long-persistence screen
简明释义
长余辉荧光屏
英英释义
例句
1.During the presentation, the long-persistence screen ensured that all visuals remained sharp and clear.
在演示过程中,长持久性屏幕确保所有视觉效果保持清晰和锐利。
2.The long-persistence screen technology is ideal for displaying static images for extended periods without fading.
这种长持久性屏幕技术非常适合长时间显示静态图像而不会褪色。
3.Artists prefer a long-persistence screen for digital painting, as it captures fine details beautifully.
艺术家更喜欢使用长持久性屏幕进行数字绘画,因为它能美丽地捕捉细节。
4.For medical imaging, using a long-persistence screen can enhance the clarity of X-ray images.
在医学成像中,使用长持久性屏幕可以增强X光图像的清晰度。
5.The new gaming monitor features a long-persistence screen, which reduces motion blur during fast-paced action.
这款新游戏显示器具有长持久性屏幕,在快速动作中减少了运动模糊。
作文
In the modern world of technology, the use of screens has become ubiquitous, and among the various types of displays, the long-persistence screen stands out for its unique characteristics. A long-persistence screen is a type of display that retains an image for an extended period after the original signal has been removed. This feature is particularly useful in applications where information needs to be displayed continuously without constant refreshing, such as in certain types of digital signage or specialized scientific instruments.The concept of persistence in screens refers to the duration for which a displayed image remains visible. Traditional screens, like LCDs or LEDs, typically have very short persistence, meaning they require frequent updates to maintain a clear image. In contrast, a long-persistence screen can hold an image for seconds, minutes, or even longer, making it ideal for specific use cases.One of the most notable advantages of a long-persistence screen is its ability to reduce power consumption. Since the image does not need to be refreshed constantly, these screens can operate with lower energy requirements. This aspect is particularly beneficial in settings where power efficiency is crucial, such as remote monitoring systems or portable devices that rely on battery power.Moreover, long-persistence screens are often used in environments where visual clarity is essential. For example, in medical imaging, a long-persistence screen can display critical diagnostic information without flickering or distortion, allowing healthcare professionals to make accurate assessments. Similarly, in educational settings, these screens can facilitate learning by providing stable visuals that enhance comprehension.However, there are challenges associated with long-persistence screens. One significant issue is the potential for image retention or ghosting, where remnants of previously displayed images linger on the screen. This phenomenon can be distracting and may hinder the effectiveness of the display. Manufacturers have been working on improving the technology to mitigate these issues, ensuring that the benefits of long-persistence screens can be realized without compromising the quality of the visual experience.As technology continues to advance, the applications for long-persistence screens are likely to expand. For instance, in the field of augmented reality (AR), these screens could provide an immersive experience by maintaining visual elements in a user's field of view without the need for constant updates. Such innovations could revolutionize how we interact with digital information and enhance our overall experience in various domains.In conclusion, the long-persistence screen represents a fascinating development in display technology, offering unique advantages in terms of energy efficiency and visual stability. While challenges remain, ongoing research and innovation promise to unlock even more potential for this technology. As we continue to explore the possibilities of long-persistence screens, it is clear that they will play a significant role in shaping the future of visual communication and information display.
在现代科技的世界中,屏幕的使用已经变得无处不在,而在各种类型的显示器中,长时间保留屏幕因其独特的特性而脱颖而出。长时间保留屏幕是一种在原始信号被移除后能长时间保留图像的显示器。这一特性在需要持续显示信息而无需不断刷新的应用中尤为有用,例如某些类型的数字标牌或专业科学仪器。屏幕的保留概念指的是显示图像可见的持续时间。传统的屏幕,如LCD或LED,通常具有非常短的保留时间,这意味着它们需要频繁更新以保持清晰的图像。相比之下,长时间保留屏幕可以在几秒、几分钟甚至更长时间内保持图像,非常适合特定的使用案例。长时间保留屏幕的一个显著优点是能够减少电力消耗。由于图像不需要不断刷新,这些屏幕可以以较低的能耗运行。这一点在电源效率至关重要的环境中尤为有益,例如远程监控系统或依赖电池供电的便携设备。此外,长时间保留屏幕通常用于视觉清晰度至关重要的环境。例如,在医学成像中,长时间保留屏幕可以显示关键的诊断信息,而不会出现闪烁或失真,从而使医疗专业人员能够做出准确的评估。同样,在教育环境中,这些屏幕可以通过提供稳定的视觉效果来促进学习,从而增强理解能力。然而,长时间保留屏幕也面临一些挑战。一个重大问题是图像保留或残影的可能性,即之前显示的图像的残余部分仍然停留在屏幕上。这种现象可能会分散注意力,并可能妨碍显示的有效性。制造商一直在努力改善技术,以减轻这些问题,确保能够实现长时间保留屏幕的好处,而不妨碍视觉体验的质量。随着技术的不断进步,长时间保留屏幕的应用可能会进一步扩展。例如,在增强现实(AR)领域,这些屏幕可以通过在用户的视野中保持视觉元素而提供沉浸式体验,而无需不断更新。这类创新可能会彻底改变我们与数字信息的互动方式,并增强我们在各个领域的整体体验。总之,长时间保留屏幕代表了显示技术中的一个迷人发展,提供了在能源效率和视觉稳定性方面的独特优势。虽然仍然存在挑战,但持续的研究和创新承诺将释放这一技术的更多潜力。随着我们继续探索长时间保留屏幕的可能性,显然它们将在塑造视觉传播和信息显示的未来中发挥重要作用。
