electronic dynamometer

简明释义

电子测功器

英英释义

例句

1.The team conducted a series of tests with the electronic dynamometer to evaluate different materials.

团队使用电子测功仪进行了一系列测试，以评估不同材料的性能。

2.The engineer used an electronic dynamometer to measure the torque output of the engine.

工程师使用电子测功仪来测量发动机的扭矩输出。

3.The electronic dynamometer provides real-time data on the performance of the machine.

电子测功仪提供了机器性能的实时数据。

4.Using an electronic dynamometer allows for more precise measurements than traditional methods.

使用电子测功仪可以比传统方法获得更精确的测量。

5.In the lab, we calibrated the electronic dynamometer for accurate force measurements.

在实验室，我们对电子测功仪进行了校准，以确保力测量的准确性。

作文

In the field of engineering and mechanics, precise measurements are crucial for understanding the performance of various machines and systems. One essential tool that has gained significant attention is the electronic dynamometer. An electronic dynamometer (电子测功器) is an advanced device used to measure force, torque, or power output from engines and other machinery. Unlike traditional dynamometers, which often rely on mechanical components and analog displays, electronic dynamometers utilize digital technology to provide accurate and real-time data. This advancement allows engineers to conduct tests more efficiently and obtain precise readings that are essential for performance tuning and diagnostics.The operation of an electronic dynamometer involves a few fundamental principles. When an engine or machine is connected to the dynamometer, it applies a load that the dynamometer measures. The device then converts this mechanical energy into electrical signals, which are processed by onboard software to display the results. This process not only enhances accuracy but also facilitates the collection of extensive data over time, allowing for more comprehensive analysis and optimization of performance.One of the significant advantages of using an electronic dynamometer is its ability to provide detailed information about various operational parameters. For instance, engineers can monitor torque curves, horsepower outputs, and fuel efficiency in real-time. This data is invaluable for developing better engines, improving vehicle performance, and adhering to regulatory standards. Moreover, the digital interface often includes features such as data logging, graphical representations, and customizable reporting, making it easier for engineers to interpret the results and make informed decisions.Furthermore, the portability of modern electronic dynamometers allows for testing in diverse environments, whether in a lab setting or out in the field. This flexibility means that engineers can evaluate performance under different conditions, ensuring that designs meet the required specifications across various scenarios. Additionally, many electronic dynamometers come with software that enables remote monitoring and control, adding another layer of convenience and efficiency to the testing process.However, like any technology, electronic dynamometers also have their limitations. The initial investment cost can be significantly higher than traditional models, which may deter smaller workshops or independent engineers from adopting this technology. Moreover, while the accuracy and reliability of electronic measurements are generally superior, they can sometimes be affected by environmental factors such as temperature or humidity, which must be accounted for during testing.In conclusion, the electronic dynamometer (电子测功器) represents a significant leap forward in the measurement of force and power in engineering applications. Its ability to provide accurate, real-time data enhances the efficiency of testing processes and contributes to the development of more effective and reliable machines. As technology continues to evolve, the role of electronic dynamometers in engineering and mechanics will likely expand, leading to even greater innovations in the field. Understanding and utilizing this tool effectively is essential for engineers aiming to push the boundaries of performance and efficiency in their designs.

在工程和机械领域，精确的测量对理解各种机器和系统的性能至关重要。一个备受关注的重要工具是电子测功器。电子测功器（电子测功器）是一种先进的设备，用于测量引擎和其他机械的力、扭矩或功率输出。与传统的测功器不同，后者通常依赖机械部件和模拟显示，电子测功器利用数字技术提供准确和实时的数据。这一进步使得工程师能够更高效地进行测试，并获得对于性能调优和诊断至关重要的精确读数。电子测功器的操作涉及一些基本原理。当引擎或机器连接到测功器时，它施加一个负载，测功器对此进行测量。然后，该设备将这种机械能转换为电信号，这些信号由车载软件处理，以显示结果。这个过程不仅提高了准确性，还促进了大量数据的长期收集，使得性能分析和优化更加全面。使用电子测功器的一个重大优势是它能够提供有关各种操作参数的详细信息。例如，工程师可以实时监测扭矩曲线、马力输出和燃油效率。这些数据对于开发更好的引擎、改善车辆性能以及遵守监管标准至关重要。此外，数字界面通常包括数据记录、图形表示和可定制报告等功能，使工程师更容易解读结果并做出明智的决策。此外，现代电子测功器的便携性允许在多种环境中进行测试，无论是在实验室环境还是在现场。这种灵活性意味着工程师可以在不同条件下评估性能，确保设计在各种场景下符合要求的规格。此外，许多电子测功器配备的软件支持远程监控和控制，为测试过程增添了便利性和效率。然而，像任何技术一样，电子测功器也有其局限性。初始投资成本可能显著高于传统型号，这可能会阻止较小的车间或独立工程师采用这项技术。此外，尽管电子测量的准确性和可靠性通常优越，但有时也会受到温度或湿度等环境因素的影响，这在测试过程中必须加以考虑。总之，电子测功器（电子测功器）代表了在工程应用中测量力和功率的重大进步。它提供的准确、实时数据增强了测试过程的效率，并有助于开发更有效、更可靠的机器。随着技术的不断发展，电子测功器在工程和机械中的作用可能会进一步扩大，从而推动该领域更大的创新。有效理解和利用这一工具对于希望在设计中推动性能和效率边界的工程师而言至关重要。