control of horizontal synchronization

简明释义

行同步控制

英英释义

例句

1.Without proper control of horizontal synchronization, the display may show distorted images.

如果没有适当的水平同步控制，显示器可能会出现失真的图像。

2.In digital signal processing, the control of horizontal synchronization is crucial for accurate timing.

在数字信号处理过程中，水平同步控制对准确计时至关重要。

3.A malfunction in the control of horizontal synchronization can lead to screen tearing during gameplay.

在游戏过程中，水平同步控制的故障会导致画面撕裂。

4.The engineer adjusted the control of horizontal synchronization to eliminate flickering on the monitor.

工程师调整了水平同步控制以消除显示器上的闪烁。

5.The technician explained the importance of control of horizontal synchronization in maintaining video quality.

技术人员解释了水平同步控制在保持视频质量中的重要性。

作文

In the realm of electronics and telecommunications, the term control of horizontal synchronization plays a crucial role in ensuring the proper functioning of display devices. Horizontal synchronization refers to the process that aligns the scanning of images across the screen from left to right. This synchronization is essential for maintaining the integrity of the visual output, particularly in devices like televisions and computer monitors. Without proper control of horizontal synchronization, images may appear distorted or flickering, leading to a poor viewing experience.The control of horizontal synchronization involves the generation of timing signals that dictate when the electron beam in a cathode-ray tube (CRT) or the pixel rendering in a flat-screen display should start a new line. This control mechanism ensures that each line of pixels is displayed in the correct sequence, allowing for a coherent and stable image on the screen.Historically, the development of television technology highlighted the importance of control of horizontal synchronization. Early television systems utilized analog signals that required precise timing to synchronize the transmission and reception of images. As technology evolved, digital systems emerged, yet the fundamental principles of synchronization remained critical. Modern displays, such as liquid crystal displays (LCDs) and light-emitting diode (LED) screens, still rely on sophisticated methods to manage horizontal synchronization effectively.One of the key challenges in the control of horizontal synchronization is dealing with variations in signal quality. Factors such as interference from other electronic devices, variations in signal strength, and even the physical distance between the source and the display can affect synchronization. Engineers have developed various techniques to mitigate these issues, including the use of error correction codes and adaptive synchronization algorithms. These innovations ensure that the display receives the correct timing signals, thus preserving the quality of the visual output.Moreover, the advent of high-definition and ultra-high-definition displays has further increased the demand for precise control of horizontal synchronization. With higher resolutions, more data needs to be transmitted and processed within shorter time frames. This requires advanced synchronization techniques to handle the increased bandwidth and maintain smooth playback of video content. Technologies such as HDMI (High-Definition Multimedia Interface) and DisplayPort have been developed to support these requirements, incorporating robust synchronization features to enhance user experience.In conclusion, the control of horizontal synchronization is an integral aspect of modern display technology, impacting everything from traditional television sets to cutting-edge computer monitors. As we continue to advance in the field of electronics, understanding and improving this synchronization will remain vital for delivering high-quality visual experiences. Whether it's for gaming, watching movies, or professional applications, the effectiveness of horizontal synchronization directly influences how we perceive and interact with visual media. Thus, continued research and innovation in this area are essential for the evolution of display technologies in the future.

在电子和通信领域，术语控制水平同步在确保显示设备正常工作方面起着至关重要的作用。水平同步是指将图像从左到右扫描对齐的过程。这种同步对于保持视觉输出的完整性至关重要，尤其是在电视和计算机显示器等设备中。如果没有适当的控制水平同步，图像可能会出现失真或闪烁，从而导致不良的观看体验。控制水平同步涉及生成时序信号，这些信号指示阴极射线管（CRT）中的电子束或平面显示器中的像素渲染何时开始新的一行。这种控制机制确保每一行像素按正确的顺序显示，从而在屏幕上实现连贯和稳定的图像。历史上，电视技术的发展突显了控制水平同步的重要性。早期电视系统利用模拟信号，需要精确的时序来同步图像的传输和接收。随着技术的发展，数字系统应运而生，但同步的基本原理仍然至关重要。现代显示器，如液晶显示器（LCD）和发光二极管（LED）屏幕，仍然依赖复杂的方法有效管理水平同步。在控制水平同步中，一个主要挑战是处理信号质量的变化。其他电子设备的干扰、信号强度的变化，甚至源与显示器之间的物理距离都可能影响同步。工程师们开发了各种技术来减轻这些问题，包括使用错误纠正代码和自适应同步算法。这些创新确保显示器接收到正确的时序信号，从而保持视觉输出的质量。此外，高清和超高清显示器的出现进一步增加了对精确控制水平同步的需求。随着分辨率的提高，需要在更短的时间内传输和处理更多数据。这需要先进的同步技术来处理增加的带宽，并保持视频内容的流畅播放。HDMI（高清多媒体接口）和DisplayPort等技术已被开发以支持这些要求，结合强大的同步功能以增强用户体验。总之，控制水平同步是现代显示技术的一个重要方面，影响着从传统电视机到尖端计算机显示器的一切。随着我们在电子领域的不断进步，理解和改善这种同步将继续对提供高质量的视觉体验至关重要。无论是游戏、观看电影还是专业应用，水平同步的有效性直接影响着我们如何感知和与视觉媒体互动。因此，在这一领域的持续研究和创新对于未来显示技术的发展至关重要。