decoupler

简明释义

英[diːˈkʌplə(r)]美[dɪˈkuːplər]

去耦器

英英释义

单词用法

同义词

反义词

例句

1.A terminal opening (7) which is used for connecting an electrical wire (9) with a quick terminal joint of the load side terminals (4) is arranged on the front of the decoupler casing (2).

在断开器壳体(2)的前面上设置了用于把电线(9)与负荷侧端子(4)的速结端子接头连接的端子口(7)。

2.A terminal opening (7) which is used for connecting an electrical wire (9) with a quick terminal joint of the load side terminals (4) is arranged on the front of the decoupler casing (2).

在断开器壳体(2)的前面上设置了用于把电线(9)与负荷侧端子(4)的速结端子接头连接的端子口(7)。

3.The acoustic impedances and thicknesses of the acoustic decoupling layers determine the acoustic impedance of the acoustic decoupler, and, hence, the pass bandwidth of the DSBAR device.

声波去耦层的声阻抗和厚度决定该声波去耦器的声阻抗，并因此决定DSBAR器件的通带宽度。

4.Three load side terminals (4) and power supply side terminals (5) are respectively arranged along the up-down direction on the front and the back of the decoupler casing (2).

分别在断开器壳体(2)的前面和背面上在上下方向排列了三个负荷侧端子(4)和电源侧端子(5)。

5.The invention relates to a circuit decoupler which does not thicken a decoupler casing and can improve the function of a load side terminal.

一种不加厚断开器壳体，能提高负荷侧端子的功能的电路断开器。

6.The dynamic stiffness and damping characteristics of a kind of free decoupler hydro elastic mount and its rubber spring are tested.

通过激振实验方法测试了液阻悬置元件及其橡胶主簧的动刚度和阻尼特性。

7.A display mechanism is arranged in the decoupler casing (2) at the back of the confirming window (11).

在确认窗(11)的背后，在断开器壳体(2)的内部设置了显示机构。

8.The engineer installed a decoupler to reduce vibrations in the machinery.

工程师安装了一个解耦器以减少机器的振动。

9.In audio systems, a decoupler can help isolate speakers from the floor.

在音频系统中，解耦器可以帮助将扬声器与地面隔离。

10.Using a decoupler in your HVAC system can improve efficiency.

在您的暖通空调系统中使用解耦器可以提高效率。

11.The software uses a decoupler to separate different components for better performance.

该软件使用解耦器分离不同组件以提高性能。

12.A thermal decoupler prevents heat transfer between two systems.

热解耦器防止两个系统之间的热传递。

作文

In modern engineering and technology, the term decoupler refers to a device or mechanism that separates two systems or components to minimize their interaction. This concept is widely used in various fields, including electronics, mechanical systems, and even software development. The primary purpose of a decoupler is to reduce the influence of one system on another, allowing each to function independently while still being part of a larger system. For instance, in electrical circuits, a decoupler can help prevent voltage fluctuations in one part of the circuit from affecting other parts, thereby ensuring stable operation. In the realm of mechanical engineering, a decoupler might be employed to isolate vibrations between machinery components. This is particularly important in heavy machinery where vibrations can lead to wear and tear, ultimately affecting performance and longevity. By using a decoupler, engineers can enhance the durability of equipment and improve overall efficiency. Moreover, the concept of decoupling extends beyond physical devices; it is also a critical principle in software architecture. In this context, a decoupler may refer to design patterns or frameworks that allow different software modules to operate independently. This independence facilitates easier maintenance and scalability, as developers can modify one module without impacting others. Such practices are essential in today’s fast-paced technological environment, where agility and adaptability are key to success. The significance of decouplers cannot be overstated. They play a crucial role in ensuring that systems operate smoothly and efficiently, whether in a mechanical, electrical, or software context. By implementing decouplers, engineers and developers can achieve a higher level of control over their systems, leading to improved performance and reduced risk of failure. In summary, a decoupler serves as a vital component in various technologies, helping to manage interactions between systems effectively. Its applications range from enhancing the stability of electrical circuits to isolating mechanical vibrations and promoting modular software design. As technology continues to evolve, the importance of decouplers will likely grow, making them an essential consideration in engineering and design. Understanding how to implement and utilize decouplers can lead to more resilient and efficient systems, ultimately benefiting industries and consumers alike.

在现代工程和技术中，术语decoupler指的是一种设备或机制，用于将两个系统或组件分开，以最小化它们之间的相互作用。这个概念广泛应用于电子、机械系统甚至软件开发等多个领域。decoupler的主要目的是减少一个系统对另一个系统的影响，允许它们在仍然是更大系统一部分的情况下独立运行。例如，在电路中，decoupler可以帮助防止电路某一部分的电压波动影响其他部分，从而确保稳定运行。 在机械工程领域，decoupler可能被用来隔离机器组件之间的振动。这在重型机械中尤为重要，因为振动会导致磨损，最终影响性能和寿命。通过使用decoupler，工程师可以提高设备的耐用性并改善整体效率。 此外，decoupling的概念不仅限于物理设备；它也是软件架构中的一个关键原则。在这种情况下，decoupler可能指的是允许不同软件模块独立运行的设计模式或框架。这种独立性便于维护和扩展，因为开发人员可以在不影响其他模块的情况下修改一个模块。在当今快速发展的技术环境中，这种做法对于成功至关重要。 decouplers的重要性不容小觑。它们在确保系统平稳高效运行方面发挥着至关重要的作用，无论是在机械、电气还是软件上下文中。通过实施decouplers，工程师和开发人员可以对其系统实现更高水平的控制，从而提高性能并降低故障风险。 总之，decoupler作为各种技术中的重要组成部分，有助于有效管理系统之间的相互作用。它的应用范围从增强电路的稳定性到隔离机械振动，再到促进模块化软件设计。随着技术的不断发展，decouplers的重要性可能会进一步增长，使其成为工程和设计中的重要考虑因素。理解如何实施和利用decouplers可以导致更具弹性和高效的系统，最终使各个行业和消费者受益。