calibration range

简明释义

标定范围

英英释义

例句

1.The sensor must be tested within its calibration range to ensure accurate readings.

传感器必须在其校准范围内进行测试，以确保读数准确。

2.Adjust the equipment settings to fall within the calibration range specified by the manufacturer.

调整设备设置，使其符合制造商指定的校准范围。

3.Before using the thermometer, check if it is set correctly within the calibration range.

在使用温度计之前，检查它是否正确设置在校准范围内。

4.If the readings fall outside the calibration range, recalibration is necessary.

如果读数超出了校准范围，则需要重新校准。

5.Calibration should be performed regularly to maintain the calibration range of the device.

应定期进行校准，以保持设备的校准范围。

作文

In the field of measurement and instrumentation, the term calibration range refers to the specific range of values over which a measuring instrument is calibrated to ensure accurate readings. This range is critical because it defines the limits within which the instrument can provide reliable measurements. For example, a thermometer calibrated to measure temperatures from -20°C to 100°C has a calibration range that ensures its accuracy only within those temperatures. Outside of this range, the readings may become unreliable or completely incorrect.Understanding the concept of calibration range is essential for professionals in various industries, including engineering, manufacturing, and healthcare. In engineering, for instance, precise measurements are crucial for product quality and safety. If a pressure gauge has a calibration range of 0 to 200 psi, using it to measure pressures outside this range could lead to catastrophic failures or unsafe conditions.The importance of maintaining the calibration range cannot be overstated. Regular calibration checks are necessary to ensure that instruments remain within their specified ranges. These checks involve comparing the instrument's readings against a standard or reference value. If discrepancies are found, adjustments must be made to bring the instrument back within its calibration range. This process not only guarantees accuracy but also extends the lifespan of the equipment.Additionally, different applications may require different calibration ranges. For instance, a laboratory scale used for weighing chemicals might have a very different calibration range than a commercial scale used in a grocery store. The former may need a much finer resolution and a narrower range to ensure precision, while the latter may prioritize a broader range to accommodate various products.In healthcare, the calibration range is particularly vital. Medical devices such as blood glucose meters must be calibrated accurately to ensure patient safety. A meter with an incorrect calibration range could lead to misdiagnosis or improper treatment, potentially endangering lives. Therefore, healthcare professionals must regularly check and calibrate their instruments to maintain their effectiveness.Moreover, advancements in technology have introduced new methods for calibration. Digital instruments often come with built-in self-calibration features that automatically adjust the calibration range based on environmental factors. However, users must still be aware of the specified calibration range to avoid misuse and ensure optimal performance.In conclusion, the calibration range is a fundamental concept in the realm of measurement that affects various industries. Understanding its significance helps professionals maintain accuracy and reliability in their work. Regular calibration checks, awareness of specific ranges for different applications, and the use of advanced technologies are all essential practices that contribute to effective measurement. By prioritizing the calibration range, organizations can enhance their operational efficiency and ensure safety in their respective fields.

在测量和仪器领域，术语calibration range指的是测量仪器经过校准以确保准确读数的特定值范围。这个范围至关重要，因为它定义了仪器可以提供可靠测量的限制。例如，一个校准用于测量温度从-20°C到100°C的温度计，其calibration range确保其在这些温度范围内的准确性。在这个范围之外，读数可能变得不可靠或完全错误。理解calibration range的概念对于各个行业的专业人士至关重要，包括工程、制造和医疗保健。例如，在工程中，精确的测量对于产品质量和安全至关重要。如果一个压力表的calibration range为0到200 psi，使用它来测量超出此范围的压力可能导致灾难性的故障或不安全的情况。保持calibration range的重要性不容小觑。定期的校准检查是确保仪器保持在其指定范围内所必需的。这些检查涉及将仪器的读数与标准或参考值进行比较。如果发现差异，必须进行调整以使仪器回到其calibration range内。这个过程不仅保证了准确性，还延长了设备的使用寿命。此外，不同的应用可能需要不同的calibration ranges。例如，用于称量化学品的实验室秤可能具有与杂货店中使用的商业秤非常不同的calibration range。前者可能需要更精细的分辨率和更窄的范围以确保精确，而后者可能优先考虑更广泛的范围以适应各种产品。在医疗保健中，calibration range尤其重要。诸如血糖仪等医疗设备必须准确校准以确保患者安全。一个calibration range不正确的仪器可能导致误诊或不当治疗，潜在地危及生命。因此，医疗专业人员必须定期检查和校准他们的仪器，以保持其有效性。此外，技术的进步引入了新的校准方法。数字仪器通常配备内置自校准功能，根据环境因素自动调整calibration range。然而，用户仍然必须意识到指定的calibration range以避免误用并确保最佳性能。总之，calibration range是测量领域中的一个基本概念，影响着各个行业。理解其重要性帮助专业人士在工作中保持准确性和可靠性。定期的校准检查、对不同应用特定范围的认识以及先进技术的使用都是有助于有效测量的重要实践。通过优先考虑calibration range，组织可以提高其操作效率，并确保其各自领域的安全。