transmitted power level

简明释义

发射功率电平

英英释义

例句

1.Adjusting the transmitted power level can help reduce interference from other signals.

调整传输功率水平可以帮助减少来自其他信号的干扰。

2.A higher transmitted power level can lead to better coverage in rural areas.

较高的传输功率水平可以在农村地区提供更好的覆盖。

3.The technician reported that the transmitted power level was lower than expected.

技术员报告称传输功率水平低于预期。

4.Monitoring the transmitted power level is crucial for maintaining network reliability.

监测传输功率水平对于维持网络可靠性至关重要。

5.The engineer adjusted the transmitted power level to improve signal strength.

工程师调整了传输功率水平以提高信号强度。

作文

In the field of telecommunications, understanding the concept of transmitted power level is crucial for optimizing signal quality and ensuring effective communication. The transmitted power level refers to the amount of power that is sent out by a transmitter in a communication system. This power level plays a significant role in determining how far a signal can travel and how clearly it can be received by the intended recipient. When a transmitter sends out signals, the transmitted power level influences the strength of the signal as it propagates through various mediums, such as air or fiber optic cables.One of the key factors that affect the transmitted power level is the distance between the transmitter and the receiver. As the distance increases, the signal tends to weaken due to attenuation, which is the gradual loss of signal strength over distance. To counteract this effect, engineers often increase the transmitted power level to ensure that the signal remains strong enough to be detected by the receiver. However, raising the power level can also lead to increased interference with other signals and may not always be a feasible solution, especially in densely populated areas where multiple communication devices operate simultaneously.Moreover, the transmitted power level is also influenced by environmental factors. Obstacles such as buildings, trees, and weather conditions can impact how effectively a signal travels from the transmitter to the receiver. For instance, heavy rain or fog can absorb some of the signal energy, requiring adjustments to the transmitted power level to maintain reliable communication. Therefore, it is essential for engineers to consider these variables when designing communication systems to ensure optimal performance.In addition to distance and environmental factors, regulatory standards also play a significant role in determining the maximum allowable transmitted power level for different types of communication systems. Governments and regulatory bodies impose limits on power levels to minimize interference between different communication networks and to protect public health. For example, mobile phone towers must adhere to strict guidelines regarding their transmitted power level to ensure that they do not disrupt other services or pose health risks to nearby residents.Furthermore, advancements in technology have led to the development of more efficient transmission methods that can maintain high-quality signals at lower transmitted power levels. Techniques such as beamforming and MIMO (Multiple Input Multiple Output) allow for better signal management, enabling devices to communicate effectively without the need for excessively high power levels. These innovations are particularly important in the context of the growing demand for wireless communication, as they help to optimize the use of available spectrum while minimizing power consumption.In conclusion, the transmitted power level is a vital aspect of telecommunications that affects signal strength, range, and overall communication quality. By understanding the factors that influence this power level, including distance, environmental conditions, and regulatory standards, engineers can design more effective communication systems. As technology continues to evolve, finding ways to optimize the transmitted power level will remain a key focus in the pursuit of efficient and reliable communication solutions.

在电信领域，理解“transmitted power level”这一概念对于优化信号质量和确保有效通信至关重要。“transmitted power level”是指通信系统中发射机发送的功率值。这个功率水平在决定信号传播距离和接收清晰度方面起着重要作用。当发射机发送信号时，“transmitted power level”会影响信号在空气或光纤等不同介质中的传播强度。影响“transmitted power level”的一个关键因素是发射机与接收器之间的距离。随着距离的增加，信号由于衰减而趋于减弱，衰减是指信号强度随距离逐渐损失的现象。为了抵消这种影响，工程师通常会提高“transmitted power level”，以确保信号保持足够强大，以被接收器检测到。然而，提高功率水平也可能导致与其他信号的干扰增加，并且在多个通信设备同时运行的密集地区，这并不总是可行的解决方案。此外，“transmitted power level”还受到环境因素的影响。建筑物、树木和天气条件等障碍物可能会影响信号从发射机传播到接收器的有效性。例如，强降雨或雾霾可能会吸收部分信号能量，需要调整“transmitted power level”以保持可靠的通信。因此，工程师在设计通信系统时，考虑这些变量对于确保最佳性能至关重要。除了距离和环境因素外，监管标准在确定不同类型通信系统的最大允许“transmitted power level”方面也发挥着重要作用。政府和监管机构对功率水平施加限制，以最小化不同通信网络之间的干扰，并保护公众健康。例如，移动电话塔必须遵守严格的关于其“transmitted power level”的指导方针，以确保它们不会干扰其他服务或对附近居民构成健康风险。此外，技术的进步导致了更高效的传输方法的发展，这些方法可以在较低的“transmitted power level”下维持高质量信号。波束成形和MIMO（多输入多输出）等技术允许更好的信号管理，使设备能够有效地通信，而无需过高的功率水平。这些创新在无线通信需求不断增长的背景下尤为重要，因为它们有助于优化可用频谱的使用，同时最小化能耗。总之，“transmitted power level”是电信中一个重要的方面，影响信号强度、范围和整体通信质量。通过理解影响该功率水平的因素，包括距离、环境条件和监管标准，工程师可以设计出更有效的通信系统。随着技术的不断发展，优化“transmitted power level”的方法将继续成为追求高效可靠通信解决方案的关键焦点。