transmission level

简明释义

传输电平

英英释义

The transmission level refers to the stage or degree at which data or signals are transmitted over a communication medium.

传输水平是指通过通信媒介传输数据或信号的阶段或程度。

In telecommunications, transmission level can indicate the power or quality of the signal being sent.

在电信中,传输水平可以表示发送信号的功率或质量。

例句

1.A high transmission level can lead to interference in communication systems.

传输水平可能导致通信系统中的干扰。

2.The network's transmission level was too low, causing frequent dropouts.

网络的传输水平太低,导致频繁掉线。

3.The technician adjusted the transmission level to optimize signal strength.

技术员调整了传输水平以优化信号强度。

4.Engineers are assessing the transmission level in various locations.

工程师正在评估不同地点的传输水平

5.During the testing phase, we monitored the transmission level to ensure quality.

在测试阶段,我们监测了传输水平以确保质量。

作文

In the field of telecommunications, the term transmission level refers to the specific stage at which data or signals are transmitted from one point to another. Understanding the transmission level is crucial for engineers and technicians who work with communication systems, as it directly impacts the quality and reliability of the data being sent. The transmission level can be influenced by various factors, including the type of medium used for transmission, the distance between transmitters and receivers, and environmental conditions.For instance, in fiber optic communication, the transmission level is determined by the light signals that travel through the optical fibers. Engineers must ensure that the signal strength remains above a certain threshold to maintain clarity and minimize loss. If the transmission level drops too low, the data may become corrupted, resulting in errors or lost information. This is why monitoring and adjusting the transmission level is essential in maintaining effective communication systems.In addition to telecommunications, the concept of transmission level can also be applied in other fields, such as audio engineering. In this context, the transmission level refers to the strength of an audio signal as it travels through various devices, such as microphones, mixers, and amplifiers. A balanced transmission level ensures that the sound quality is preserved, preventing distortion or unwanted noise.Moreover, understanding the transmission level is vital when designing networks. Network architects must consider how different components will interact and affect the overall transmission level. For example, if a network experiences high traffic, the transmission level may decrease, leading to slower data transfer rates. To mitigate this issue, network designers often implement strategies such as load balancing or upgrading hardware to enhance the transmission level.The importance of the transmission level extends beyond technical aspects; it also has significant implications for user experience. A stable and high transmission level leads to faster internet speeds, clearer phone calls, and better streaming quality. In contrast, a poor transmission level can result in frustrating experiences, such as buffering during videos or dropped calls. Therefore, service providers must continuously monitor and optimize their systems to ensure that the transmission level remains at an optimal level for consumers.In conclusion, the transmission level is a fundamental concept in telecommunications and audio engineering that affects the quality and reliability of data and signals. Whether in a fiber optic network or an audio setup, maintaining an appropriate transmission level is critical for achieving optimal performance. As technology continues to evolve, understanding and managing the transmission level will remain an essential skill for professionals in these fields, ensuring that users receive the best possible experience in their communications and media consumption.

在电信领域,术语transmission level指的是数据或信号从一个点传输到另一个点的特定阶段。理解transmission level对于从事通信系统工作的工程师和技术人员至关重要,因为它直接影响所发送数据的质量和可靠性。transmission level可以受到多种因素的影响,包括用于传输的介质类型、发射器和接收器之间的距离以及环境条件。例如,在光纤通信中,transmission level由通过光纤传播的光信号决定。工程师必须确保信号强度保持在某个阈值之上,以保持清晰度并最小化损失。如果transmission level过低,数据可能会被损坏,导致错误或丢失信息。这就是为什么监测和调整transmission level对于维护有效的通信系统至关重要。除了电信,transmission level的概念也可以应用于其他领域,例如音频工程。在这种情况下,transmission level指的是音频信号在各种设备(如麦克风、混音器和放大器)之间传输的强度。平衡的transmission level确保声音质量得以保留,防止失真或不必要的噪声。此外,理解transmission level在设计网络时至关重要。网络架构师必须考虑不同组件如何相互作用并影响整体transmission level。例如,如果网络经历高流量,transmission level可能会降低,导致数据传输速度变慢。为了减轻这个问题,网络设计师通常实施负载均衡或升级硬件等策略,以增强transmission leveltransmission level的重要性不仅限于技术方面;它对用户体验也有重大影响。稳定且高的transmission level带来更快的互联网速度、更清晰的电话通话和更好的流媒体质量。相反,较差的transmission level可能导致令人沮丧的体验,例如视频缓冲或通话中断。因此,服务提供商必须持续监测和优化其系统,以确保transmission level保持在消费者的最佳水平。总之,transmission level是电信和音频工程中的基本概念,影响数据和信号的质量和可靠性。无论是在光纤网络还是音频设置中,保持适当的transmission level对于实现最佳性能至关重要。随着技术的不断发展,理解和管理transmission level将继续成为这些领域专业人士必备的技能,确保用户在通信和媒体消费中获得最佳体验。