electronic tuning

简明释义

电子党

英英释义

例句

1.The new radio features advanced electronic tuning, allowing users to find their favorite stations easily.

这款新收音机具有先进的电子调谐功能，使用户能够轻松找到他们喜欢的电台。

2.The electronic tuning in this device ensures that it remains stable even in varying conditions.

这个设备中的电子调谐确保它在不同条件下保持稳定。

3.With electronic tuning, the car's audio system can automatically adjust to the best frequency for clear sound.

通过电子调谐，汽车音响系统可以自动调整至最佳频率，以获得清晰的声音。

4.Many modern televisions use electronic tuning to quickly scan and store channels.

许多现代电视使用电子调谐快速扫描和存储频道。

5.The synthesizer's electronic tuning allows musicians to create a wide range of sounds.

合成器的电子调谐功能使音乐家能够创造出各种声音。

作文

In the world of technology, the term electronic tuning refers to the process of adjusting and optimizing electronic devices to achieve desired performance levels. This concept is particularly prevalent in the fields of radio communications, audio equipment, and even automotive engineering. The significance of electronic tuning lies in its ability to enhance the functionality and efficiency of various systems, making it a critical aspect of modern electronics.To understand electronic tuning, we must first consider how electronic devices operate. Most electronic systems rely on specific frequencies to function correctly, whether it be a radio receiver picking up signals or an engine control unit managing fuel injection. Electronic tuning allows engineers and technicians to fine-tune these frequencies, ensuring optimal performance. For example, in radio communications, electronic tuning can help eliminate interference and improve signal clarity, allowing for clearer communication over long distances.One of the most notable applications of electronic tuning is in the realm of audio equipment. Musicians and sound engineers often use devices that incorporate electronic tuning to adjust sound frequencies, improving audio quality for live performances or recordings. This process not only enhances the listening experience but also allows for greater artistic expression. By manipulating sound waves through electronic tuning, artists can create unique soundscapes that resonate with their audiences.Moreover, electronic tuning plays a vital role in automotive engineering. Modern vehicles are equipped with sophisticated electronic systems that manage everything from engine performance to entertainment features. Through electronic tuning, automotive engineers can optimize these systems for better fuel efficiency, increased power output, and enhanced safety features. For instance, by adjusting the engine's electronic control unit, engineers can improve throttle response and reduce emissions, contributing to a more sustainable driving experience.The evolution of electronic tuning has been significantly influenced by advancements in technology. With the rise of digital signal processing (DSP), the ability to conduct electronic tuning has become more precise and efficient. DSP allows for real-time adjustments, enabling users to modify settings on-the-fly, which is particularly useful in live sound environments. This technological leap has transformed how we approach electronic tuning, making it more accessible to both professionals and amateurs alike.As we look to the future, the importance of electronic tuning will only continue to grow. With the increasing integration of smart technology into our daily lives, the demand for finely tuned electronic systems will rise. From smart home devices that adjust lighting and temperature based on user preferences to advanced communication systems that require minimal interference, electronic tuning will be at the forefront of innovation.In conclusion, electronic tuning is a fundamental aspect of modern electronics that allows for the optimization of various systems across multiple industries. Its applications range from enhancing audio quality to improving vehicle performance, showcasing its versatility and importance. As technology continues to advance, the role of electronic tuning will be crucial in shaping the future of electronic devices, ensuring they meet the ever-evolving demands of users around the world.

在科技的世界里，术语电子调谐指的是调整和优化电子设备以达到期望性能水平的过程。这个概念在无线通信、音频设备甚至汽车工程等领域尤为普遍。电子调谐的重要性在于它能够提高各种系统的功能和效率，使其成为现代电子学的一个关键方面。要理解电子调谐，我们首先必须考虑电子设备的工作原理。大多数电子系统依赖于特定的频率才能正常运行，无论是无线电接收器接收信号，还是发动机控制单元管理燃油喷射。电子调谐使工程师和技术人员能够微调这些频率，确保最佳性能。例如，在无线通信中，电子调谐可以帮助消除干扰，提高信号清晰度，从而实现更清晰的远程通信。电子调谐最显著的应用之一是在音频设备领域。音乐家和音响工程师经常使用包含电子调谐的设备来调整声音频率，提高现场表演或录音的音质。这个过程不仅增强了听觉体验，还允许更大的艺术表现力。通过电子调谐操控声波，艺术家可以创造出与观众产生共鸣的独特音景。此外，电子调谐在汽车工程中也发挥着至关重要的作用。现代车辆配备了复杂的电子系统，管理从发动机性能到娱乐功能的一切。通过电子调谐，汽车工程师可以优化这些系统，以提高燃油效率、增加动力输出和增强安全特性。例如，通过调整发动机的电子控制单元，工程师可以改善油门响应并减少排放，从而为驾驶体验的可持续性做出贡献。电子调谐的演变受到科技进步的显著影响。随着数字信号处理（DSP）的兴起，进行电子调谐的能力变得更加精确和高效。DSP允许实时调整，使用户能够即时修改设置，这在现场音响环境中特别有用。这一技术飞跃改变了我们对电子调谐的处理方式，使其对专业人士和业余爱好者都更易于获取。展望未来，电子调谐的重要性只会继续增长。随着智能技术日益融入我们的日常生活，对精细调谐电子系统的需求将上升。从根据用户偏好调整照明和温度的智能家居设备，到需要最小干扰的先进通信系统，电子调谐将在创新的前沿。总之，电子调谐是现代电子学的一个基本方面，它允许对多个行业中的各种系统进行优化。它的应用范围从增强音频质量到改善车辆性能，展示了它的多样性和重要性。随着技术的不断进步，电子调谐的角色将在塑造电子设备的未来中发挥关键作用，确保它们满足全球用户不断变化的需求。