maximum transmitting efficiency

简明释义

最高发射效率

英英释义

例句

1.The new antenna design achieves maximum transmitting efficiency, allowing for clearer signals over longer distances.

新的天线设计实现了最大传输效率，使得信号在更远的距离上更加清晰。

2.By adjusting the frequency, we can achieve maximum transmitting efficiency in our broadcasting system.

通过调整频率，我们可以在广播系统中实现最大传输效率。

3.The research paper discusses methods to enhance maximum transmitting efficiency in fiber optic cables.

这篇研究论文讨论了增强光纤电缆中最大传输效率的方法。

4.Engineers are working to optimize the circuit for maximum transmitting efficiency in wireless communication systems.

工程师们正在优化电路，以实现无线通信系统的最大传输效率。

5.For solar panels, achieving maximum transmitting efficiency is crucial for maximizing energy output.

对于太阳能电池板，实现最大传输效率对最大化能量输出至关重要。

作文

In the world of telecommunications and signal processing, achieving maximum transmitting efficiency is a crucial goal for engineers and researchers alike. The term maximum transmitting efficiency refers to the highest possible effectiveness with which information can be transmitted from one point to another, minimizing losses and maximizing clarity. This concept is essential in various fields, including wireless communication, optical fibers, and even power transmission systems.To understand why maximum transmitting efficiency is so important, we must first consider the challenges inherent in transmitting signals over distances. Every time a signal travels through a medium, whether it be air, fiber optics, or electrical wires, some energy is lost due to factors such as resistance, interference, and distortion. These losses can lead to degraded signal quality, making it difficult for the receiver to accurately interpret the information being sent.For instance, in wireless communication, factors like atmospheric conditions, obstacles, and interference from other electronic devices can significantly impact the strength and quality of a transmitted signal. Engineers work tirelessly to develop technologies and methods that enhance maximum transmitting efficiency, ensuring that signals are transmitted clearly and effectively regardless of external conditions.One approach to achieving maximum transmitting efficiency is through the use of advanced modulation techniques. Modulation involves altering a carrier signal in order to encode the information being sent. By employing sophisticated modulation schemes, such as Quadrature Amplitude Modulation (QAM) or Orthogonal Frequency Division Multiplexing (OFDM), engineers can significantly improve the amount of data transmitted within a given bandwidth, thereby enhancing overall efficiency.Another critical aspect of maximum transmitting efficiency is the design of antennas and transmission lines. Antenna design plays a vital role in determining how well a signal can be transmitted and received. High-gain antennas, for example, focus energy in specific directions, resulting in stronger signals and reduced interference. Similarly, optimizing transmission lines to minimize resistance and reflections can lead to more efficient signal propagation.In addition to these technical considerations, the implementation of error correction codes also contributes to achieving maximum transmitting efficiency. These codes allow for the detection and correction of errors that may occur during transmission, ensuring that the receiver can reconstruct the original message accurately. By reducing the number of retransmissions needed due to errors, overall system efficiency is improved.Moreover, the advent of new technologies, such as 5G networks, has further emphasized the importance of maximum transmitting efficiency. With the increasing demand for faster and more reliable communication, engineers are continuously exploring innovative solutions to enhance the efficiency of data transmission. This includes the use of millimeter-wave frequencies, massive MIMO (Multiple Input Multiple Output) technology, and network slicing, all aimed at optimizing the use of available resources while maintaining high levels of efficiency.In conclusion, the pursuit of maximum transmitting efficiency is a fundamental aspect of modern communication systems. As technology continues to evolve, the need for efficient transmission methods becomes increasingly critical. By focusing on advanced modulation techniques, antenna design, error correction, and embracing new technologies, we can ensure that our communication systems remain robust and effective in an ever-changing landscape. Ultimately, achieving maximum transmitting efficiency not only enhances the quality of communication but also paves the way for future innovations in the field of telecommunications.

在电信和信号处理的世界中，实现最大传输效率是工程师和研究人员共同追求的重要目标。术语最大传输效率指的是信息从一个点传输到另一个点的最高有效性，最小化损耗并最大化清晰度。这个概念在无线通信、光纤乃至电力传输系统等多个领域至关重要。要理解最大传输效率为何如此重要，我们首先必须考虑在远距离传输信号时固有的挑战。每当信号通过某种介质传播，无论是空气、光纤还是电线，都会由于阻力、干扰和失真等因素而损失一些能量。这些损失会导致信号质量下降，使接收者难以准确解读所发送的信息。例如，在无线通信中，大气条件、障碍物以及其他电子设备的干扰等因素都可能显著影响传输信号的强度和质量。工程师们不懈努力，开发技术和方法，以增强最大传输效率，确保信号在各种外部条件下都能清晰有效地传输。实现最大传输效率的一种方法是采用先进的调制技术。调制涉及改变载波信号以编码所发送的信息。通过采用复杂的调制方案，如正交幅度调制（QAM）或正交频分复用（OFDM），工程师可以显著提高在给定带宽内传输的数据量，从而增强整体效率。最大传输效率的另一个关键方面是天线和传输线的设计。天线设计在决定信号的传输和接收效果方面起着至关重要的作用。例如，高增益天线将能量集中在特定方向，从而产生更强的信号并减少干扰。同样，优化传输线以最小化阻力和反射也可以导致信号传播更加高效。除了这些技术考虑之外，错误纠正码的实施也有助于实现最大传输效率。这些代码允许检测和纠正在传输过程中可能发生的错误，确保接收者能够准确重建原始消息。通过减少因错误而需要的重传次数，总体系统效率得以提高。此外，新技术的出现，如5G网络，更加突显了最大传输效率的重要性。随着对更快和更可靠通信的需求不断增加，工程师们不断探索创新解决方案，以增强数据传输的效率。这包括使用毫米波频率、大规模MIMO（多输入多输出）技术和网络切片，旨在优化可用资源的使用，同时保持高水平的效率。总之，追求最大传输效率是现代通信系统的基本方面。随着技术的不断发展，对高效传输方法的需求变得愈发重要。通过关注先进的调制技术、天线设计、错误纠正以及拥抱新技术，我们可以确保我们的通信系统在瞬息万变的环境中保持稳健和有效。最终，实现最大传输效率不仅提升了通信的质量，也为电信领域未来的创新铺平了道路。