transductor
简明释义
英[trænzˈdʌktə(r)]美[trænzˈdʌktər]
n. [电] 饱和电抗器
英英释义
A transductor is a device that converts one form of energy into another, typically used in the context of signal processing or measurement. | 变换器是一种将一种能量形式转换为另一种能量形式的设备,通常用于信号处理或测量的上下文中。 |
单词用法
电变换器 | |
机械变换器 | |
信号变换器 | |
变换器电路 |
同义词
反义词
| 接收器 | The receptor converts signals from the environment into neural impulses. | 接收器将来自环境的信号转换为神经冲动。 | |
| 绝缘体 | 绝缘体阻止电流的流动。 |
例句
1.This paper presents a theoretical analysis on the electromagnetic process of three-phase magnetic amplifier of the transductor type with bridge rectifier output circuit .
本文对工作绕组为串联或并联的三相扼流磁放大器(带桥式整流输出)的电磁过程进行了理论分析;
2.This paper presents a theoretical analysis on the electromagnetic process of three-phase magnetic amplifier of the transductor type with bridge rectifier output circuit .
本文对工作绕组为串联或并联的三相扼流磁放大器(带桥式整流输出)的电磁过程进行了理论分析;
3.A piezoelectric transductor can generate voltage when subjected to mechanical stress.
压电传感器在受到机械压力时可以产生电压。
4.We need to replace the faulty transductor in the audio system to restore sound quality.
我们需要更换音频系统中故障的传感器以恢复音质。
5.The transductor used in this experiment helps to measure temperature changes accurately.
在这个实验中使用的传感器有助于准确测量温度变化。
6.In medical devices, a transductor is essential for monitoring patient vital signs.
在医疗设备中,传感器对于监测患者的生命体征至关重要。
7.The engineer designed a new transductor that converts sound waves into electrical signals.
工程师设计了一种新的传感器,将声波转换为电信号。
作文
In the realm of electronics and communication, the term transductor (变换器) plays a crucial role in the functioning of various devices. A transductor is essentially a device that converts one form of energy into another, enabling the seamless interaction between different systems. This conversion can occur between electrical signals, mechanical movements, or even thermal energy, depending on the application at hand. Understanding how transductors work is fundamental for anyone interested in the fields of engineering, telecommunications, or even robotics.For instance, in the field of audio engineering, a common example of a transductor is a microphone. A microphone takes sound waves, which are mechanical energy, and converts them into electrical signals. This process allows us to record, amplify, and transmit sound over long distances. The transductor here acts as a bridge between the physical world of sound and the electronic world of signals, demonstrating its importance in modern communication.Similarly, loudspeakers also function as transductors. They take electrical signals and convert them back into sound waves, allowing us to hear music, speeches, and other audio content. This two-way conversion highlights the versatility of transductors in various applications. Without these devices, our ability to communicate and enjoy audio experiences would be severely limited.In addition to audio applications, transductors are also found in temperature sensors, which convert thermal energy into electrical signals. These sensors are essential in many industries, including manufacturing and healthcare, where monitoring temperature is critical. For example, a thermocouple is a type of transductor that generates a voltage based on temperature differences, allowing for accurate temperature readings. This capability is vital for ensuring safety and efficiency in numerous processes.The concept of transductors extends beyond just simple conversions; it also involves the idea of signal processing. In modern electronics, many devices utilize complex algorithms to interpret and manipulate the signals generated by transductors. This integration of hardware and software enhances the functionality of devices, making them smarter and more efficient.Moreover, in the field of robotics, transductors are integral to the operation of actuators and sensors. Actuators often serve as transductors by converting electrical signals into mechanical movement, enabling robots to perform tasks. Sensors, on the other hand, can act as transductors by converting physical phenomena (like light, pressure, or motion) into electrical signals that robots can process and respond to. This interplay between transductors and robotic systems showcases the essential role they play in advancing technology.In conclusion, the significance of transductors (变换器) in our daily lives cannot be overstated. From audio devices to temperature sensors and robotic systems, transductors facilitate the conversion of energy forms that allow for interaction between different systems. As technology continues to evolve, the importance of understanding and improving transductors will only increase, paving the way for new innovations and advancements across various fields. Therefore, grasping the concept of transductors is vital for anyone aspiring to make a mark in the technological landscape of the future.
在电子和通信领域,术语transductor(变换器)在各种设备的功能中发挥着至关重要的作用。transductor 本质上是一种将一种能量形式转换为另一种能量形式的设备,使不同系统之间能够无缝交互。这种转换可以发生在电信号、机械运动甚至热能之间,具体取决于手头的应用。理解transductors 的工作原理对于任何对工程、通信或甚至机器人技术感兴趣的人来说都是基础。例如,在音频工程领域,一个常见的 transductor 示例是麦克风。麦克风将声波(机械能)转换为电信号。这一过程使我们能够录制、放大和远距离传输声音。这里的transductor充当了物理世界声音与电子世界信号之间的桥梁,展示了它在现代通信中的重要性。同样,扬声器也作为transductors运作。它们将电信号转换回声波,使我们能够听到音乐、演讲和其他音频内容。这种双向转换突显了transductors在各种应用中的多功能性。没有这些设备,我们的沟通能力和享受音频体验的能力将受到严重限制。除了音频应用,transductors还出现在温度传感器中,这些传感器将热能转换为电信号。这些传感器在许多行业中至关重要,包括制造业和医疗保健,其中监测温度是关键。例如,热电偶是一种类型的transductor,它根据温度差产生电压,从而允许准确的温度读数。这种能力对于确保许多过程的安全和效率至关重要。transductors的概念不仅仅涉及简单的转换;它还涉及信号处理的概念。在现代电子设备中,许多设备利用复杂的算法来解释和处理由transductors生成的信号。这种硬件和软件的集成增强了设备的功能,使其更智能、更高效。此外,在机器人技术领域,transductors是驱动器和传感器操作的核心。驱动器通常充当transductors,将电信号转换为机械运动,使机器人能够执行任务。另一方面,传感器可以充当transductors,通过将物理现象(如光、压力或运动)转换为电信号,使机器人能够处理和响应。这种transductors与机器人系统之间的相互作用展示了它们在推动技术进步中的重要角色。总之,transductors(变换器)在我们日常生活中的重要性不可低估。从音频设备到温度传感器和机器人系统,transductors促进了能量形式的转换,使不同系统之间能够进行交互。随着技术的不断发展,理解和改进transductors的重要性只会增加,为各个领域的新创新和进步铺平道路。因此,掌握transductors的概念对于任何希望在未来技术领域留下印记的人来说都是至关重要的。
