rotating transformer

简明释义

旋转变压器

英英释义

例句

1.During the presentation, the scientist highlighted the advantages of using a rotating transformer 旋转变压器 in electric vehicles.

在演示中，科学家强调了在电动车中使用<旋转变压器>的优点。

2.In robotics, a rotating transformer 旋转变压器 can provide power to moving parts without wires.

在机器人技术中，<旋转变压器>可以为移动部件提供无电缆的电源。

3.The design of the rotating transformer 旋转变压器 allows for efficient energy transfer in rotating machinery.

<旋转变压器>的设计允许在旋转机械中高效能量传输。

4.A rotating transformer 旋转变压器 is essential for maintaining electrical connections in a slip ring system.

<旋转变压器>对于保持滑环系统中的电连接至关重要。

5.The engineer explained how the rotating transformer 旋转变压器 works in a wind turbine.

工程师解释了<旋转变压器>在风力涡轮机中的工作原理。

作文

The concept of a rotating transformer is essential in understanding modern electrical engineering and power distribution systems. A rotating transformer is a type of electrical transformer that converts electrical energy from one voltage level to another while allowing for the rotation of its components. This unique feature makes it particularly useful in applications where relative motion between parts is necessary, such as in electric machines and generators.One of the primary functions of a rotating transformer is to provide electrical isolation between different parts of a system while maintaining the ability to transfer power. This is crucial in many industrial applications where safety and efficiency are paramount. For instance, in wind turbines, the blades rotate continuously, and a rotating transformer can help transfer the generated electricity from the rotating blades to the stationary power grid without any loss of power or risk of electrical shock.The design of a rotating transformer typically involves two main components: the stator and the rotor. The stator is the stationary part that is connected to the power source, while the rotor is attached to the moving part of the machine. The interaction between these two components allows for the conversion of electrical energy into mechanical energy and vice versa. This dual functionality is what makes rotating transformers so versatile and valuable in various applications.Another critical aspect of rotating transformers is their ability to handle high voltages and currents. In many industrial settings, the demand for power can be substantial, and traditional transformers may not be able to cope with the requirements. However, rotating transformers are engineered to manage these high levels of electrical energy efficiently, ensuring that systems operate smoothly without overheating or failing.Moreover, the use of rotating transformers extends beyond just energy generation. They are also found in robotics, where they enable precise control of movements by providing feedback on position and speed. In this context, the rotating transformer acts as a sensor, allowing the robot to understand its location and make adjustments accordingly. This capability enhances the overall performance and accuracy of robotic systems, making them more reliable and efficient.In conclusion, the rotating transformer is a remarkable innovation in the field of electrical engineering. Its ability to transfer power while accommodating rotational motion sets it apart from traditional transformers. As technology continues to advance, the applications of rotating transformers are likely to expand further, contributing to the development of more efficient and powerful energy systems. Understanding the principles behind rotating transformers is crucial for anyone involved in electrical engineering, as it opens up new possibilities for innovation and improvement in various industries.

“旋转变压器”的概念在理解现代电气工程和电力分配系统中至关重要。旋转变压器是一种电气变压器，能够在不同电压水平之间转换电能，同时允许其组件的旋转。这一独特的特点使其在需要部件相对运动的应用中尤为有用，例如在电动机器和发电机中。旋转变压器的主要功能之一是提供系统不同部分之间的电气隔离，同时保持传输电力的能力。这在许多工业应用中至关重要，因为安全性和效率至关重要。例如，在风力涡轮机中，叶片不断旋转，旋转变压器可以帮助将发电的电力从旋转的叶片传输到静止的电网，而不会造成任何电力损失或电击风险。旋转变压器的设计通常涉及两个主要组件：定子和转子。定子是连接到电源的静止部分，而转子则附着在机器的移动部分。这两个组件之间的相互作用使得电能转化为机械能，反之亦然。这种双重功能使得旋转变压器在各种应用中都显得非常灵活和宝贵。旋转变压器的另一个关键方面是其处理高电压和电流的能力。在许多工业环境中，对电力的需求可能很大，传统变压器可能无法满足这些要求。然而，旋转变压器被设计成能够有效管理这些高水平的电能，确保系统平稳运行而不发生过热或故障。此外，旋转变压器的使用不仅限于能源生成。它们还出现在机器人技术中，通过提供位置和速度反馈来实现对运动的精确控制。在这种情况下，旋转变压器充当传感器，使机器人能够了解其位置并进行相应调整。这种能力增强了机器人系统的整体性能和准确性，使其更加可靠和高效。总之，旋转变压器是电气工程领域的一项了不起的创新。它在适应旋转运动的同时传输电力的能力使其与传统变压器截然不同。随着技术的不断进步，旋转变压器的应用可能会进一步扩展，为开发更高效、更强大的能源系统做出贡献。理解旋转变压器背后的原理对于任何参与电气工程的人来说都是至关重要的，因为这为各个行业的创新和改进开辟了新可能。