automatic ranging

简明释义

自动测距

英英释义

例句

1.In photography, automatic ranging 自动测距 helps to achieve precise focus on the subject.

在摄影中，自动测距 automatic ranging有助于实现对主题的精确对焦。

2.With automatic ranging 自动测距, the device can adjust its settings based on the distance to the target.

通过自动测距 automatic ranging，设备可以根据目标的距离调整其设置。

3.The golf rangefinder has automatic ranging 自动测距 to help players determine the distance to the hole.

高尔夫测距仪具有自动测距 automatic ranging功能，帮助球员确定到洞口的距离。

4.The drone uses automatic ranging 自动测距 technology to maintain a safe altitude above the ground.

无人机使用自动测距 automatic ranging技术来保持安全的飞行高度。

5.The new laser rangefinder features automatic ranging 自动测距 for quick distance measurements.

新的激光测距仪具有自动测距 automatic ranging功能，可以快速进行距离测量。

作文

In the realm of technology and engineering, the term automatic ranging refers to a feature commonly found in measuring instruments, such as multimeters and laser rangefinders. This functionality allows devices to automatically adjust their measurement scales based on the input signal or distance being measured. The significance of automatic ranging lies in its ability to enhance accuracy and ease of use, making it an invaluable tool for professionals and hobbyists alike. To understand the importance of automatic ranging, let us consider its application in a practical scenario. Imagine an electrician who is tasked with troubleshooting an electrical circuit. Without automatic ranging, the electrician would need to manually set the multimeter to the appropriate voltage range before taking a measurement. This process can be time-consuming and prone to human error, especially if the electrician is unsure of the expected voltage level. However, with a multimeter that features automatic ranging, the device intuitively selects the correct range, allowing the electrician to focus on diagnosing the issue rather than fiddling with settings. The benefits of automatic ranging extend beyond just convenience. It also plays a crucial role in ensuring safety. For instance, measuring high voltages can be dangerous, and mistakenly setting the multimeter to a lower range could lead to equipment damage or personal injury. By utilizing automatic ranging, the multimeter mitigates these risks by selecting the safest range for measurement, thus protecting both the user and the device. In addition to electrical measurements, automatic ranging is also prevalent in the field of surveying. Laser rangefinders equipped with this feature can measure distances with remarkable precision. When a surveyor aims the device at a target, the automatic ranging capability ensures that the correct distance measurement is obtained without the need for manual adjustments. This not only saves time but also improves the reliability of the data collected, which is critical for construction and land assessment projects. Moreover, the evolution of technology has seen automatic ranging integrated into various consumer electronics. For instance, digital cameras often have autofocus systems that utilize automatic ranging to determine the optimal focus distance. This allows photographers to capture sharp images effortlessly, even in dynamic environments where subjects are moving. The seamless integration of automatic ranging into everyday devices exemplifies how this technology enhances user experience across different domains. In conclusion, the concept of automatic ranging is a testament to the advancements in measurement technology. Its ability to automatically select measurement ranges not only simplifies the user experience but also increases the accuracy and safety of measurements. Whether in electrical engineering, surveying, or consumer electronics, automatic ranging proves to be an essential feature that streamlines processes and enhances overall efficiency. As technology continues to evolve, we can anticipate even more innovative applications of automatic ranging that will further transform how we interact with measurement tools.

在科技和工程领域，术语自动量程指的是一种常见于测量仪器（如万用表和激光测距仪）的功能。该功能允许设备根据输入信号或被测距离自动调整其测量范围。自动量程的重要性在于它能够提高准确性和易用性，使其成为专业人士和爱好者不可或缺的工具。为了理解自动量程的重要性，让我们考虑一个实际场景中的应用。想象一下，一个电工被指派去排查电路故障。如果没有自动量程，电工在进行测量之前需要手动将万用表设置到适当的电压范围。这个过程可能耗时且容易出错，尤其是当电工不确定预期电压水平时。然而，使用具有自动量程功能的万用表，设备可以直观地选择正确的范围，使电工能够专注于诊断问题，而不是调整设置。自动量程的好处不仅限于便利性。它在确保安全方面也发挥着至关重要的作用。例如，测量高电压可能是危险的，错误地将万用表设置为较低的范围可能导致设备损坏或人身伤害。通过利用自动量程，万用表通过选择最安全的测量范围来降低这些风险，从而保护用户和设备。除了电气测量，自动量程在测量领域也很常见。配备此功能的激光测距仪可以非常精确地测量距离。当测量员将设备瞄准目标时，自动量程功能确保获得正确的距离测量，而无需手动调整。这不仅节省了时间，还提高了收集数据的可靠性，这对建筑和土地评估项目至关重要。此外，科技的进步使得自动量程被整合到各种消费电子产品中。例如，数码相机通常具有自动对焦系统，利用自动量程来确定最佳对焦距离。这使得摄影师能够轻松捕捉清晰的图像，即使在动态环境中，拍摄对象正在移动。自动量程与日常设备的无缝集成证明了这一技术如何提升各个领域的用户体验。总之，自动量程的概念证明了测量技术的进步。其自动选择测量范围的能力不仅简化了用户体验，还提高了测量的准确性和安全性。无论是在电气工程、测量还是消费电子产品中，自动量程都是一种关键特性，它简化了流程并提高了整体效率。随着技术的不断发展，我们可以期待自动量程在未来会有更多创新应用，进一步改变我们与测量工具的互动方式。