impulse transmitter

简明释义

脉冲发送器

英英释义

例句

1.We installed a new impulse transmitter 脉冲发射器 to improve the efficiency of our monitoring system.

我们安装了一个新的脉冲发射器以提高监控系统的效率。

2.The impulse transmitter 脉冲发射器 was calibrated to ensure accurate readings.

为了确保读数准确，脉冲发射器进行了校准。

3.The engineer explained how the impulse transmitter 脉冲发射器 works in the communication system.

工程师解释了脉冲发射器在通信系统中的工作原理。

4.The impulse transmitter 脉冲发射器 allows for quick data transmission in industrial applications.

在工业应用中，脉冲发射器允许快速数据传输。

5.In robotics, an impulse transmitter 脉冲发射器 is essential for sending signals to motors.

在机器人技术中，脉冲发射器对于向电机发送信号至关重要。

作文

In the realm of modern technology, communication and information transfer play a pivotal role in connecting individuals and systems. One fascinating component that contributes to this intricate web of connectivity is the impulse transmitter, a device that facilitates the transmission of signals over various distances. Understanding the function and significance of an impulse transmitter can enhance our appreciation of the technologies we often take for granted.An impulse transmitter is essentially a device designed to send electrical signals or impulses from one point to another. These signals can represent data, voice, or even visual information. The beauty of an impulse transmitter lies in its ability to convert these signals into a form that can be easily transmitted through different mediums, such as wires, fiber optics, or even wireless channels. This conversion process is crucial, as it allows for effective communication across vast distances, enabling everything from simple phone calls to complex data exchanges between computers.One of the primary applications of an impulse transmitter is in telecommunications. In this field, the device is responsible for encoding voice signals into electrical impulses that can travel through telephone lines. When you speak into a phone, your voice creates sound waves that are converted into electrical signals by the impulse transmitter. These signals then travel along the communication network, allowing your voice to be heard by the person on the other end of the line. This process occurs in mere milliseconds, showcasing the efficiency and speed of modern communication technology.Moreover, impulse transmitters are not limited to telecommunications; they are also widely used in various industrial applications. For instance, in automation systems, these devices can transmit control signals to machinery, ensuring seamless operation and coordination. In the context of robotics, an impulse transmitter might send commands to robotic arms, allowing them to perform precise movements based on real-time data inputs. This capability highlights the versatility of impulse transmitters in enhancing productivity and efficiency across different sectors.In the medical field, the importance of impulse transmitters cannot be overstated. Medical devices, such as pacemakers or telemetry systems, rely on these transmitters to monitor and regulate vital signs. For example, a pacemaker uses an impulse transmitter to send electrical impulses to the heart, ensuring it beats at a regular rhythm. This application not only saves lives but also improves the quality of life for countless individuals suffering from heart conditions.Furthermore, the evolution of technology has led to the development of advanced impulse transmitters capable of operating in diverse environments. From space exploration, where reliable communication is critical, to underwater applications, these devices have shown remarkable adaptability. The integration of digital technologies has further enhanced their performance, allowing for faster and more secure data transmission.In conclusion, the impulse transmitter is a fundamental component in the landscape of modern communication and technology. Its ability to facilitate the rapid transfer of information has transformed how we connect with one another and interact with machines. As technology continues to evolve, the role of impulse transmitters will undoubtedly expand, paving the way for new innovations and applications. By understanding the significance of these devices, we can better appreciate the intricate systems that underpin our daily lives and the technological advancements that shape our future.

在现代技术的领域中，通信和信息传输在连接个人和系统方面发挥着关键作用。一个有趣的组件是冲动发射器，它促进了信号在不同距离之间的传输。理解冲动发射器的功能和重要性可以增强我们对常被忽视的技术的欣赏。冲动发射器本质上是一种旨在将电信号或脉冲从一个点发送到另一个点的设备。这些信号可以代表数据、声音甚至视觉信息。冲动发射器的美在于它能够将这些信号转换为易于通过不同媒介（如电缆、光纤甚至无线通道）传输的形式。这个转换过程至关重要，因为它允许在广泛的距离内有效沟通，使得从简单的电话通话到计算机间的复杂数据交换成为可能。冲动发射器的主要应用之一是在电信领域。在这个领域，设备负责将语音信号编码成可以通过电话线路传输的电脉冲。当你在电话中说话时，你的声音产生的声波被冲动发射器转换为电信号。这些信号随后沿着通信网络传播，使得你的声音能够被另一端的人听到。这个过程发生在毫秒之间，展示了现代通信技术的效率和速度。此外，冲动发射器不仅限于电信，它们还广泛应用于各种工业应用。例如，在自动化系统中，这些设备可以向机器传递控制信号，确保无缝操作和协调。在机器人技术中，冲动发射器可以向机器人手臂发送命令，使其根据实时数据输入执行精确的动作。这一能力突显了冲动发射器在提高各个行业的生产力和效率方面的多功能性。在医疗领域，冲动发射器的重要性不可小觑。医疗设备，如心脏起搏器或遥测系统，依赖这些发射器来监测和调节生命体征。例如，心脏起搏器使用冲动发射器向心脏发送电脉冲，确保其以规律的节奏跳动。这一应用不仅挽救了生命，还改善了无数患有心脏疾病的人的生活质量。此外，技术的演变导致了先进的冲动发射器的发展，能够在各种环境中运行。从太空探索到水下应用，这些设备展现了卓越的适应性。数字技术的整合进一步提升了它们的性能，使得更快和更安全的数据传输成为可能。总之，冲动发射器是现代通信和技术领域的基础组件。它促进信息快速传输的能力改变了我们彼此之间的连接方式以及与机器的互动方式。随着技术的不断发展，冲动发射器的角色无疑会扩大，为新的创新和应用铺平道路。通过理解这些设备的重要性，我们可以更好地欣赏支撑我们日常生活的复杂系统以及塑造我们未来的技术进步。