wiring complexity

简明释义

布线密度

英英释义

例句

1.Reducing wiring complexity can lead to easier maintenance and lower production costs.

减少布线复杂性可以导致更容易的维护和更低的生产成本。

2.In robotics, wiring complexity can affect the overall performance of the machine.

在机器人技术中，布线复杂性会影响机器的整体性能。

3.The engineers discussed the challenges posed by wiring complexity in the new aircraft design.

工程师们讨论了新飞机设计中由布线复杂性带来的挑战。

4.The team implemented a new system to manage wiring complexity in their electrical circuits.

团队实施了一种新系统来管理他们电路中的布线复杂性。

5.The architect had to consider wiring complexity when designing the smart home.

建筑师在设计智能家居时必须考虑布线复杂性。

作文

In the modern world, technology is advancing at an unprecedented pace. One of the critical aspects of this advancement is the intricate nature of electronic devices and systems. As we delve into the complexities of these technologies, we often encounter the term wiring complexity, which refers to the intricate arrangements and connections of wires and circuits within a device. Understanding wiring complexity is essential for engineers, technicians, and even end-users who want to appreciate how their devices function. The concept of wiring complexity can be observed in various fields, from consumer electronics to automotive engineering. In consumer electronics, for instance, the design of smartphones involves a significant amount of wiring complexity. The compact size of these devices necessitates that multiple components, such as processors, sensors, and batteries, are interconnected through a network of wires and circuit boards. This complexity not only affects the manufacturing process but also influences the device's performance and reliability. For automotive engineers, wiring complexity poses both challenges and opportunities. Modern vehicles are equipped with numerous electronic systems, including navigation, entertainment, and safety features. The wiring that connects these systems must be carefully designed to minimize interference and ensure efficient operation. As cars become more automated and connected, the wiring complexity increases, requiring engineers to innovate new solutions to manage this intricacy. Moreover, wiring complexity also has implications for maintenance and repair. When a device malfunctions, understanding the wiring complexity is crucial for diagnosing the problem. Technicians must navigate through layers of wires and components to identify the source of the issue. A well-organized wiring layout can significantly reduce the time and effort required for repairs, highlighting the importance of considering wiring complexity in the design phase. As technology continues to evolve, the challenge of managing wiring complexity remains a top priority for developers. Innovations such as wireless communication and integrated circuits aim to reduce the physical wiring needed in devices. However, while these advancements help simplify designs, they also introduce new forms of complexity, such as software integration and signal processing. Thus, the relationship between technology and wiring complexity is dynamic and ever-changing. In conclusion, wiring complexity is a fundamental aspect of modern technology that affects various industries. From consumer electronics to automotive engineering, understanding and managing this complexity is vital for ensuring device performance, reliability, and ease of maintenance. As we continue to push the boundaries of innovation, the way we approach wiring complexity will undoubtedly shape the future of technology. By embracing this complexity and finding innovative solutions, we can create devices that not only meet the demands of today but also pave the way for the advancements of tomorrow.

在现代世界中，科技以空前的速度发展。这个进步的一个关键方面是电子设备和系统的复杂性。当我们深入研究这些技术的复杂性时，我们常常会遇到“wiring complexity”这个术语，它指的是设备内部电线和电路的复杂排列和连接。理解wiring complexity对于工程师、技术人员甚至希望了解其设备如何运作的最终用户来说都是至关重要的。“wiring complexity”的概念可以在多个领域观察到，从消费电子产品到汽车工程。例如，在消费电子产品中，智能手机的设计涉及大量的wiring complexity。这些设备的紧凑尺寸要求多个组件（如处理器、传感器和电池）通过一系列电线和电路板相互连接。这种复杂性不仅影响制造过程，还影响设备的性能和可靠性。对于汽车工程师来说，wiring complexity既带来了挑战，也提供了机遇。现代汽车配备了众多电子系统，包括导航、娱乐和安全功能。连接这些系统的电线必须经过精心设计，以最小化干扰并确保高效运行。随着汽车变得更加自动化和互联，wiring complexity增加，要求工程师创新新的解决方案来管理这种复杂性。此外，wiring complexity对维护和修理也有影响。当设备发生故障时，理解wiring complexity对于诊断问题至关重要。技术人员必须穿越一层层电线和组件，以识别问题的根源。良好的电线布局可以显著减少修理所需的时间和精力，这突显了在设计阶段考虑wiring complexity的重要性。随着技术的不断发展，管理wiring complexity的挑战仍然是开发人员的首要任务。无线通信和集成电路等创新旨在减少设备所需的物理布线。然而，尽管这些进步有助于简化设计，但它们也引入了新的复杂形式，例如软件集成和信号处理。因此，技术与wiring complexity之间的关系是动态且不断变化的。总之，wiring complexity是现代技术的一个基本方面，影响着各个行业。从消费电子产品到汽车工程，理解和管理这种复杂性对于确保设备性能、可靠性和维护便利性至关重要。随着我们继续推动创新的界限，我们对wiring complexity的处理方式无疑将塑造技术的未来。通过拥抱这种复杂性并寻找创新解决方案，我们可以创造出不仅满足当今需求的设备，还为明天的进步铺平道路。