parallel connection

简明释义

并联

英英释义

例句

1.The lights in the room are wired in a parallel connection 并联连接, so if one bulb burns out, the others remain lit.

房间里的灯是通过 parallel connection 并联连接 接线的，因此如果一个灯泡烧坏，其他灯仍然亮着。

2.In a circuit, a parallel connection 并联连接 allows multiple components to operate independently.

在电路中，parallel connection 并联连接 允许多个组件独立运行。

3.In data networks, devices often use a parallel connection 并联连接 to ensure redundancy and reliability.

在数据网络中，设备通常使用 parallel connection 并联连接 来确保冗余和可靠性。

4.A parallel connection 并联连接 of batteries can increase the total current output without changing the voltage.

电池的 parallel connection 并联连接 可以在不改变电压的情况下增加总电流输出。

5.Using a parallel connection 并联连接 can improve the overall efficiency of the electrical system.

使用 parallel connection 并联连接 可以提高电气系统的整体效率。

作文

In the world of electronics and electrical engineering, understanding various configurations of circuits is crucial. One such configuration that plays a significant role in both practical applications and theoretical concepts is the parallel connection. A parallel connection refers to a circuit arrangement where multiple components are connected across the same voltage source. This means that each component has its own direct path to the power supply, allowing them to operate independently of one another. This setup contrasts with a series connection, where components are arranged sequentially, and the current flows through each component in turn.The advantages of using a parallel connection are numerous. For one, if one component fails in a parallel connection, it does not affect the operation of the other components. This is particularly important in critical systems where reliability is paramount. For instance, in a household lighting system, if one bulb burns out, the others remain lit because they are connected in parallel connection. This characteristic enhances the overall reliability of the system.Moreover, a parallel connection allows for more flexibility in design. Engineers can add or remove components without disrupting the entire circuit. This feature is especially beneficial in complex systems, such as computer networks, where multiple devices need to communicate simultaneously. In such cases, each device can be connected in a parallel connection, ensuring that the failure of one device does not hinder the functionality of the others.Another significant aspect of parallel connection is its impact on voltage and current distribution. In a parallel connection, the voltage across each component remains the same, which is equal to the voltage of the power supply. However, the total current flowing from the source is the sum of the currents flowing through each component. This property allows engineers to calculate the required specifications for each component based on its individual current rating, making it easier to design circuits that meet specific needs.However, while parallel connections offer many benefits, they also come with their own set of challenges. For example, if too many components are added to a parallel connection, it can lead to excessive current draw from the power source, potentially causing overheating or failure of the power supply. Therefore, it is essential to carefully consider the number of components and their individual ratings when designing a circuit with a parallel connection.In conclusion, the concept of parallel connection is fundamental in the field of electronics and electrical engineering. Its ability to enhance reliability, provide design flexibility, and maintain consistent voltage levels makes it a preferred choice in many applications. Whether in simple household wiring or complex electronic systems, understanding how to effectively implement a parallel connection is vital for engineers and technicians alike. As technology continues to advance, the principles behind parallel connections will remain relevant, highlighting the importance of this configuration in modern electrical design.

在电子和电气工程的世界中，理解电路的各种配置至关重要。其中一种在实际应用和理论概念中扮演重要角色的配置是并联连接。并联连接是指多个组件连接在同一电压源上的电路布置。这意味着每个组件都有自己直接通往电源的路径，使它们可以独立于彼此运行。这种设置与串联连接形成对比，在串联连接中，组件按顺序排列，电流依次流经每个组件。使用并联连接的优点有很多。首先，如果并联连接中的一个组件故障，它不会影响其他组件的操作。这在可靠性至关重要的关键系统中尤为重要。例如，在家庭照明系统中，如果一个灯泡烧坏，其他灯泡仍然会亮，因为它们是以并联连接的方式连接的。这种特性增强了系统的整体可靠性。此外，并联连接提供了更大的设计灵活性。工程师可以在不干扰整个电路的情况下添加或移除组件。在复杂系统中，这种特性尤其有益，例如计算机网络，其中多个设备需要同时通信。在这种情况下，每个设备都可以通过并联连接进行连接，确保一个设备的故障不会妨碍其他设备的功能。并联连接的另一个重要方面是其对电压和电流分配的影响。在并联连接中，每个组件上的电压保持不变，等于电源的电压。然而，从电源流出的总电流是流经每个组件的电流之和。这一特性使工程师能够根据每个组件的单独电流额定值计算所需的规格，从而使设计满足特定需求的电路变得更容易。然而，虽然并联连接提供了许多好处，但它们也带来了一些挑战。例如，如果在并联连接中添加过多组件，可能会导致电源的过度电流抽取，可能导致过热或电源故障。因此，在设计具有并联连接的电路时，仔细考虑组件的数量及其各自的额定值至关重要。总之，并联连接的概念在电子和电气工程领域是基础性的。它增强了可靠性、提供了设计灵活性，并保持一致的电压水平，使其成为许多应用中首选的选择。无论是在简单的家庭布线还是复杂的电子系统中，有效实施并联连接的理解对于工程师和技术人员都是至关重要的。随着技术的不断进步，并联连接背后的原则将继续保持相关性，突显出这种配置在现代电气设计中的重要性。