dispensable circuit

简明释义

次要负载回路

英英释义

例句

1.The team focused on optimizing essential components, leaving out any dispensable circuit 可有可无的电路 from the prototype.

团队专注于优化必要的组件，将任何dispensable circuit 可有可无的电路 从原型中剔除。

2.Removing the dispensable circuit 可有可无的电路 simplified the wiring and reduced costs.

去掉这个dispensable circuit 可有可无的电路 简化了布线并降低了成本。

3.The engineer suggested that the dispensable circuit 可有可无的电路 was not necessary for the basic functionality.

工程师建议这个dispensable circuit 可有可无的电路 对基本功能并不是必需的。

4.In the new design, we found that the dispensable circuit 可有可无的电路 could be removed without affecting performance.

在新设计中，我们发现可以去掉这个dispensable circuit 可有可无的电路，而不会影响性能。

5.After testing, we concluded that the dispensable circuit 可有可无的电路 did not contribute significantly to the overall system.

经过测试，我们得出结论，这个dispensable circuit 可有可无的电路 对整个系统没有显著贡献。

作文

In the world of electronics and circuit design, understanding the concept of a dispensable circuit is crucial for both engineers and hobbyists alike. A dispensable circuit refers to a part of an electronic system that can be removed or bypassed without significantly affecting the overall functionality of the device. This concept is essential when designing systems that require flexibility and adaptability, especially in complex projects where space and resources are limited.When designing an electronic device, engineers often face the challenge of optimizing performance while minimizing costs. One effective strategy is to identify which components are essential and which are dispensable circuits. By determining which circuits can be eliminated or simplified, engineers can streamline their designs, reduce manufacturing costs, and enhance the reliability of the final product.For instance, consider a basic home appliance like a toaster. The primary function of a toaster is to brown bread using heat. However, there are additional features such as a timer or a crumb tray that, while useful, may not be essential for the toaster's core operation. If the manufacturer decides to create a more affordable model, they might choose to remove these non-essential features, effectively creating a version of the toaster with dispensable circuits. This approach not only lowers production costs but also makes the appliance simpler and easier to use.Moreover, the identification of dispensable circuits plays a significant role during troubleshooting and repairs. When a device malfunctions, technicians often need to isolate the problem. Understanding which circuits are dispensable allows them to bypass certain components during testing, making it easier to identify the faulty parts without having to dismantle the entire system.In addition to practical applications, the idea of dispensable circuits can be extended metaphorically to various aspects of life. Just as engineers evaluate the necessity of each circuit in a device, individuals can assess their daily routines and commitments. In our fast-paced world, we often find ourselves overwhelmed with responsibilities, and learning to identify what is truly essential can lead to a more balanced and fulfilling life.For example, in a professional setting, one might have numerous meetings scheduled throughout the week. However, not all meetings are equally important. By recognizing which meetings are dispensable circuits, employees can prioritize their time more effectively, focusing on tasks that directly contribute to their goals and productivity.In conclusion, the concept of a dispensable circuit is not only relevant in the realm of electronics but also serves as a valuable lesson in efficiency and prioritization in everyday life. By understanding which components of a system are essential and which are dispensable, we can make informed decisions that lead to improved outcomes, whether in designing technology or managing our personal and professional lives. The ability to differentiate between what is necessary and what can be set aside is a skill that can significantly enhance our effectiveness and satisfaction in various domains.

在电子和电路设计的世界中，理解“可有可无的电路”这一概念对工程师和爱好者来说至关重要。“可有可无的电路”是指电子系统中可以移除或绕过而不会显著影响设备整体功能的部分。在设计需要灵活性和适应性的系统时，这一概念尤为重要，尤其是在空间和资源有限的复杂项目中。在设计电子设备时，工程师经常面临优化性能与降低成本之间的挑战。一种有效的策略是识别哪些组件是必需的，哪些是“可有可无的电路”。通过确定哪些电路可以被消除或简化，工程师可以简化设计、降低生产成本，并提高最终产品的可靠性。例如，考虑一个基本的家用电器如烤面包机。烤面包机的主要功能是使用热量烘烤面包。然而，还有一些附加功能，如定时器或屑盘，虽然有用，但可能不是烤面包机核心操作的必需品。如果制造商决定生产一种更实惠的型号，他们可能会选择去掉这些非必要的功能，从而有效地创建一个带有“可有可无的电路”的烤面包机版本。这种方法不仅降低了生产成本，还使电器更简单，更易于使用。此外，识别“可有可无的电路”在故障排除和维修过程中也起着重要作用。当设备发生故障时，技术人员通常需要隔离问题。了解哪些电路是“可有可无的”使他们能够在测试过程中绕过某些组件，从而更容易识别故障部件，而不必拆解整个系统。除了实际应用外，“可有可无的电路”的概念还可以隐喻性地扩展到生活的各个方面。正如工程师评估设备中每个电路的必要性一样，个人也可以评估他们的日常活动和承诺。在我们快节奏的世界中，我们经常感到不堪重负，学习识别真正重要的事情可以带来更平衡和充实的生活。例如，在职业环境中，一个人可能会在一周内安排许多会议。然而，并非所有会议都是同等重要的。通过认识到哪些会议是“可有可无的电路”，员工可以更有效地优先安排时间，专注于直接促进其目标和生产力的任务。总之，“可有可无的电路”的概念不仅在电子领域相关，而且在日常生活中也提供了效率和优先级管理的宝贵教训。通过理解系统中哪些组件是必需的，哪些是可有可无的，我们可以做出明智的决策，从而改善结果，无论是在设计技术还是管理个人和职业生活中。区分什么是必要的，什么可以搁置的能力，是显著提升我们在各个领域的有效性和满意度的一项技能。