optimum transmitting frequency
简明释义
最佳发射频率
英英释义
The frequency at which a transmitter operates most efficiently, maximizing signal strength and minimizing interference. | 发射机以最高效率运行的频率,最大化信号强度并最小化干扰。 |
例句
1.The engineers determined the optimum transmitting frequency 最佳传输频率 for the new communication system to ensure minimal interference.
工程师们确定了新通信系统的最佳传输频率 optimum transmitting frequency,以确保干扰最小。
2.In order to avoid congestion, the network must operate at its optimum transmitting frequency 最佳传输频率 during peak hours.
为了避免拥堵,网络必须在高峰时段以其最佳传输频率 optimum transmitting frequency运行。
3.The research team published a paper on the optimum transmitting frequency 最佳传输频率 for underwater communication systems.
研究小组发表了一篇关于水下通信系统的最佳传输频率 optimum transmitting frequency的论文。
4.To enhance signal quality, we need to identify the optimum transmitting frequency 最佳传输频率 for our radio broadcasts.
为了提高信号质量,我们需要识别我们广播电台的最佳传输频率 optimum transmitting frequency。
5.The satellite was calibrated to transmit data at the optimum transmitting frequency 最佳传输频率 for maximum coverage.
卫星被校准为以最佳传输频率 optimum transmitting frequency传输数据,以实现最大覆盖范围。
作文
In today's world, the importance of communication cannot be overstated. With the rapid advancement of technology, various methods of transmitting information have emerged, making it crucial to understand the concept of optimum transmitting frequency. This term refers to the ideal frequency at which a signal can be transmitted with maximum efficiency and minimal interference. Understanding this concept is essential for various fields, including telecommunications, broadcasting, and even medical applications. To grasp the significance of optimum transmitting frequency in telecommunications, we must first recognize that different frequencies carry signals differently. For instance, lower frequencies tend to travel longer distances but may not carry as much data, while higher frequencies can transmit more data but are limited in range. Thus, finding the optimum transmitting frequency becomes a balancing act between distance and data capacity. In broadcasting, the optimum transmitting frequency is vital for ensuring clear reception. Radio and television stations must carefully select their broadcasting frequencies to avoid interference from other signals. When a station transmits at its optimum transmitting frequency, listeners can enjoy high-quality audio and video without disruptions. This careful selection process is why some radio stations are clearer than others, as they have found their ideal frequency for transmission. Moreover, in the medical field, the concept of optimum transmitting frequency plays a critical role in technologies such as ultrasound. Medical professionals utilize ultrasound equipment that operates at specific frequencies to create images of the inside of the body. The optimum transmitting frequency for these devices is crucial because it determines the quality of the images produced. If the frequency is too low or too high, the resulting images may be unclear or distorted, leading to potential misdiagnosis. Additionally, the advent of wireless communication has made the understanding of optimum transmitting frequency even more critical. With the proliferation of smartphones and other wireless devices, multiple signals are competing for the same bandwidth. Engineers must analyze and determine the optimum transmitting frequency for each device to minimize interference and maximize performance. This investigation into frequencies ensures that users experience seamless connectivity and efficient data transfer. In conclusion, the term optimum transmitting frequency encompasses a fundamental principle in communication technology. It represents the ideal frequency for transmitting signals effectively, whether in telecommunications, broadcasting, medical imaging, or wireless communication. As technology continues to evolve, the need for understanding and optimizing these frequencies will only grow. By mastering the concept of optimum transmitting frequency, professionals in various fields can enhance communication systems, improve data transmission, and ultimately contribute to better outcomes across multiple industries.
在当今世界,沟通的重要性不言而喻。随着科技的快速发展,各种信息传输方法应运而生,因此理解“optimum transmitting frequency”这一概念变得至关重要。这个术语指的是信号以最大效率和最小干扰进行传输的理想频率。理解这一概念对电信、广播甚至医疗应用等多个领域至关重要。要理解“optimum transmitting frequency”在电信中的重要性,我们首先必须认识到,不同的频率以不同的方式传输信号。例如,较低的频率往往可以传输更长的距离,但可能无法承载太多数据,而较高的频率可以传输更多数据,但范围有限。因此,找到“optimum transmitting frequency”成为了距离和数据容量之间的平衡。在广播中,“optimum transmitting frequency”对于确保清晰的接收至关重要。广播电台必须仔细选择其广播频率,以避免其他信号的干扰。当一个电台以其“optimum transmitting frequency”进行广播时,听众可以享受到高质量的音频和视频,而不会受到干扰。这一精心选择的过程就是为什么某些电台比其他电台更清晰,因为它们找到了其理想的传输频率。此外,在医疗领域,“optimum transmitting frequency”的概念在超声波等技术中发挥着关键作用。医疗专业人员利用在特定频率下运行的超声设备来创建体内图像。这些设备的“optimum transmitting frequency”至关重要,因为它决定了所生成图像的质量。如果频率过低或过高,生成的图像可能会模糊或失真,导致潜在的误诊。此外,无线通信的出现使得理解“optimum transmitting frequency”变得更加重要。随着智能手机和其他无线设备的普及,多种信号正在争夺相同的带宽。工程师必须分析并确定每个设备的“optimum transmitting frequency”,以最小化干扰并最大化性能。这种对频率的调查确保用户体验到无缝的连接和高效的数据传输。总之,“optimum transmitting frequency”这一术语涵盖了通信技术中的一个基本原则。它代表了有效传输信号的理想频率,无论是在电信、广播、医学成像还是无线通信中。随着技术的不断发展,理解和优化这些频率的需求只会增加。通过掌握“optimum transmitting frequency”这一概念,各个领域的专业人士可以增强通信系统、改善数据传输,并最终为多个行业的更好结果做出贡献。
相关单词
