fly-wheel time base
简明释义
飞轮效应时基未同步的扫描
英英释义
例句
1.The research team discovered that variations in the fly-wheel time base 飞轮时间基准 could lead to significant errors.
研究小组发现,飞轮时间基准的变化可能导致显著的错误。
2.The engineer explained that the system's accuracy depends on the fly-wheel time base 飞轮时间基准 used in the calculations.
工程师解释说,系统的准确性取决于计算中使用的飞轮时间基准。
3.For optimal performance, we need to calibrate the fly-wheel time base 飞轮时间基准 regularly.
为了最佳性能,我们需要定期校准飞轮时间基准。
4.In our latest project, the fly-wheel time base 飞轮时间基准 was crucial for synchronizing the devices.
在我们最新的项目中,飞轮时间基准对于设备的同步至关重要。
5.We implemented a new algorithm to improve the stability of the fly-wheel time base 飞轮时间基准 in our system.
我们实施了一种新算法,以提高系统中飞轮时间基准的稳定性。
作文
In the realm of engineering and physics, the term fly-wheel time base refers to a specific mechanism that utilizes the properties of a flywheel to maintain a consistent and stable time reference. A flywheel is a mechanical device that stores rotational energy. It is designed to smooth out the delivery of power from a motor to a machine, thereby ensuring a steady output. The fly-wheel time base is crucial in applications where precise timing is essential, such as in clocks, engines, and various types of machinery. The concept of a flywheel can be traced back to ancient times, where it was used in various forms of machines to enhance performance and efficiency. Over the years, engineers have developed more sophisticated versions of flywheels, which are now integral components in modern technology. When we talk about the fly-wheel time base, we are essentially referring to the ability of these devices to regulate time intervals accurately. This regulation is achieved through the inertia of the rotating mass, which resists changes to its motion. One of the most common applications of the fly-wheel time base is in mechanical clocks. In traditional clock mechanisms, a flywheel helps maintain a consistent rate of movement for the clock hands. As the flywheel spins, it stores energy and releases it slowly, allowing the clock to keep accurate time. Without this mechanism, clocks would be prone to inaccuracies due to fluctuations in energy supply. Moreover, the fly-wheel time base is also utilized in various industrial machines that require precise timing for operations. For instance, in manufacturing processes, machines often rely on flywheels to synchronize their movements with other equipment. This synchronization is vital for ensuring that products are assembled correctly and efficiently. The significance of the fly-wheel time base extends beyond mechanical applications; it also plays a role in electronic systems. In digital electronics, timing circuits often mimic the principles of a flywheel to ensure that signals are processed at the right intervals. This is particularly important in computing systems where timing discrepancies can lead to errors and malfunctions. In conclusion, the fly-wheel time base is a fundamental concept that bridges mechanical engineering and timekeeping technology. Its ability to provide a stable and reliable time reference is indispensable in various applications, from traditional clocks to modern industrial machinery. Understanding how the flywheel operates and contributes to timekeeping allows engineers and technicians to design more efficient systems that rely on precise timing. As technology continues to evolve, the principles underlying the fly-wheel time base will remain relevant, ensuring that we can maintain accuracy and efficiency in our increasingly complex world.
在工程和物理学领域,术语飞轮时间基准指的是一种特定机制,该机制利用飞轮的特性来维持一致和稳定的时间参考。飞轮是一种储存旋转能量的机械装置。它旨在平滑电动机与机器之间的功率传递,从而确保稳定的输出。飞轮时间基准在精确计时至关重要的应用中至关重要,例如在钟表、发动机和各种类型的机器中。飞轮的概念可以追溯到古代,当时它以各种形式被用于提高机器的性能和效率。多年来,工程师们开发出了更复杂的飞轮版本,这些飞轮现在是现代技术的组成部分。当我们谈论飞轮时间基准时,我们实际上是在谈论这些设备准确调节时间间隔的能力。这种调节是通过旋转质量的惯性实现的,惯性抵抗运动的变化。飞轮时间基准最常见的应用之一是在机械钟表中。在传统的钟表机制中,飞轮有助于保持钟表指针的移动速率一致。当飞轮旋转时,它储存能量并缓慢释放,使得钟表能够保持准确的时间。如果没有这个机制,钟表将因能量供应波动而容易出现不准确性。此外,飞轮时间基准也被用于各种需要精确计时操作的工业机器中。例如,在制造过程中,机器通常依赖飞轮与其他设备同步其运动。这种同步对于确保产品正确和高效地组装至关重要。飞轮时间基准的重要性不仅限于机械应用;它在电子系统中也发挥着作用。在数字电子学中,定时电路通常模仿飞轮的原理,以确保信号在正确的时间间隔内处理。这在计算系统中尤为重要,因为定时差异可能导致错误和故障。总之,飞轮时间基准是连接机械工程和计时技术的基本概念。它提供稳定可靠的时间参考的能力在从传统钟表到现代工业机器的各种应用中都是不可或缺的。理解飞轮如何运作并对计时做出贡献,使工程师和技术人员能够设计出更高效的系统,这些系统依赖于精确的计时。随着技术的不断发展,支撑飞轮时间基准的原理将继续保持相关性,确保我们在日益复杂的世界中保持准确性和效率。
