pulse transmitter

简明释义

脉冲发生器

英英释义

例句

1.In our lab, we use a pulse transmitter for measuring the distance of objects.

在我们的实验室，我们使用脉冲发射器来测量物体的距离。

2.The pulse transmitter is crucial for the operation of the radar system.

该脉冲发射器对于雷达系统的运行至关重要。

3.The pulse transmitter sends signals that can be received by various sensors.

该脉冲发射器发送可以被各种传感器接收的信号。

4.The engineer installed a new pulse transmitter to improve the accuracy of the data collection.

工程师安装了一个新的脉冲发射器以提高数据收集的准确性。

5.For better communication in the network, we upgraded the pulse transmitter system.

为了改善网络中的通信，我们升级了脉冲发射器系统。

作文

In the world of technology and communication, the term pulse transmitter refers to a device that sends out electrical pulses to convey information. This technology is fundamental in various applications, including telecommunications, medical devices, and industrial automation. Understanding how a pulse transmitter works can provide insight into the underlying principles of modern communication systems.A pulse transmitter operates by generating a series of electrical pulses that represent data or signals. These pulses can be modulated in different ways to encode information, such as amplitude modulation (AM) or frequency modulation (FM). The ability to transmit information using pulses allows for efficient communication over long distances, making it an essential component in telecommunication networks.One of the key advantages of using a pulse transmitter is its ability to minimize signal degradation. In traditional analog communication systems, signals can become distorted over long distances due to noise and interference. However, by using digital pulses, the integrity of the transmitted information can be maintained, leading to clearer and more reliable communication.In medical applications, pulse transmitters play a crucial role in monitoring and diagnostics. For instance, in cardiac monitoring devices, these transmitters send electrical signals that indicate the heart's activity. The data collected can be transmitted wirelessly to healthcare providers, allowing for real-time monitoring of patients' health conditions. This timely information can be vital for making quick medical decisions, showcasing the importance of pulse transmitters in saving lives.Furthermore, in industrial automation, pulse transmitters are used to control machinery and processes. They can relay signals to control valves, motors, and other equipment, ensuring that operations run smoothly and efficiently. By automating these processes, industries can increase productivity and reduce human error, demonstrating the versatility of pulse transmitters across different fields.The development of wireless communication technologies has also enhanced the capabilities of pulse transmitters. With advancements in radio frequency (RF) technology, these devices can transmit data without the need for physical connections. This wireless capability has revolutionized how we communicate, allowing for greater mobility and flexibility in both personal and professional settings.However, with the advantages of pulse transmitters come challenges. Security concerns are paramount, especially in applications involving sensitive data. Ensuring that the transmitted pulses are secure from interception or tampering is critical. As technology continues to evolve, researchers and engineers are working on developing more robust encryption methods to protect the integrity of the transmitted information.In conclusion, the pulse transmitter is a vital component in modern communication systems, providing a means to efficiently transmit information across various applications. Its ability to maintain signal integrity, coupled with the advancements in wireless technology, makes it an indispensable tool in fields ranging from telecommunications to healthcare and industrial automation. As we continue to rely on technology for communication, understanding the role of pulse transmitters will help us appreciate the complexities and innovations that drive our connected world.

在科技和通信的世界中，术语脉冲发射器指的是一种发送电信号脉冲以传达信息的设备。这项技术在电信、医疗设备和工业自动化等各种应用中都是基础。了解脉冲发射器的工作原理可以让我们深入理解现代通信系统的基本原理。脉冲发射器通过生成一系列电脉冲来代表数据或信号。这些脉冲可以以不同的方式调制以编码信息，例如幅度调制（AM）或频率调制（FM）。使用脉冲传输信息的能力使得在长距离上进行高效通信成为可能，使其成为电信网络中的重要组成部分。使用脉冲发射器的一个主要优势是能够最小化信号衰减。在传统的模拟通信系统中，由于噪声和干扰，信号在长距离上传输时可能会变得失真。然而，通过使用数字脉冲，可以保持传输信息的完整性，从而实现更清晰、更可靠的通信。在医疗应用中，脉冲发射器在监测和诊断中发挥着至关重要的作用。例如，在心脏监测设备中，这些发射器发送表示心脏活动的电信号。收集的数据可以无线传输给医疗提供者，允许对患者健康状况进行实时监测。这些及时的信息对于快速做出医疗决策至关重要，展示了脉冲发射器在挽救生命中的重要性。此外，在工业自动化中，脉冲发射器用于控制机械和过程。它们可以向阀门、电动机和其他设备发送信号，确保操作平稳高效。通过自动化这些过程，工业可以提高生产力并减少人为错误，展示了脉冲发射器在各个领域的多功能性。无线通信技术的发展也增强了脉冲发射器的能力。随着射频（RF）技术的进步，这些设备可以在没有物理连接的情况下传输数据。这种无线能力彻底改变了我们的通信方式，使个人和专业环境中的移动性和灵活性大大增强。然而，伴随脉冲发射器的优势而来的还有挑战。安全问题尤为重要，尤其是在涉及敏感数据的应用中。确保传输的脉冲不被拦截或篡改至关重要。随着技术的不断发展，研究人员和工程师正在致力于开发更强大的加密方法，以保护传输信息的完整性。总之，脉冲发射器是现代通信系统中的重要组成部分，为在各种应用中高效传输信息提供了手段。其保持信号完整性的能力，加上无线技术的进步，使其在电信、医疗保健和工业自动化等领域成为不可或缺的工具。随着我们继续依赖技术进行通信，理解脉冲发射器的作用将帮助我们欣赏推动我们互联世界的复杂性和创新。