synchros

简明释义

英[ˈsɪŋkrəʊz]美[ˈsɪŋkroʊz]

n. 同步器（synchro 的复数形式）

英英释义

单词用法

同义词

反义词

例句

1.Instruments requiring the testing of Resolvers, Synchros, Galvanometric Movements and Lighting Circuits can be fully tested for operational performance in the Airborne Electrical Environment.

它对于需要做旋变，自整角，检流计的运动和照明电路测试的仪器，能够在航空电力环境里进行全面的使用特性测试。

2.Instruments requiring the testing of Resolvers, Synchros, Galvanometric Movements and Lighting Circuits can be fully tested for operational performance in the Airborne Electrical Environment.

它对于需要做旋变，自整角，检流计的运动和照明电路测试的仪器，能够在航空电力环境里进行全面的使用特性测试。

3.In this paper, the authors introduce their design and manufacture of synchros which are used for medical X-ray high definition TV facilities.

本文介绍了作者研制的用于医用X光高清晰度电视设备的同步机。

4.The synchronous signals produced by CPU have brought fundamental changes into the designing of synchros.

用CPU产生同步信号在本质上改变了同步机的设计方法。

5.Compass card is individually driven by a transistorized servo system and Pointers driven by synchros.

罗盘刻度盘单独由装有晶体管的伺服系统驱动，指针由自整角机驱动。

6.The aircraft's navigation system uses synchros to ensure accurate positioning.

飞机的导航系统使用同步器以确保准确定位。

7.In robotics, synchros help to synchronize movements between different parts.

在机器人技术中，同步器帮助不同部件之间的运动同步。

8.The control panel displays the status of all synchros in real-time.

控制面板实时显示所有同步器的状态。

9.Engineers often rely on synchros for precise feedback in their systems.

工程师们常常依赖同步器来获得系统中的精确反馈。

10.The synchros in this device allow for smooth operation and control.

该设备中的同步器允许平稳操作和控制。

作文

In the world of technology and engineering, the term synchros (同步器) holds significant importance. These devices are used to transmit angular information between different components in a system. The principle behind synchros is quite fascinating; they operate based on the concept of electromagnetic induction. When one part of the system rotates, it induces a voltage in another part, allowing for precise measurements and control of angular positions. This technology is crucial in various applications, including aviation, robotics, and even in some consumer electronics. For instance, in aircraft, synchros are used to ensure that the instruments accurately reflect the position of the aircraft's control surfaces. Without this technology, pilots would struggle to maintain control and navigate effectively. Similarly, in robotics, synchros provide feedback on the position of robotic arms, enabling them to perform tasks with high precision. This capability is essential in manufacturing processes where accuracy is paramount. Moreover, the use of synchros extends beyond industrial applications. In the field of motion picture and television production, these devices help synchronize cameras and other equipment, ensuring that everything works in harmony. This synchronization is vital for achieving smooth transitions and maintaining continuity in visual storytelling. The evolution of synchros has led to the development of digital counterparts, which offer even greater accuracy and reliability. Digital synchros utilize advanced algorithms to process signals more efficiently, making them suitable for modern applications that require rapid data processing and real-time feedback. As technology continues to advance, the role of synchros will likely expand, paving the way for innovations in various fields. In conclusion, understanding synchros (同步器) is essential for anyone interested in technology and engineering. Their ability to transmit angular information accurately makes them indispensable in many industries. As we move towards a more automated and technologically advanced future, the significance of synchros will only increase, highlighting the need for continued research and development in this area. Whether in aviation, robotics, or entertainment, synchros play a critical role in ensuring that systems operate smoothly and efficiently.

在科技和工程的世界中，术语synchros（同步器）具有重要意义。这些设备用于在系统中的不同组件之间传递角度信息。synchros背后的原理非常迷人；它们基于电磁感应的概念工作。当系统的一部分旋转时，它会在另一部分中感应出电压，从而实现角度位置的精确测量和控制。这项技术在航空、机器人以及一些消费电子产品等各种应用中至关重要。 例如，在飞机中，synchros用于确保仪器准确反映飞机控制面的位置。如果没有这项技术，飞行员将难以有效地保持控制和导航。同样，在机器人技术中，synchros提供关于机器人手臂位置的反馈，使其能够高精度地执行任务。这种能力在制造过程中至关重要，因为准确性是首要考虑因素。 此外，synchros的使用超越了工业应用。在电影和电视制作领域，这些设备帮助同步摄像机和其他设备，确保一切协调工作。这种同步对于实现平滑过渡和保持视觉叙事的连续性至关重要。 synchros的演变导致了数字对应物的发展，后者提供了更高的准确性和可靠性。数字synchros利用先进的算法更高效地处理信号，使其适合现代应用，这些应用需要快速的数据处理和实时反馈。随着技术的不断进步，synchros的角色可能会扩大，为各个领域的创新铺平道路。 总之，理解synchros（同步器）对于任何对科技和工程感兴趣的人来说都是至关重要的。它们准确传递角度信息的能力使它们在许多行业中不可或缺。随着我们迈向更自动化和技术先进的未来，synchros的重要性只会增加，这突显了在这一领域持续研究和发展的必要性。无论是在航空、机器人还是娱乐领域，synchros在确保系统平稳高效运行方面发挥着关键作用。