autodyne

简明释义

英[ˈɔːtəʊˌdaɪn]美[ˈɔːtoʊdaɪn]

n. 自差，自差收音机；受信装置；自拍

adj. 受信装置的；自拍的，自差的

英英释义

单词用法

同义词

反义词

例句

1.As for the depth's significance in addition, I always think very very few, because this is the casual autodyne really.

至于此外的深的意义，我总觉得很寥寥，因为这实在不过是随便的自拍。

2.As for the depth's significance in addition, I always think very very few, because this is the casual autodyne really.

至于此外的深的意义，我总觉得很寥寥，因为这实在不过是随便的自拍。

3.The autodyne Doppler radio fuze transmitter-receiver is a important device of fuze remote control setting.

自差式多普勒无线电引信发射和接收装置是引信遥控装定的重要内容。

4.The engineer explained how the autodyne system could improve signal clarity in communication devices.

工程师解释了如何通过自激振荡系统提高通信设备中的信号清晰度。

5.During the presentation, the team showcased the benefits of using autodyne technology in radar systems.

在演示中，团队展示了在雷达系统中使用自激振荡技术的好处。

6.The new autodyne amplifier significantly reduced noise levels in audio applications.

新的自激振荡放大器显著降低了音频应用中的噪声水平。

7.Researchers are exploring autodyne methods for enhancing laser performance.

研究人员正在探索用于增强激光性能的自激振荡方法。

8.The autodyne oscillator was a key component in the design of the new frequency generator.

该自激振荡振荡器是新频率发生器设计中的关键组件。

作文

In the realm of electronics and communication, various technologies have evolved to enhance signal processing and transmission. One such intriguing concept is autodyne, which refers to a method of self-mixing in radio frequency systems. The principle behind autodyne involves the use of feedback within an oscillator circuit to generate a stable frequency output, which can be utilized for various applications. This technology is particularly significant in the development of receivers and transmitters, where precise frequency control is paramount. The term autodyne itself derives from the combination of 'auto', meaning self, and 'dyne', a unit of force. Therefore, it encapsulates the idea of a system that operates on its own, utilizing internal mechanisms to achieve desired outcomes. In practical terms, autodyne systems are often employed in devices such as frequency modulators and demodulators, where they facilitate the process of converting signals from one form to another. One of the notable advantages of autodyne technology is its ability to improve the efficiency of signal processing. By allowing the system to adjust and stabilize its frequency autonomously, it minimizes the need for external tuning and adjustments. This self-regulating feature not only enhances performance but also reduces the complexity of the circuitry involved. As a result, devices utilizing autodyne principles can be more compact and cost-effective, making them appealing options for both manufacturers and consumers alike. Moreover, the application of autodyne extends beyond conventional radio systems. In modern telecommunications, where data transmission rates are critical, the integration of autodyne technology can lead to significant improvements in bandwidth utilization. By optimizing the way signals are processed and transmitted, it ensures that communication systems remain reliable and efficient, even in the face of increasing demand. In conclusion, the concept of autodyne represents a fascinating intersection of innovation and practicality in the field of electronics. Its self-sustaining nature and efficiency make it a valuable tool in enhancing communication technologies. As we continue to advance in the digital age, understanding and leveraging the principles of autodyne will undoubtedly play a crucial role in shaping the future of electronic communication systems. The exploration of such technologies not only broadens our knowledge but also opens doors to new possibilities in the ever-evolving landscape of electronics. In summary, autodyne (自调频) is a vital concept in the field of electronics, representing self-mixing techniques that enhance signal processing and transmission efficiency. Its applications span a wide range of devices, making it an essential element in modern communication systems.

在电子和通信领域，各种技术不断发展，以增强信号处理和传输。其中一个引人注目的概念是autodyne，它指的是一种在射频系统中自混合的方法。autodyne的原理涉及在振荡器电路中使用反馈，以生成稳定的频率输出，这可以用于各种应用。这项技术在接收器和发射器的发展中尤为重要，因为精确的频率控制至关重要。 术语autodyne本身源于“auto”（自我）和“dyne”（力的单位）的组合。因此，它概括了一个系统自我操作的理念，利用内部机制实现所需结果。从实际角度来看，autodyne系统通常被应用于频率调制器和解调器等设备中，帮助将信号从一种形式转换为另一种形式。 autodyne技术的一个显著优势是其提高信号处理效率的能力。通过允许系统自主调整和稳定其频率，它最小化了对外部调谐和调整的需求。这种自我调节特性不仅增强了性能，还减少了电路的复杂性。因此，利用autodyne原理的设备可以更加紧凑且具有成本效益，使其成为制造商和消费者的理想选择。 此外，autodyne的应用超越了传统的无线电系统。在现代电信中，数据传输速率至关重要，集成autodyne技术可以显著改善带宽利用率。通过优化信号的处理和传输方式，它确保通信系统在面对日益增长的需求时保持可靠和高效。 总之，autodyne的概念代表了电子领域创新与实用性的迷人交汇。其自我维持的特性和效率使其成为增强通信技术的重要工具。随着我们在数字时代的不断进步，理解和利用autodyne的原理无疑将在塑造电子通信系统的未来中发挥关键作用。对这些技术的探索不仅拓宽了我们的知识，也为在不断发展的电子领域开辟了新的可能性。 总之，autodyne（自调频）是电子领域中的一个重要概念，代表着增强信号处理和传输效率的自混合技术。它的应用涵盖广泛的设备，使其成为现代通信系统中的一个基本元素。