bilateral transducer

简明释义

双向换能器

英英释义

例句

1.During the experiment, the bilateral transducer allowed for simultaneous data collection.

在实验过程中，双向传感器允许同时收集数据。

2.In the latest robotics project, we utilized a bilateral transducer for better feedback control.

在最新的机器人项目中，我们利用了一个双向传感器以获得更好的反馈控制。

3.The engineer installed a bilateral transducer to improve the communication between the two devices.

工程师安装了一个双向传感器以改善两个设备之间的通信。

4.The bilateral transducer enhances signal processing in both directions.

这个双向传感器增强了双向信号处理。

5.The medical device uses a bilateral transducer to monitor patient vitals accurately.

该医疗设备使用双向传感器来准确监测患者的生命体征。

作文

In the field of engineering and technology, the term bilateral transducer refers to a device that can convert energy from one form to another in both directions. This means that it not only converts energy from an input source into a usable output but can also reverse this process, taking output energy and converting it back into its original form. Such devices are essential in various applications, including audio systems, robotics, and telecommunications. To better understand the significance of a bilateral transducer in modern technology, let us consider its application in audio systems. In traditional audio equipment, speakers convert electrical signals into sound waves, while microphones take sound waves and convert them back into electrical signals. A bilateral transducer serves as both a speaker and a microphone, allowing for two-way communication. This capability is particularly beneficial in devices like smartphones and communication headsets, where users need to both send and receive audio signals seamlessly. The versatility of bilateral transducer technology extends beyond audio applications. In robotics, these devices play a crucial role in enabling machines to interact with their environment. For example, a robot equipped with a bilateral transducer can sense external stimuli (like touch or sound) and respond appropriately by generating a corresponding output (like movement or sound). This bidirectional energy conversion is vital for creating responsive and interactive robotic systems. Furthermore, in telecommunications, bilateral transducer technology enhances the efficiency of data transmission. By allowing for simultaneous sending and receiving of signals, these devices help improve the clarity and speed of communication. This feature is especially important in high-speed internet connections and advanced networking systems, where delays or interruptions can significantly impact performance. The development of bilateral transducer technology has also led to advancements in medical devices. For instance, ultrasound machines utilize bilateral transducers to generate sound waves that penetrate the body and create images of internal organs. The same device then captures the returning echoes and converts them back into electrical signals for imaging analysis. This dual functionality is crucial for non-invasive diagnostics and monitoring, making bilateral transducer technology indispensable in the healthcare sector. In conclusion, the concept of a bilateral transducer is integral to numerous technological advancements across various fields. Its ability to facilitate bidirectional energy conversion enhances the functionality of devices in audio systems, robotics, telecommunications, and medical applications. As technology continues to evolve, the importance of bilateral transducer devices will likely grow, paving the way for more innovative solutions that improve our daily lives. Understanding and harnessing the potential of bilateral transducer technology is essential for future developments in engineering and applied sciences.

在工程和技术领域，术语双向传感器指的是一种能够将能量从一种形式转换为另一种形式的设备，且可以双向进行。这意味着它不仅将输入源的能量转换为可用的输出，还可以逆转这一过程，将输出能量转换回其原始形式。这类设备在音频系统、机器人技术和电信等多种应用中至关重要。为了更好地理解双向传感器在现代技术中的重要性，让我们考虑其在音频系统中的应用。在传统的音频设备中，扬声器将电信号转换为声波，而麦克风则将声波转换回电信号。双向传感器既充当扬声器又充当麦克风，允许双向通信。这一能力在智能手机和通信耳机等设备中尤为有利，因为用户需要无缝地发送和接收音频信号。双向传感器技术的多功能性超越了音频应用。在机器人技术中，这些设备在使机器与环境互动方面发挥着关键作用。例如，配备双向传感器的机器人可以感知外部刺激（如触摸或声音），并通过产生相应的输出（如运动或声音）做出适当反应。这种双向能量转换对创建响应性和互动性的机器人系统至关重要。此外，在电信中，双向传感器技术提高了数据传输的效率。通过允许信号的同时发送和接收，这些设备帮助改善通信的清晰度和速度。这一特性在高速互联网连接和先进的网络系统中尤为重要，因为延迟或中断可能会显著影响性能。双向传感器技术的发展还促进了医疗设备的进步。例如，超声波机器利用双向传感器生成穿透身体的声波，并创建内部器官的图像。同一设备随后捕捉返回的回声，并将其转换回电信号以进行成像分析。这种双重功能对于非侵入性诊断和监测至关重要，使得双向传感器技术在医疗行业中不可或缺。总之，双向传感器的概念在多个领域的技术进步中是不可或缺的。它的双向能量转换能力增强了音频系统、机器人技术、电信和医疗应用中设备的功能。随着技术的不断发展，双向传感器设备的重要性可能会不断增加，为改善我们日常生活的创新解决方案铺平道路。理解和利用双向传感器技术的潜力对未来工程和应用科学的发展至关重要。