transmission efficiency

简明释义

传动效率

英英释义

例句

1.A higher transmission efficiency 传输效率 means better performance for our audio and video streaming services.

更高的传输效率意味着我们的音频和视频流媒体服务表现更好。

2.Engineers are working to enhance the transmission efficiency 传输效率 of the power grid to reduce energy loss.

工程师们正在努力提高电网的传输效率以减少能源损失。

3.Researchers are studying ways to improve the transmission efficiency 传输效率 of data in satellite communications.

研究人员正在研究提高卫星通信中数据的传输效率的方法。

4.The new fiber optic cables have significantly improved the transmission efficiency 传输效率 of our internet service.

新的光纤电缆显著提高了我们互联网服务的传输效率。

5.In wireless communication, the transmission efficiency 传输效率 can be affected by environmental factors.

在无线通信中，传输效率可能会受到环境因素的影响。

作文

In the modern world, the concept of transmission efficiency (传输效率) has become increasingly significant across various fields, including telecommunications, electrical engineering, and data transmission. Understanding this term is crucial for anyone involved in these industries, as it directly impacts the performance and reliability of systems designed to transmit information or power.To begin with, transmission efficiency refers to the ratio of useful output to the total input in a system that transmits energy or information. In simpler terms, it measures how effectively a system can send data or energy from one point to another without loss. High transmission efficiency means that most of the input energy or data is successfully transmitted, while low efficiency indicates that a significant portion is lost during the process.For instance, consider a telecommunications network. The transmission efficiency of this network determines how much of the data sent from one user reaches another without being degraded or lost. Factors such as signal strength, interference, and the quality of the transmission medium (like fiber optic cables or wireless signals) can all influence this efficiency. Improving transmission efficiency in this context often involves upgrading equipment, optimizing routing protocols, or enhancing the physical infrastructure.In electrical engineering, transmission efficiency is equally vital. When electricity travels through power lines, some energy is inevitably lost as heat due to resistance in the wires. Engineers strive to maximize transmission efficiency by using materials with lower resistance, minimizing the distance electricity must travel, and employing technologies like high-voltage transmission, which reduces current and thus power losses.Moreover, in the realm of data transmission, particularly in computer networks, transmission efficiency plays a critical role in ensuring fast and reliable communication between devices. This efficiency can be affected by factors such as bandwidth, latency, and packet loss. Network engineers continuously work on optimizing these parameters to enhance transmission efficiency, which ultimately leads to better user experiences, especially in applications requiring real-time data transfer, such as video conferencing and online gaming.The importance of transmission efficiency extends beyond technical considerations. It also has economic implications. Higher efficiency translates to lower operational costs, as less energy or bandwidth is wasted. For businesses, this can mean increased profitability and competitiveness in the market. Additionally, as the world becomes more focused on sustainability, improving transmission efficiency is a step towards reducing energy consumption and minimizing environmental impact.In conclusion, transmission efficiency (传输效率) is a fundamental concept that permeates various sectors, influencing both the technical performance of systems and their economic viability. As technology continues to advance, the quest for higher transmission efficiency will remain a key focus for engineers and businesses alike. By understanding and improving this efficiency, we can ensure that our systems are not only effective but also sustainable and cost-efficient in the long run.