boosted voltage

简明释义

辅助电压;升高电压

英英释义

例句

1.High-frequency applications often require a boosted voltage 提升电压 to ensure signal integrity.

高频应用通常需要提升电压以确保信号完整性。

2.In electric vehicles, the battery management system regulates the boosted voltage 提升电压 to optimize performance.

在电动车中，电池管理系统调节提升电压以优化性能。

3.The power supply circuit was designed to provide a stable boosted voltage 提升电压 for the microcontroller.

电源电路设计为为微控制器提供稳定的提升电压。

4.The solar panel system utilizes a transformer to increase the boosted voltage 提升电压 for efficient energy distribution.

这个太阳能电池板系统使用变压器来提高提升电压以实现高效的能源分配。

5.To drive the LED lights efficiently, we need to apply a boosted voltage 提升电压 from the power source.

为了高效驱动LED灯，我们需要从电源施加提升电压。

作文

In today's rapidly advancing technological landscape, the demand for efficient energy transmission and distribution has never been higher. One of the key concepts that has emerged in this field is the idea of boosted voltage, which refers to the increase in electrical voltage to enhance the efficiency of power delivery. Understanding how boosted voltage works is crucial for both engineers and consumers who rely on electricity for their daily needs.At its core, boosted voltage is a method used to improve the transmission of electrical power over long distances. When electricity travels through power lines, it faces resistance, which can cause energy loss in the form of heat. By increasing the voltage, utilities can reduce the current flowing through the wires, thereby minimizing energy loss. This concept is particularly important in high-voltage transmission lines, where maintaining efficiency is essential for delivering power from remote generation sites to urban centers.The process of achieving boosted voltage typically involves the use of transformers. These devices are designed to convert low voltage electricity into high voltage electricity. For example, when electricity is generated at a power plant, it is usually at a lower voltage suitable for local distribution. However, before it is transmitted over long distances, it must be stepped up to a higher voltage using a transformer. This transformation allows the electricity to travel efficiently without significant losses.Once the electricity reaches its destination, another transformer is employed to step down the boosted voltage back to a level that is safe and usable for consumers. This two-step process ensures that the energy is transmitted effectively while maintaining safety standards for residential and commercial use.The implications of boosted voltage extend beyond just energy efficiency; they also have environmental benefits. By reducing energy losses during transmission, less fuel is required to generate the same amount of electricity. This means lower greenhouse gas emissions and a smaller carbon footprint for power generation. As society becomes increasingly aware of the need for sustainable practices, the role of boosted voltage in promoting cleaner energy solutions cannot be overstated.In addition to traditional power systems, boosted voltage is also relevant in renewable energy applications. Wind turbines and solar panels often generate electricity at lower voltages, which may not be suitable for direct transmission. By utilizing boosted voltage techniques, these renewable sources can be integrated into the existing grid more effectively, facilitating the transition to a more sustainable energy future.As we look toward the future, the importance of boosted voltage will only continue to grow. With the rise of electric vehicles and smart grids, the demand for efficient power transmission will be paramount. Innovations in technology will likely lead to even more advanced methods of boosting voltage, ensuring that our energy systems remain robust and capable of meeting the needs of a modern society.In conclusion, boosted voltage plays a vital role in the efficient transmission of electricity across vast distances. It enables utilities to minimize energy loss, supports environmental sustainability, and facilitates the integration of renewable energy sources. As we advance towards a greener future, understanding and harnessing the power of boosted voltage will be essential for both energy providers and consumers alike.

在当今快速发展的技术环境中，对高效能源传输和分配的需求从未如此之高。这个领域出现的一个关键概念是“boosted voltage”的理念，指的是电压的提升，以增强电力传输的效率。理解boosted voltage如何运作对依赖电力满足日常需求的工程师和消费者来说至关重要。从本质上讲，boosted voltage是一种用于改善电力在长距离上传输的方法。当电力通过电线传输时，它会面临阻力，这可能导致以热量形式损失能量。通过提高电压，公用事业公司可以减少流经电线的电流，从而最小化能量损失。这个概念在高压传输线路中尤为重要，在这些情况下，保持效率对于将电力从偏远发电地点传送到城市中心至关重要。实现boosted voltage的过程通常涉及使用变压器。这些设备旨在将低电压电力转换为高电压电力。例如，当电力在发电厂生成时，通常处于适合地方分配的较低电压。然而，在其被长距离传输之前，必须使用变压器将其升高到更高的电压。这种转变使得电力能够有效地传输，而不会造成显著的损失。一旦电力到达目的地，另一个变压器被用来将boosted voltage降低到对消费者安全和可用的水平。这一两步过程确保了能源被有效传输，同时维持了住宅和商业使用的安全标准。boosted voltage的影响不仅限于能源效率；它们还有环境益处。通过减少传输过程中的能量损失，发电所需的燃料减少。这意味着发电过程中温室气体排放更低，碳足迹更小。随着社会越来越意识到可持续实践的必要性，boosted voltage在推动清洁能源解决方案中的作用不容小觑。除了传统电力系统，boosted voltage在可再生能源应用中也相关。风力涡轮机和太阳能电池板通常以较低电压生成电力，这可能不适合直接传输。通过利用boosted voltage技术，这些可再生能源可以更有效地整合到现有电网中，促进向更可持续能源未来的过渡。展望未来，boosted voltage的重要性只会继续增长。随着电动汽车和智能电网的兴起，对高效电力传输的需求将是至关重要的。技术创新可能会导致更先进的电压提升方法，确保我们的能源系统保持强大，能够满足现代社会的需求。总之，boosted voltage在电力跨越广阔距离的高效传输中发挥着至关重要的角色。它使公用事业能够最小化能量损失，支持环境可持续性，并促进可再生能源的整合。随着我们迈向更环保的未来，理解和利用boosted voltage的力量将对能源供应商和消费者同样至关重要。