efficient communication systems. This advancement was crucial for the growth of the internet and mobile communication technologies, which rely on complex networks of transistors to function effectively. In the realm of computing, the transistorization (晶体管化) of circuits has enabled the creation of microprocessors, which are the brains of modern computers. These microprocessors are composed of millions, if not billions, of transistors packed into a tiny chip. This level of integration has made it possible to build powerful computers that can perform complex calculations at incredible speeds. The ongoing trend of transistorizing (小型化) components continues to drive advancements in artificial intelligence and machine learning, where computational power is paramount. Moreover, the environmental impact of transistorization (晶体管化) cannot be overlooked. By creating smaller and more energy-efficient devices, we reduce the overall energy consumption of electronic products. This shift is vital as the world grapples with the challenges of climate change and seeks sustainable solutions. The ability to transistorize (晶体管化) means that we can produce more effective technologies while minimizing their carbon footprint. In conclusion, the term transistorize (晶体管化) represents much more than just a technical process; it signifies a paradigm shift in how we approach electronics and technology as a whole. From the evolution of consumer gadgets to the revolution in computing and telecommunications, the ability to transistorize (小型化) has reshaped our lives in countless ways. As we look to the future, the continued emphasis on transistorization (晶体管化) will undoubtedly lead to even more groundbreaking innovations that will further enhance our daily experiences.
晶体管的发明标志着电子世界的革命性变化。在这一创新之前,电子设备主要依靠真空管,这些真空管体积庞大、易碎且耗电量大。晶体管的引入使工程师能够设计出更小、更高效的设备。简单来说,使设备更小、更高效的过程通常被称为能够transistorize(将设备小型化和高效化)。这个术语概括了从传统真空管技术到现代半导体技术的过渡,这为我们今天使用的众多电子产品的发展铺平了道路。 transistorizing(小型化)技术最显著的影响之一是它对消费电子产品小型化的贡献。例如,收音机、电视,最终计算机都变得更加紧凑,导致我们今天口袋里携带的便携式设备的出现。事实上,第一款便携式收音机正是由于收音机技术的transistorization(晶体管化)而成为可能,使其小到可以放入手提包中。 此外,能够transistorize(晶体管化)对各个行业产生了深远的影响。在电信领域,例如,从真空管到晶体管的转变使得更可靠和高效的通信系统的发展成为可能。这一进展对于互联网和移动通信技术的增长至关重要,这些技术依赖于复杂的晶体管网络才能有效运作。 在计算机领域,电路的transistorization(晶体管化)使微处理器的创建成为可能,而微处理器是现代计算机的“大脑”。这些微处理器由数百万甚至数十亿个晶体管组成,紧密集成在一个微小的芯片中。这种集成水平使得构建强大的计算机成为可能,这些计算机能够以惊人的速度执行复杂的计算。持续的transistorizing(小型化)组件的趋势继续推动人工智能和机器学习的进步,而这些领域对计算能力至关重要。 此外,transistorization(晶体管化)的环境影响也不可忽视。通过创造更小和更节能的设备,我们减少了电子产品的整体能耗。这一转变在世界应对气候变化挑战并寻求可持续解决方案时至关重要。能够transistorize(晶体管化)意味着我们可以在最小化碳足迹的同时生产更有效的技术。 总之,术语transistorize(晶体管化)代表的不仅仅是一个技术过程;它标志着我们在电子和技术整体上接近的范式转变。从消费电子产品的演变到计算和电信的革命,能够transistorize(小型化)在无数方面重塑了我们的生活。展望未来,持续强调transistorization(晶体管化)无疑会导致更多突破性的创新,进一步提升我们的日常体验。
文章标题:transistorize的意思是什么
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