power estimation

简明释义

功率估算

英英释义

例句

1.In renewable energy projects, power estimation helps in predicting the output from solar panels.

在可再生能源项目中，功率估算有助于预测太阳能电池板的输出。

2.Accurate power estimation is crucial for designing efficient electrical systems.

准确的功率估算对设计高效电气系统至关重要。

3.The engineer performed a power estimation to determine the energy requirements of the new machine.

工程师进行了功率估算以确定新机器的能量需求。

4.Before installation, a detailed power estimation was conducted to ensure compatibility.

在安装之前，进行了详细的功率估算以确保兼容性。

5.The software includes a feature for power estimation based on user inputs.

该软件包括一个基于用户输入的功率估算功能。

作文

In the field of engineering and technology, accurate calculations are crucial for efficiency and effectiveness. One of the essential concepts that engineers and scientists frequently encounter is power estimation. This term refers to the process of determining the amount of power required for a system or component to function properly. Understanding power estimation is vital for designing systems that are not only functional but also energy-efficient. Power estimation can be applied in various domains, including electronics, mechanical systems, and even in computing. For instance, in electronic circuit design, engineers must estimate the power consumption of different components to ensure that the power supply can handle the load. If the power estimation is inaccurate, it can lead to system failures, overheating, or inefficient operation. In mechanical systems, power estimation plays a critical role in assessing the performance of engines and motors. Engineers must calculate the power output required for specific tasks, such as lifting heavy loads or propelling vehicles. By conducting precise power estimation, they can optimize the design and select appropriate materials to enhance performance while minimizing energy consumption.Furthermore, in the realm of computing, power estimation is increasingly important as devices become more compact and powerful. With the rise of mobile computing and the Internet of Things (IoT), understanding how much power a device will consume during operation is essential for battery life management. Developers use power estimation techniques to predict energy usage, allowing them to create more efficient algorithms and applications that extend the operational time of devices without frequent recharging. To accurately perform power estimation, engineers often rely on simulations and modeling tools. These tools allow them to create virtual representations of systems and analyze their behavior under different conditions. By running these simulations, engineers can identify potential issues early in the design process and make necessary adjustments before physical prototypes are built. This proactive approach saves time and resources, ultimately leading to better-performing products. Moreover, power estimation is not just limited to the design phase; it is also crucial during the testing and validation stages. After a system has been built, engineers conduct tests to measure actual power consumption and compare it with their estimations. This step is essential for ensuring that the system operates within safe limits and meets performance specifications. Any significant discrepancies between estimated and actual power usage can indicate design flaws or inefficiencies that need to be addressed. In conclusion, power estimation is a fundamental concept in engineering that impacts various fields, from electronics to mechanical systems and computing. By accurately estimating power requirements, engineers can design systems that are efficient, reliable, and capable of meeting user needs. As technology continues to advance, the importance of power estimation will only grow, making it an essential skill for future engineers and developers. Understanding this concept not only enhances technical knowledge but also contributes to the development of sustainable and energy-efficient technologies that benefit society as a whole.

在工程和技术领域，准确的计算对于效率和有效性至关重要。工程师和科学家经常遇到的基本概念之一是功率估算。这个术语指的是确定系统或组件正常运行所需功率的过程。理解功率估算对于设计既功能齐全又节能的系统至关重要。功率估算可以应用于多个领域，包括电子学、机械系统，甚至计算机。例如，在电子电路设计中，工程师必须估算不同组件的功耗，以确保电源能够承受负载。如果功率估算不准确，可能会导致系统故障、过热或效率低下。在机械系统中，功率估算在评估发动机和电动机的性能方面起着关键作用。工程师必须计算特定任务所需的功率输出，例如提升重物或推进车辆。通过进行精确的功率估算，他们可以优化设计并选择合适的材料，以提高性能，同时最小化能耗。此外，在计算领域，随着设备变得更加紧凑和强大，功率估算变得越来越重要。随着移动计算和物联网（IoT）的兴起，了解设备在运行过程中将消耗多少电力对于电池寿命管理至关重要。开发人员使用功率估算技术来预测能量使用，从而创建更高效的算法和应用程序，延长设备的操作时间，而无需频繁充电。为了准确地进行功率估算，工程师通常依赖于仿真和建模工具。这些工具允许他们创建系统的虚拟表示，并分析其在不同条件下的行为。通过运行这些仿真，工程师可以在设计过程中早期识别潜在问题，并在构建物理原型之前进行必要的调整。这种前瞻性的方法节省了时间和资源，最终导致更高性能的产品。此外，功率估算不仅限于设计阶段；它在测试和验证阶段也至关重要。在系统构建完成后，工程师进行测试以测量实际功耗，并与他们的估算进行比较。这一步对于确保系统在安全范围内运行并满足性能规格至关重要。估算和实际功率使用之间的任何重大差异都可能表明设计缺陷或需要解决的低效问题。总之，功率估算是工程中的一个基本概念，影响多个领域，从电子学到机械系统和计算。通过准确估算功率要求，工程师可以设计出高效、可靠且能够满足用户需求的系统。随着技术的不断进步，功率估算的重要性只会增加，使其成为未来工程师和开发人员的一项基本技能。理解这一概念不仅增强了技术知识，还有助于开发可持续和节能的技术，从而使整个社会受益。