boosted voltage

简明释义

辅助电压升高电压

英英释义

例句

1.The electric vehicle uses a boosted voltage 提升电压 system to enhance its battery performance.

电动车使用boosted voltage 提升电压系统来增强其电池性能。

2.The audio amplifier requires a boosted voltage 提升电压 to drive high-performance speakers effectively.

音频放大器需要boosted voltage 提升电压以有效驱动高性能扬声器。

3.In solar power systems, an inverter converts the DC output into a boosted voltage 提升电压 AC supply.

在太阳能发电系统中，逆变器将直流输出转换为boosted voltage 提升电压的交流电源。

4.A boosted voltage 提升电压 regulator ensures that the output remains stable despite variations in input.

一个boosted voltage 提升电压调节器确保输出在输入变化时保持稳定。

5.The transformer increased the input voltage to a boosted voltage 提升电压 suitable for transmission over long distances.

变压器将输入电压提高到适合远距离传输的boosted voltage 提升电压。

作文

In today's world, electricity plays a crucial role in our daily lives. From powering our homes to enabling the latest technological advancements, understanding the principles of electricity is essential. One term that often comes up in discussions about electrical systems is boosted voltage, which refers to an increase in voltage levels within an electrical circuit. This concept is vital for various applications, including transmission of power over long distances and enhancing the efficiency of electronic devices.To comprehend what boosted voltage means, we must first understand voltage itself. Voltage, measured in volts, is the electrical potential difference between two points in a circuit. It is this difference that drives electric current through conductors. However, when the distance increases, such as in power lines that transport electricity across vast regions, voltage can drop due to resistance in the wires. This is where boosted voltage becomes significant.Boosting voltage is typically achieved using devices known as transformers. These machines can step up (increase) or step down (decrease) voltage levels depending on the needs of the electrical system. For instance, when electricity is generated at power plants, it is often at a relatively low voltage. To transmit this electricity efficiently over long distances, the voltage must be increased. This process is accomplished using a step-up transformer, which raises the voltage to a much higher level, thus minimizing energy loss during transmission.Once the electricity reaches its destination, it often needs to be converted back to a lower voltage suitable for use in homes and businesses. This is done using step-down transformers, which lower the voltage to safe levels for consumption. The ability to manipulate boosted voltage in this manner is essential for ensuring that electrical systems operate efficiently and safely.Moreover, boosted voltage is not only relevant in high-voltage power transmission but also plays a critical role in the functioning of various electronic devices. Many modern gadgets, such as smartphones and laptops, require specific voltage levels to operate effectively. In these cases, voltage boosters are used to enhance the voltage supplied to the device, ensuring optimal performance. Without this capability, many electronic devices would fail to function correctly or would have significantly reduced lifespans.Additionally, the significance of boosted voltage extends to renewable energy sources. For example, solar panels generate electricity at lower voltages, which may not be sufficient for direct use in households. By employing voltage-boosting technologies, the electricity generated can be elevated to usable levels, making renewable energy more accessible and efficient.In conclusion, the concept of boosted voltage is fundamental in both electrical engineering and everyday applications. It facilitates the efficient transmission of power over long distances, enhances the functionality of electronic devices, and supports the integration of renewable energy into our electrical grid. As technology continues to evolve, the importance of understanding and utilizing boosted voltage will only grow, making it a critical area of study for future engineers and technicians. Understanding this concept not only helps us appreciate the complexities of our electrical systems but also empowers us to make informed decisions about energy use and sustainability in our lives.

在当今世界，电力在我们的日常生活中发挥着至关重要的作用。从为我们的家庭供电到推动最新的技术进步，理解电力的原理至关重要。在讨论电气系统时，一个常常出现的术语是提升电压，它指的是电路中电压水平的增加。这个概念对于各种应用至关重要，包括长距离电力传输和提高电子设备的效率。要理解提升电压的含义，我们首先必须了解电压本身。电压以伏特为单位测量，是电路中两个点之间的电位差。正是这种差异驱动电流通过导体。然而，当距离增加时，例如在跨越广阔区域的电力线中，由于导线中的电阻，电压可能会下降。这就是提升电压变得重要的地方。提升电压通常是通过称为变压器的设备来实现的。这些机器可以根据电气系统的需要提高（增加）或降低（减少）电压水平。例如，当电力在发电厂生成时，通常是在相对较低的电压下。为了有效地在长距离上传输这些电力，必须提高电压。这个过程是通过升压变压器完成的，它将电压提高到更高的水平，从而最小化传输过程中的能量损失。一旦电力到达目的地，通常需要将其转换回适合家庭和企业使用的较低电压。这是通过降压变压器完成的，它将电压降低到安全的消费水平。以这种方式操控提升电压的能力对于确保电气系统高效和安全运行至关重要。此外，提升电压不仅与高电压电力传输相关，还在各种电子设备的功能中发挥着关键作用。许多现代小工具，如智能手机和笔记本电脑，需要特定的电压水平才能有效工作。在这些情况下，电压增强器用于提高供给设备的电压，以确保最佳性能。如果没有这种能力，许多电子设备将无法正常工作，或者其使用寿命将大大缩短。此外，提升电压的重要性还扩展到可再生能源来源。例如，太阳能电池板以较低的电压生成电力，这可能不足以直接在家庭中使用。通过采用电压提升技术，所产生的电力可以提高到可用水平，使可再生能源更加可及和高效。总之，提升电压的概念在电气工程和日常应用中都是基础。它促进了长距离电力的高效传输，提高了电子设备的功能，并支持可再生能源在我们电网中的整合。随着技术的不断发展，理解和利用提升电压的重要性只会增加，使其成为未来工程师和技术人员研究的关键领域。理解这一概念不仅帮助我们欣赏电气系统的复杂性，也使我们能够对生活中的能源使用和可持续性做出明智的决策。