back connected instrument

简明释义

背面连接式仪器;

英英释义

例句

1.Make sure the back connected instrument 后接仪器 is properly set up before starting the experiment.

在开始实验之前，请确保后接仪器已正确设置。

2.In our lab, we often use a back connected instrument 后接仪器 to calibrate other devices.

在我们的实验室中，我们经常使用后接仪器来校准其他设备。

3.The technician explained how to operate the back connected instrument 后接仪器 for accurate measurements.

技术员解释了如何操作后接仪器以获得准确的测量结果。

4.The back connected instrument 后接仪器 provides real-time data that is essential for our research.

该后接仪器提供实时数据，这对我们的研究至关重要。

5.During the training session, we learned how to troubleshoot the back connected instrument 后接仪器 if it malfunctions.

在培训课程中，我们学习了如何排除故障，如果后接仪器出现故障。

作文

In the realm of scientific instruments, the term back connected instrument refers to devices that utilize a feedback mechanism to enhance their accuracy and performance. These instruments are designed to measure various physical quantities, such as temperature, pressure, or voltage, and they rely on a connection that allows the output to influence the input. This feedback loop is crucial for achieving precise measurements and ensuring that the instrument can adjust its readings based on real-time data. The concept of a back connected instrument is particularly important in fields like engineering and physics, where precision is paramount. For instance, in a temperature control system, a sensor measures the current temperature and sends this information back to the control unit. If the temperature deviates from the desired set point, the control unit can make adjustments to the heating or cooling mechanisms to bring the temperature back to the desired level. This continuous feedback process exemplifies how back connected instruments operate effectively.Moreover, the advantages of using back connected instruments extend beyond mere accuracy. They also contribute to the stability of systems. In many industrial applications, maintaining consistent conditions is vital for operational efficiency. For example, in chemical processing plants, maintaining the correct pressure and temperature is essential to ensure product quality and safety. By employing back connected instruments, operators can monitor these parameters closely and make necessary adjustments automatically, thus preventing potential hazards and improving overall productivity.Another significant aspect of back connected instruments is their role in automation. As industries move towards more automated processes, the reliance on these instruments has grown exponentially. Automated systems equipped with back connected instruments can operate with minimal human intervention, leading to higher efficiency and reduced labor costs. For instance, in modern manufacturing, robots and automated machines often use sensors that are back connected instruments to ensure that they function correctly and adapt to changes in their environment.However, it is essential to recognize that while back connected instruments offer numerous benefits, they also come with challenges. The complexity of these systems can make them difficult to troubleshoot and maintain. If a component within the feedback loop fails, it can lead to incorrect readings and potentially disastrous consequences. Therefore, proper training and understanding of these instruments are crucial for those who operate and maintain them.In conclusion, back connected instruments play a vital role in various scientific and industrial applications by providing accurate measurements and enhancing system stability through feedback mechanisms. Their importance cannot be overstated, especially in an age where precision and automation are key to success in many fields. As technology continues to advance, the development and implementation of back connected instruments will undoubtedly evolve, leading to even greater efficiencies and capabilities in measurement and control systems.

在科学仪器的领域中，术语后连通仪器指的是利用反馈机制来增强其准确性和性能的设备。这些仪器旨在测量各种物理量，如温度、压力或电压，并依赖于一种连接，使输出能够影响输入。这个反馈环路对于实现精确测量至关重要，并确保仪器可以根据实时数据调整其读数。后连通仪器的概念在工程和物理等领域尤为重要，因为在这些领域中，精度至关重要。例如，在温度控制系统中，传感器测量当前温度并将此信息发送回控制单元。如果温度偏离预设值，控制单元可以对加热或冷却机制进行调整，将温度恢复到所需水平。这个持续的反馈过程很好地展示了后连通仪器如何有效运作。此外，使用后连通仪器的优势不仅限于准确性。它们还对系统的稳定性有所贡献。在许多工业应用中，维持一致的条件对于操作效率至关重要。例如，在化工加工厂中，保持正确的压力和温度对于确保产品质量和安全至关重要。通过采用后连通仪器，操作员可以密切监控这些参数，并自动进行必要的调整，从而防止潜在的危险，提高整体生产力。后连通仪器的另一个重要方面是它们在自动化中的作用。随着工业向更自动化的过程发展，对这些仪器的依赖也大幅增加。配备有后连通仪器的自动化系统可以在最小的人为干预下运行，从而提高效率并降低劳动成本。例如，在现代制造业中，机器人和自动化机器通常使用传感器，这些传感器是后连通仪器，以确保它们正常运作并适应环境的变化。然而，必须认识到，尽管后连通仪器提供了众多好处，但它们也面临挑战。这些系统的复杂性可能使其难以排除故障和维护。如果反馈环路中的某个组件发生故障，可能导致不正确的读数，甚至可能导致灾难性的后果。因此，对于操作和维护这些仪器的人来说，适当的培训和理解至关重要。总之，后连通仪器在各种科学和工业应用中发挥着至关重要的作用，通过反馈机制提供准确的测量并增强系统的稳定性。它们的重要性不容小觑，尤其是在精度和自动化是许多领域成功的关键的时代。随着技术的不断进步，后连通仪器的发展和实施无疑会不断演变，从而在测量和控制系统中带来更大的效率和能力。