编者的话:固态应用时代到来了

IF 0.9 4区 工程技术 Q4 ENGINEERING, CHEMICAL
Juan Antonio Aguilar Garib
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引用次数: 0

摘要

“固态”这个词曾一度将旧技术抛在脑后,引入电子领域的新技术,它被广泛用于推广使用这种技术的设备,然后在一段时间内变得很普通,因为它几乎存在于每台设备中,这里它被刷新为一个特征,再次显示出新颖性。新技术本身并不是更好,正如我们可以注意到的那样,如果我们不把旧的和新的分开,而是把众所周知的和持久的和在它出现后不久就被取代的分开,尽管有广告和促销。“固态”是其中之一,无论推广与否,它都已经存在了很长时间。固态物理学是一门解释和支持半导体电子器件技术的科学。自1954年第一台基于晶体管的计算机问世以来,这是革命性的,随后出现了数千种电子产品。大约60年前,“固态”不仅仅是印在电视机和收音机等产品上的几个词,而是用来说明它们的运营结构。这种描述有时会被公众误解,他们把它与设备的抗冲击和震动联系起来,而不是它们的操作原理。新产品可以以不同的方式完成已知功能,也可以执行新功能,开发技术和应用,就像游戏机的情况一样。第一个固态器件被认为具有与真空管相同的功能,但能量更少,因为半导体不需要加热,因为它们不使用热离子发射原理。然后它们可以由电池驱动,同时它们更小更轻,这样这些设备就更容易携带。固态技术的许多其他应用都变成了“全晶体管”,即使是电视机,尽管它们有CRT屏幕,尽管一开始有些犹豫,因为缺乏可维修的部件,当需要维修时,这应该是一个问题。我花了一些时间才意识到这些产品有多可靠。即使在两种器件共同占有市场的情况下,固态器件显然是一种先进的技术,其产品在与真空管相同的功能上表现得更好,而且是新的技术。然而,也有一种混合固体电子管装置,它假装综合了这两种技术的优点,用于控制的电子和用于电视中crt功能的真空管,已停止但仍然存在,以及磁控管。固态技术通常不会被提及,因为它发生在汽车行业的“燃油喷射”或“电子点火”或“计算机控制”等其他发展中,因为任何汽车都有它们。半导体产业的重要性也从持续了2年左右、预计还将持续1年的半导体生产结构调整导致的芯片短缺中得到了体现。这种短缺正在影响汽车工业、计算机卡和游戏机。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Editor’s message: the solid-state applications era
A term that once left old technology behind to introduce a new one in electronics is ‘solid-state’, which was used intensively to promote the equipment using this technology, then became kind of ordinary for a while because it is in almost every aparatus, and here it is, refreshed as a characteristic that again shows novelty. New technology is not by itself better as can be noticed if instead of separating old from the new one, we separate well known and lasting from replaced shortly after its presentation despite advertisements and promotion. ‘Solid-state’ is one of those that, promoted or not, has been relevant for a long time. Physics of the solid-state is the science that explains and supports the technology of semiconductor-based electronic devices. It was revolutionary since the first calculating machine based on transistors was built in 1954 followed by thousands of electronic products. ‘Solid-state’ was more than a couple of words stamped on TV sets and radios, among others, about 60 years ago for marketing, rather it was stating their operation structure. This description was sometimes misunderstood by the public who related it to resistance to shock and shaking of the devices instead of their operation principles. New products can either fulfill known functions differently or perform new ones, developing both the technology and application as in the case of game consoles. The first solid-state devices were supposed to perform the same functions as those with vacuum tubes, but with less energy since semiconductors do not need to be warmed up because they do not use the principle of thermionic emission. Then they could be battery-operated, while they were smaller and lighter so that such devices became easily portable. Many other applications of solid-state became ‘full transistorized’, even the TV sets despite they had CRT screens, although there was some hesitation at first due to the lack of serviceable parts that were supposed to be a problem when repairment was necessary. It took some time to realize how reliable these items are. Even when the market was shared by the two kinds of devices, it is evident that solidstate is an advanced kind of technology whose products perform better the same functions as the vacuum tubes as well as new ones. However, there are hybrid solid statevacuum tube devices that pretend to take the best of both technologies, electronic for controlling and a vacuum tube for the function as CRTs in TVs, discontinued but still exist, and magnetrons. Often solid-state technology is not mentioned as it happens with other developments such as ‘fuel injection’ or ‘electronic ignition’ or ‘with computer controls’ in the automotive industry because any car has them. The importance of this industry has been also evidenced by a chips shortage, due to the restructuring of semiconductors production that has lasted about two years and is supposed to last one more. This shortage is affecting the automotive industry, computer cards, and gaming consoles.
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来源期刊
Journal of Microwave Power and Electromagnetic Energy
Journal of Microwave Power and Electromagnetic Energy ENGINEERING, CHEMICAL-ENGINEERING, ELECTRICAL & ELECTRONIC
CiteScore
2.50
自引率
6.70%
发文量
21
期刊介绍: The Journal of the Microwave Power Energy (JMPEE) is a quarterly publication of the International Microwave Power Institute (IMPI), aimed to be one of the primary sources of the most reliable information in the arts and sciences of microwave and RF technology. JMPEE provides space to engineers and researchers for presenting papers about non-communication applications of microwave and RF, mostly industrial, scientific, medical and instrumentation. Topics include, but are not limited to: applications in materials science and nanotechnology, characterization of biological tissues, food industry applications, green chemistry, health and therapeutic applications, microwave chemistry, microwave processing of materials, soil remediation, and waste processing.
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