gas discharge display
简明释义
气体放电显示器
英英释义
例句
1.Engineers are exploring the use of gas discharge displays in automotive dashboards for better visibility.
工程师们正在探索在汽车仪表盘中使用气体放电显示器以提高可见性。
2.In our science museum, you can see a working gas discharge display that demonstrates plasma physics.
在我们的科学博物馆里,你可以看到一个正在工作的气体放电显示器,展示等离子物理学。
3.The new smartphone features a vibrant gas discharge display, which enhances the visual experience significantly.
这款新智能手机配备了生动的气体放电显示器,极大地增强了视觉体验。
4.The retro gaming console uses a gas discharge display to recreate the classic arcade feel.
这款复古游戏机使用气体放电显示器来重现经典街机的感觉。
5.The gas discharge display technology has been around since the 20th century but is still relevant today.
虽然气体放电显示器技术自20世纪以来就存在,但今天仍然具有相关性。
作文
The evolution of display technology has been a fascinating journey, marked by continuous innovation and improvement. One notable advancement in this field is the gas discharge display, which has played a significant role in the development of visual technologies. A gas discharge display (气体放电显示器) operates by using electrical discharges to illuminate gas within a sealed environment, creating images or text through glowing phosphors. This technology was particularly popular before the rise of liquid crystal displays (LCDs) and light-emitting diodes (LEDs). Gas discharge displays can be found in various applications, from early computer monitors to digital clocks. The most common type of gas discharge display is the neon display, which utilizes neon gas to produce bright, colorful visuals. Another variant is the plasma display, which uses a combination of noble gases and phosphors to generate high-quality images. These displays are known for their vibrant colors and the ability to produce deep blacks, making them ideal for television screens and large-format displays.The fundamental principle behind a gas discharge display involves ionizing the gas within the display. When an electric current passes through the gas, it excites the gas molecules, causing them to emit light. This process not only provides a unique visual experience but also allows for energy-efficient operation compared to traditional incandescent lighting. As technology advanced, the efficiency of gas discharge displays improved, leading to longer lifespans and reduced power consumption.Despite their advantages, gas discharge displays also have some drawbacks. One of the primary concerns is their size and weight. Early models were bulky and not suitable for portable devices. Additionally, they tend to consume more power than modern LCD and LED displays, which have become the standard in recent years. Nevertheless, the impact of gas discharge displays on the industry is undeniable, as they paved the way for future innovations in display technology.In conclusion, the gas discharge display (气体放电显示器) represents a significant milestone in the history of visual technology. Its unique operating principles and vibrant display capabilities have influenced the design and functionality of modern screens. While newer technologies like LCD and LED have largely replaced gas discharge displays, their legacy continues to inspire advancements in the field. Understanding the workings and history of gas discharge displays allows us to appreciate the rapid progress made in display technology and its impact on our daily lives.
