low-voltage winding

简明释义

低压绕组

英英释义

例句

1.In this motor, the low-voltage winding 低压绕组 is responsible for generating the initial torque.

在这台电动机中，低压绕组 low-voltage winding负责产生初始扭矩。

2.The technician inspected the transformer and found that the low-voltage winding 低压绕组 was damaged.

技术员检查变压器时发现低压绕组 low-voltage winding受损。

3.During the testing phase, we measured the resistance of the low-voltage winding 低压绕组 to ensure it met specifications.

在测试阶段，我们测量了低压绕组 low-voltage winding的电阻，以确保其符合规格。

4.We need to replace the low-voltage winding 低压绕组 to improve the efficiency of the generator.

我们需要更换低压绕组 low-voltage winding以提高发电机的效率。

5.The low-voltage winding 低压绕组 must be insulated properly to prevent short circuits.

为了防止短路，低压绕组 low-voltage winding必须进行适当绝缘。

作文

In the world of electrical engineering, transformers play a crucial role in the transmission and distribution of electrical energy. One of the key components of a transformer is its windings, which are typically divided into two categories: high-voltage winding and low-voltage winding (低压绕组). Understanding the significance of these windings is essential for anyone involved in the design, operation, or maintenance of electrical systems.The low-voltage winding (低压绕组) is the part of the transformer that operates at a lower voltage level compared to the high-voltage winding. It is usually connected to the load, which could be anything from household appliances to industrial machines. The primary function of the low-voltage winding (低压绕组) is to deliver the transformed voltage to the end user while ensuring safety and efficiency.One of the main advantages of having a low-voltage winding (低压绕组) is that it reduces the risk of electrical shock. Since the voltage is lower, it is safer for direct human interaction. This is particularly important in residential and commercial settings where people frequently come into contact with electrical devices. Additionally, the low-voltage winding (低压绕组) allows for the use of standard electrical equipment, which is often designed to operate at lower voltages.Moreover, the low-voltage winding (低压绕组) also contributes to the overall efficiency of the transformer. By optimizing the design and materials used in the low-voltage winding (低压绕组), engineers can minimize energy losses that occur due to resistance and heat generation. This not only improves the performance of the transformer but also reduces operational costs for businesses and consumers alike.Another important aspect of the low-voltage winding (低压绕组) is its role in voltage regulation. Transformers are designed to maintain a consistent output voltage despite fluctuations in input voltage or load conditions. The low-voltage winding (低压绕组) is instrumental in achieving this stability, ensuring that the electrical devices connected to it receive a steady supply of power.In addition to these technical benefits, understanding the low-voltage winding (低压绕组) also has practical implications. For instance, when troubleshooting electrical issues, knowing how to identify and test the low-voltage winding (低压绕组) can save time and resources. Technicians can quickly assess whether the problem lies within the transformer itself or if it is related to the load or other components in the system.Furthermore, advancements in technology have led to the development of more efficient materials and designs for low-voltage winding (低压绕组). Innovations such as improved insulation techniques and the use of superconducting materials are paving the way for transformers that are lighter, more compact, and even more efficient than their predecessors.In conclusion, the low-voltage winding (低压绕组) is a vital component of transformers that ensures the safe and efficient delivery of electricity to various applications. Its importance cannot be overstated, as it plays a significant role in protecting users, enhancing efficiency, and maintaining voltage stability. As technology continues to evolve, the design and functionality of low-voltage windings (低压绕组) will undoubtedly advance, further improving electrical systems worldwide.

在电气工程的世界中，变压器在电能的传输和分配中发挥着至关重要的作用。变压器的关键组成部分之一是它的绕组，通常分为两类：高压绕组和低压绕组（低压绕组）。理解这些绕组的重要性对于任何参与电气系统设计、操作或维护的人来说都是必不可少的。低压绕组（低压绕组）是变压器的一部分，其工作电压水平低于高压绕组。它通常连接到负载，这可以是从家用电器到工业机械的任何设备。低压绕组（低压绕组）的主要功能是向最终用户提供变换后的电压，同时确保安全和效率。拥有低压绕组（低压绕组）的主要优点之一是降低了电击的风险。由于电压较低，因此与人直接接触时更安全。这在住宅和商业环境中特别重要，因为人们经常与电气设备接触。此外，低压绕组（低压绕组）允许使用标准电气设备，通常设计为在较低电压下运行。此外，低压绕组（低压绕组）还提高了变压器的整体效率。通过优化低压绕组（低压绕组）的设计和所用材料，工程师可以最小化由于电阻和热量生成而造成的能源损失。这不仅改善了变压器的性能，还减少了企业和消费者的运营成本。低压绕组（低压绕组）的另一个重要方面是它在电压调节中的作用。变压器旨在保持一致的输出电压，尽管输入电压或负载条件波动。低压绕组（低压绕组）在实现这种稳定性方面至关重要，确保连接到其上的电气设备获得稳定的电源供应。除了这些技术好处，了解低压绕组（低压绕组）还有实际意义。例如，在排除电气故障时，知道如何识别和测试低压绕组（低压绕组）可以节省时间和资源。技术人员可以快速评估问题是出在变压器本身，还是与负载或系统中的其他组件有关。此外，技术的进步导致了更高效的材料和设计的发展，适用于低压绕组（低压绕组）。例如，改进的绝缘技术和超导材料的使用正在为变压器铺平道路，使其比前辈更轻、更紧凑且更高效。总之，低压绕组（低压绕组）是变压器的重要组成部分，确保安全高效地将电力输送到各种应用中。它的重要性不容低估，因为它在保护用户、提高效率和维持电压稳定性方面发挥着重要作用。随着技术的不断发展，低压绕组（低压绕组）的设计和功能无疑会进一步提升，进一步改善全球的电气系统。