full scale deflection

简明释义

满刻度偏转

英英释义

例句

1.The voltage regulator must be tested for full scale deflection to confirm its performance.

必须对电压调节器进行满刻度偏转测试以确认其性能。

2.The technician noted that the meter was not achieving full scale deflection, indicating a potential fault.

技术员注意到仪表未能达到满刻度偏转，这表明可能存在故障。

3.In the experiment, we aimed for full scale deflection to ensure the results were reliable.

在实验中，我们的目标是达到满刻度偏转以确保结果可靠。

4.The engineer calibrated the instrument to ensure it reached full scale deflection during testing.

工程师对仪器进行了校准，以确保在测试中达到满刻度偏转。

5.To accurately measure the pressure, the gauge must show full scale deflection under maximum load.

为了准确测量压力，表盘必须在最大负载下显示满刻度偏转。

作文

In the realm of engineering and physics, the term full scale deflection refers to the maximum extent to which a measuring instrument can move from its zero position. This is particularly important in the context of analog meters, such as voltmeters and ammeters, where the needle's movement indicates the level of the variable being measured. When an instrument reaches full scale deflection, it signifies that the measurement has reached its upper limit, providing critical information about the system being monitored.Understanding full scale deflection is essential for engineers and technicians who work with various types of measuring devices. For instance, when calibrating an ammeter, one must ensure that the device is capable of handling the maximum current without exceeding its full scale deflection. If the current surpasses this limit, it may result in damage to the instrument or inaccurate readings, leading to potential failures in electrical systems.Moreover, full scale deflection plays a crucial role in the design and selection of measuring instruments. Engineers often choose devices based on their full scale deflection specifications to ensure they meet the demands of specific applications. For example, in high-voltage applications, it is vital to select a voltmeter with a suitable full scale deflection to prevent overloading and ensure safety.In practical scenarios, understanding how to interpret full scale deflection is equally important. When reading an analog meter, users must be aware of the scale and the range of values it represents. A reading at full scale deflection might indicate that the system is operating at maximum capacity or that there is an issue requiring immediate attention. Thus, recognizing the implications of full scale deflection can help prevent equipment failure and ensure efficient operation.Furthermore, the concept of full scale deflection extends beyond just physical measurements. In a metaphorical sense, it can represent the limits of human capability or the boundaries within which we operate. For instance, in project management, reaching full scale deflection could symbolize the point at which resources are fully utilized, necessitating reevaluation of strategies to avoid burnout or project failure.In conclusion, the term full scale deflection encapsulates a critical aspect of measurement in engineering and physics. Its significance lies not only in the technical specifications of instruments but also in its broader implications across various fields. By grasping the importance of full scale deflection, professionals can make informed decisions, ensuring accuracy in measurements and efficiency in operations. Understanding this concept ultimately contributes to the successful execution of projects and the advancement of technology, reinforcing the need for precision and awareness in all aspects of engineering and beyond.

在工程和物理学领域，术语全尺度偏转指的是测量仪器从零位置移动的最大程度。这在模拟仪表（如电压表和电流表）的背景下尤为重要，因为指针的运动指示所测量变量的水平。当仪器达到全尺度偏转时，这意味着测量已达到其上限，提供了有关被监测系统的重要信息。理解全尺度偏转对于与各种类型测量设备一起工作的工程师和技术人员至关重要。例如，在校准电流表时，必须确保设备能够处理最大电流，而不会超过其全尺度偏转。如果电流超过此限制，可能会导致仪器损坏或读数不准确，从而导致电气系统潜在的故障。此外，全尺度偏转在测量仪器的设计和选择中起着至关重要的作用。工程师通常根据其全尺度偏转规格选择设备，以确保它们满足特定应用的需求。例如，在高电压应用中，选择具有适当全尺度偏转的电压表至关重要，以防止过载并确保安全。在实际场景中，理解如何解读全尺度偏转同样重要。在读取模拟仪表时，用户必须了解仪表的刻度及其代表的值范围。达到全尺度偏转的读数可能表明系统正在以最大容量运行，或者存在需要立即关注的问题。因此，认识到全尺度偏转的含义可以帮助防止设备故障并确保高效操作。此外，全尺度偏转的概念不仅限于物理测量。从比喻的角度来看，它可以代表人类能力的极限或我们运作的边界。例如，在项目管理中，达到全尺度偏转可能象征着资源被充分利用的点，这需要重新评估策略，以避免疲惫或项目失败。总之，术语全尺度偏转概括了工程和物理学中测量的一个关键方面。它的重要性不仅体现在仪器的技术规格上，还体现在其在各个领域的更广泛影响上。通过掌握全尺度偏转的重要性，专业人员可以做出明智的决策，确保测量的准确性和操作的效率。理解这一概念最终有助于项目的成功执行和技术的进步，强化了在工程及其他所有领域对精确和意识的需求。