silicon vidicon
简明释义
硅光导摄象管
英英释义
例句
1.The new camera model features a high-resolution silicon vidicon 硅视频管 that enhances image clarity.
新相机型号配备了高分辨率的silicon vidicon 硅视频管,提升了图像清晰度。
2.The silicon vidicon 硅视频管 has largely been replaced by CCD technology in modern cameras.
silicon vidicon 硅视频管在现代相机中已基本被CCD技术取代。
3.Engineers are researching how to improve the sensitivity of the silicon vidicon 硅视频管 sensors.
工程师们正在研究如何提高silicon vidicon 硅视频管传感器的灵敏度。
4.In the 1970s, many television studios switched to silicon vidicon 硅视频管 technology for better color reproduction.
在1970年代,许多电视台转向使用silicon vidicon 硅视频管技术,以获得更好的色彩再现。
5.The silicon vidicon 硅视频管 was essential in early video surveillance systems.
在早期的视频监控系统中,silicon vidicon 硅视频管是必不可少的。
作文
The evolution of television technology has been remarkable, particularly with the introduction of various imaging devices. One such device that played a significant role in the early days of television is the silicon vidicon. The silicon vidicon is a type of video camera tube that was widely used in the 1970s and 1980s. It utilizes silicon as the primary material for its photosensitive surface, which allows for improved image quality compared to its predecessors. This innovation marked a significant advancement in the field of television broadcasting, paving the way for clearer and more vibrant images on screen.The silicon vidicon works by converting light into electrical signals. When light hits the silicon surface, it generates an electric charge proportional to the intensity of the light. These charges are then read out sequentially to create an electronic representation of the image. This process is crucial for capturing moving images and transmitting them in real-time. The development of the silicon vidicon allowed for a more efficient and effective means of capturing video, leading to advancements in both television production and broadcasting.Before the advent of the silicon vidicon, earlier technologies like the image orthicon were commonly used. While these earlier systems had their merits, they often struggled with issues such as image distortion and limited sensitivity to light. The introduction of the silicon vidicon addressed many of these challenges, offering improved performance and reliability. As a result, it became a staple in television studios and was instrumental in the production of numerous television programs and broadcasts.Despite its significance in the history of television technology, the silicon vidicon eventually faced competition from newer imaging technologies, such as charge-coupled devices (CCDs). These newer technologies offered even greater improvements in image quality and sensitivity. However, the contributions of the silicon vidicon cannot be overlooked; it laid the groundwork for the high-definition and digital imaging systems we use today.In conclusion, the silicon vidicon represents a pivotal moment in the advancement of television technology. Its ability to capture and transmit images effectively changed the landscape of broadcasting and paved the way for future innovations. As we look back at the history of television, it is essential to recognize the impact of the silicon vidicon and appreciate how far we have come since its inception. The legacy of this technology continues to influence modern imaging systems, reminding us of the importance of innovation in our ever-evolving media landscape.
电视技术的发展是显著的,特别是在各种成像设备的引入方面。一个在电视早期阶段发挥重要作用的设备就是硅视频管。硅视频管是一种视频摄像管,在20世纪70年代和80年代广泛使用。它以硅作为其光敏表面的主要材料,相较于其前身,能够提供更好的图像质量。这一创新标志着电视广播领域的重要进步,为屏幕上更清晰、更生动的图像铺平了道路。硅视频管通过将光转换为电信号来工作。当光线照射到硅表面时,它会产生与光强成正比的电荷。这些电荷随后被顺序读取,以创建图像的电子表示。这个过程对于捕捉动态图像并实时传输至关重要。硅视频管的发展使得捕捉视频的方式更加高效有效,推动了电视制作和广播的进步。在硅视频管问世之前,更早的技术如图像正交管曾被广泛使用。虽然这些早期系统有其优点,但它们常常面临图像失真和对光线敏感性有限等问题。硅视频管的引入解决了许多这些挑战,提供了更好的性能和可靠性。因此,它成为电视工作室的主流,并在众多电视节目和广播的制作中发挥了重要作用。尽管在电视技术史上具有重要意义,硅视频管最终还是面临来自新型成像技术(如电荷耦合器件(CCD))的竞争。这些新技术在图像质量和灵敏度方面提供了更大的改善。然而,硅视频管的贡献不可忽视;它为我们今天使用的高清晰度和数字成像系统奠定了基础。总之,硅视频管代表了电视技术进步的关键时刻。它有效捕捉和传输图像的能力改变了广播的格局,并为未来的创新铺平了道路。当我们回顾电视的历史时,必须认识到硅视频管的影响,并欣赏自其诞生以来我们走过的漫长道路。这项技术的遗产继续影响现代成像系统,提醒我们在不断发展的媒体环境中创新的重要性。
相关单词
