interfering frequency
简明释义
干扰频率
英英释义
Interfering frequency refers to a frequency that disrupts or alters the normal operation of a system, often causing unwanted effects in signals or processes. | 干扰频率是指一种频率,它会破坏或改变系统的正常操作,通常导致信号或过程中的不良影响。 |
例句
1.To improve communication, we need to avoid interfering frequency 干扰频率 from nearby devices.
为了改善通信,我们需要避免来自附近设备的interfering frequency 干扰频率。
2.During the experiment, we had to identify the interfering frequency 干扰频率 that affected our measurements.
在实验过程中,我们必须识别出影响我们测量的interfering frequency 干扰频率。
3.The sound engineer used filters to minimize the interfering frequency 干扰频率 in the audio recording.
声音工程师使用滤波器来最小化音频录音中的interfering frequency 干扰频率。
4.The scientist explained how the interfering frequency 干扰频率 could lead to inaccurate data.
科学家解释了如何导致不准确数据的interfering frequency 干扰频率。
5.The radio technician adjusted the settings to eliminate the interfering frequency 干扰频率 that was disrupting the broadcast.
无线电技术员调整了设置,以消除干扰广播的interfering frequency 干扰频率。
作文
In the world of communication systems, the concept of interfering frequency plays a crucial role in ensuring the clarity and efficiency of signal transmission. The term interfering frequency refers to any frequency that disrupts or disturbs the intended signal being transmitted over a communication channel. This disruption can lead to a degradation in the quality of the received signal, making it difficult for the intended message to be decoded accurately. Understanding how interfering frequency operates is essential for engineers and technicians who work in fields such as telecommunications, broadcasting, and radio frequency management.When two or more signals operate at similar frequencies, they can interfere with one another, leading to what is known as interference. This interference can be constructive, where the signals combine to produce a stronger signal, or destructive, where the signals cancel each other out, resulting in a weaker or completely lost signal. The interfering frequency is particularly problematic in crowded frequency bands where multiple devices are trying to communicate simultaneously. For instance, in urban areas, many wireless devices, including cell phones, Wi-Fi routers, and Bluetooth devices, all compete for limited bandwidth, increasing the likelihood of encountering interfering frequency issues.To mitigate the effects of interfering frequency, engineers employ various techniques. One common method is frequency hopping, where a device rapidly switches between different frequencies within a designated band. This approach reduces the chances of encountering persistent interference from a specific source. Additionally, advanced filtering techniques can be used to isolate the desired signal from unwanted frequencies. By designing filters that target specific frequencies, engineers can effectively minimize the impact of interfering frequency on the overall communication system.Another important aspect of managing interfering frequency is understanding the sources of interference. These sources can be natural, such as lightning or atmospheric conditions, or man-made, such as electronic devices and machinery. Identifying the origin of interference is critical in developing strategies to reduce its impact. For example, if a certain electronic device is found to consistently cause interference, it may be necessary to relocate it or implement shielding to prevent it from affecting nearby communication systems.In conclusion, the concept of interfering frequency is vital in the field of communication technology. As our reliance on wireless communication continues to grow, understanding and managing interfering frequency becomes increasingly important. Engineers must remain vigilant in monitoring and addressing interference issues to ensure that communication systems function effectively and reliably. By employing various techniques to mitigate the effects of interfering frequency, we can enhance the quality of our communication networks and provide clearer, more reliable connections for users around the world.
在通信系统的世界中,干扰频率的概念在确保信号传输的清晰度和效率方面发挥着至关重要的作用。干扰频率一词指的是任何破坏或干扰通过通信通道传输的预期信号的频率。这种干扰可能导致接收信号质量的下降,使得难以准确解码预期的信息。理解干扰频率的运作方式对于在电信、广播和射频管理等领域工作的工程师和技术人员至关重要。当两个或多个信号在相似频率下工作时,它们可能会相互干扰,这被称为干扰。这种干扰可以是建设性的,即信号结合产生更强的信号,或者是破坏性的,即信号相互抵消,导致信号减弱或完全丧失。干扰频率在拥挤的频带中尤其成问题,在这些频带中,多个设备试图同时通信。例如,在城市地区,许多无线设备,包括手机、Wi-Fi路由器和蓝牙设备,都在争夺有限的带宽,从而增加了遇到干扰频率问题的可能性。为了减轻干扰频率的影响,工程师采用各种技术。一种常见的方法是频率跳变,即设备在指定频带内快速切换不同的频率。这种方法减少了遇到特定来源的持续干扰的机会。此外,可以使用先进的过滤技术将所需信号与不必要的频率隔离开来。通过设计针对特定频率的滤波器,工程师可以有效地最小化干扰频率对整体通信系统的影响。管理干扰频率的另一个重要方面是了解干扰源。这些源可以是自然的,如闪电或大气条件,也可以是人为的,如电子设备和机械。识别干扰的来源对于制定减少其影响的策略至关重要。例如,如果发现某个电子设备持续造成干扰,可能需要重新安置它或实施屏蔽,以防止其影响附近的通信系统。总之,干扰频率的概念在通信技术领域至关重要。随着我们对无线通信的依赖不断增长,理解和管理干扰频率变得愈加重要。工程师必须保持警惕,监测和解决干扰问题,以确保通信系统有效且可靠地运行。通过采用各种技术来减轻干扰频率的影响,我们可以增强通信网络的质量,为全球用户提供更清晰、更可靠的连接。
相关单词
