compensated regulator

简明释义

补偿稳压器

英英释义

例句

1.When calibrating the gas supply, a compensated regulator is essential for accuracy.

在校准气体供应时，使用补偿调节器对于精确性至关重要。

2.The compensated regulator ensures that variations in load do not affect the output pressure.

该补偿调节器确保负载变化不会影响输出压力。

3.The design of the heating system includes a compensated regulator to maintain stable temperatures.

该供暖系统的设计包括一个补偿调节器以维持稳定的温度。

4.In our laboratory, we use a compensated regulator for precise control of fluid pressure.

在我们的实验室中，我们使用一个补偿调节器来精确控制流体压力。

5.Our new model features an advanced compensated regulator for better performance.

我们的新型号配备了先进的补偿调节器以提高性能。

作文

In modern engineering and control systems, the concept of a compensated regulator plays a crucial role in ensuring stability and performance. A compensated regulator is a type of control device that adjusts its output to maintain the desired performance of a system, even in the presence of disturbances or changes in operating conditions. This adaptability is vital in various applications, including industrial automation, robotics, and aerospace engineering.The primary function of a compensated regulator is to provide a stable output despite fluctuations in input or environmental factors. For example, consider a temperature control system in a manufacturing plant. If the ambient temperature changes due to external weather conditions, a standard regulator might struggle to maintain the desired temperature for the processes involved. However, a compensated regulator would automatically adjust its settings to counteract these changes, ensuring that the production environment remains optimal.One of the key features of a compensated regulator is its ability to incorporate feedback mechanisms that continuously monitor the system's performance. By analyzing the output and comparing it to the desired setpoint, the regulator can make real-time adjustments. This feedback loop is essential for maintaining control over dynamic systems where conditions can change rapidly.Additionally, the design of a compensated regulator often involves sophisticated algorithms and mathematical models that predict how the system will respond to various inputs. These predictive capabilities allow engineers to fine-tune the regulator’s parameters, enhancing its responsiveness and accuracy. In industries such as aerospace, where precision is paramount, the use of compensated regulators ensures that critical systems, like flight control, operate safely and efficiently.Furthermore, the implementation of a compensated regulator can lead to significant cost savings for companies. By maintaining optimal operating conditions, businesses can reduce waste, improve product quality, and lower energy consumption. In a world increasingly focused on sustainability, these benefits align with the goals of reducing environmental impact while maximizing efficiency.In conclusion, the importance of a compensated regulator cannot be overstated in today’s technological landscape. Its ability to adapt to changing conditions, coupled with advanced feedback mechanisms and predictive algorithms, makes it an indispensable tool in various fields of engineering. As industries continue to evolve and face new challenges, the role of compensated regulators will likely expand, paving the way for innovations that enhance both performance and sustainability. Understanding this concept is essential for professionals in the field, as it embodies the principles of control theory and its application in real-world scenarios.

在现代工程和控制系统中，补偿调节器的概念在确保稳定性和性能方面发挥着至关重要的作用。补偿调节器是一种控制装置，它通过调整输出以保持系统的期望性能，即使在干扰或操作条件变化的情况下。这种适应性在工业自动化、机器人技术和航空航天工程等各种应用中至关重要。补偿调节器的主要功能是尽管输入或环境因素波动，仍然提供稳定的输出。例如，考虑一个制造厂的温度控制系统。如果由于外部天气条件而导致环境温度变化，标准调节器可能会难以维持所需的工艺温度。然而，补偿调节器会自动调整其设置，以抵消这些变化，确保生产环境保持最佳。补偿调节器的一个关键特征是其能够结合反馈机制，持续监测系统的性能。通过分析输出并将其与期望的设定点进行比较，调节器可以实时进行调整。这个反馈循环对于维护动态系统的控制至关重要，因为这些系统的条件可能会迅速变化。此外，补偿调节器的设计通常涉及复杂的算法和数学模型，这些模型预测系统将如何响应各种输入。这些预测能力使工程师能够微调调节器的参数，增强其响应性和准确性。在航空航天等对精度要求极高的行业中，补偿调节器的使用确保了诸如飞行控制等关键系统的安全和高效运行。此外，实施补偿调节器可以为公司带来显著的成本节约。通过维持最佳操作条件，企业可以减少浪费，提高产品质量，降低能源消耗。在一个日益关注可持续发展的世界中，这些好处与减少环境影响和最大化效率的目标相一致。总之，补偿调节器的重要性在当今技术环境中不可低估。它适应变化条件的能力，加上先进的反馈机制和预测算法，使其成为各个工程领域不可或缺的工具。随着行业的不断发展和面临新挑战，补偿调节器的角色可能会扩大，为提升性能和可持续性铺平道路。理解这一概念对该领域的专业人士至关重要，因为它体现了控制理论及其在现实场景中的应用原则。