在半导体收音机中晶体管代替了真空管。
In semiconductor receivers transistors take the place of vacuum tubes.
即便当库兹韦尔将历史向后延伸至晶体管计算技术还未出现的上世纪初——即使用继电器和真空管的几十年间时,曲线依然表现出令人惊异的稳定性。
The curves held eerily steady, even when Kurzweil extended his backward through the decades of pretransistor computing technologies like relays and vacuum tubes, all the way back to 1900.
起初它被发明出来用于无线电信号的放大,这让你能够用晶体管收音机取代真空管收音机。
It was first developed to amplify radio signals, and you had transistor radios that replaced the vacuum tubes that were being used.
在晶体管发明前,计算机采用真空管作为逻辑原件。
There were computers before the transistor; they used vacuum tubes as logic elements.
当初强韧可靠的晶体管取代了脆弱不稳的真空管,为电子元件带来了飞跃性的进步。
ELECTRONICS made a huge leap forward when the delicate and temperamental vacuum tube was replaced by the robust, reliable transistor.
根据公司的消息,真空管将不会被砷化镓晶体管取代。
According to the company, the large and heavy vacuum tube-based traveling wave tube amplifiers cannot be effectively replaced by GaAs transistors because they a much lower breakdown voltage.
由于尺寸小,重量轻,晶体管优于真空管。
Being small and light makes transistors more advantageous to vacuum tubes.
具有讽刺意味的是,一些困扰真空电子管并导致其接近死亡的问题,现在在晶体管产品中却挥之不去。
Ironically, some of the problems that plagued vacuum tubes and lead to their near-demise now haunt transistorized products.
晶体管比真空管体积小、价格低,而且运行快而发热少。
Transistors are smaller and less expensive than vacuum tubes, and they operate faster and produce less heat.
使用晶体管可做成功能更强、更可靠、更价廉的计算机,它与真空管计算机相比占地面积小,功耗小。
The transistor meant more powerful, more reliable, and less expensive computers that would occupy less space and give off less heat than did vacuum-tube-powered computers.
晶体管在许多用途上已取代了真空管。
Shockley, it displaced the vacuum tube in many applications.
晶体管在许多用途上已取代了真空管。
Shockley, it displaced the vacuum tube in many applications.
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