maximum to average power

简明释义

最大功率与平均功率之比

英英释义

例句

1.The maximum to average power measurement is crucial in audio engineering for sound quality.

在音频工程中，最大功率与平均功率的测量对音质至关重要。

2.The engineer calculated the maximum to average power ratio to assess the efficiency of the new motor.

工程师计算了最大功率与平均功率的比率，以评估新电机的效率。

3.In telecommunications, understanding the maximum to average power can help optimize signal transmission.

在电信领域，理解最大功率与平均功率可以帮助优化信号传输。

4.Manufacturers often provide the maximum to average power specifications for their appliances.

制造商通常会提供其家电的最大功率与平均功率规格。

5.To ensure safety, the maximum to average power ratio should not exceed recommended limits.

为了确保安全，最大功率与平均功率比率不应超过推荐的限制。

作文

In the realm of electrical engineering and signal processing, the concept of maximum to average power is crucial for understanding how systems behave under various load conditions. This term refers to the ratio of the peak power that a system can deliver to the average power it typically produces over time. Understanding this ratio is essential for designing efficient systems that can handle transient loads without failure while maintaining optimal performance during normal operation.The maximum to average power ratio is particularly important in applications such as audio amplification, radio transmission, and telecommunications. For instance, in audio equipment, the maximum power output indicates how loud the sound can get without distortion, while the average power consumption shows how much energy the device uses during regular operation. If the maximum power is significantly higher than the average power, it suggests that the system can handle peaks without overheating or damaging its components.Moreover, this ratio also plays a vital role in efficiency calculations. Engineers must ensure that the systems they design can handle peaks effectively without wasting too much energy during average usage. In telecommunications, for example, signals may fluctuate greatly due to varying environmental conditions; thus, understanding the maximum to average power helps engineers design transmitters that can maintain signal integrity while minimizing power loss.The significance of the maximum to average power ratio extends beyond engineering into everyday life. For instance, when choosing appliances or electronic devices, consumers often look at power ratings. A device with a high maximum power rating but low average power consumption is typically more desirable because it indicates that the device can perform well under demanding conditions while being energy-efficient during normal use.Additionally, in renewable energy systems, such as solar panels or wind turbines, the maximum to average power ratio is critical for evaluating performance. These systems often experience fluctuations in energy generation due to changing weather conditions. Understanding how much maximum power can be generated compared to the average output helps in sizing storage solutions, like batteries, to ensure a reliable energy supply.In conclusion, the maximum to average power ratio is an essential parameter in various fields, influencing system design, efficiency, and consumer choices. By grasping this concept, engineers and consumers alike can make informed decisions that lead to better performance and energy management. As technology continues to advance, the importance of understanding and optimizing this ratio will only grow, paving the way for more efficient and sustainable systems in the future.

在电气工程和信号处理领域，最大功率与平均功率的概念对于理解系统在各种负载条件下的行为至关重要。这个术语指的是系统能够提供的峰值功率与它通常在一段时间内产生的平均功率之间的比率。理解这一比率对于设计能够在瞬态负载下不发生故障，同时在正常操作期间保持最佳性能的高效系统至关重要。最大功率与平均功率比率在音频放大、无线电传输和电信等应用中尤为重要。例如，在音频设备中，最大功率输出表示声音在不失真的情况下可以多大声，而平均功率消耗则显示设备在正常操作期间使用了多少能量。如果最大功率明显高于平均功率，则表明该系统可以有效地处理峰值，而不会过热或损坏其组件。此外，这一比率在效率计算中也发挥着重要作用。工程师必须确保他们设计的系统能够有效地处理峰值，同时在平均使用期间不会浪费过多能量。在电信中，例如，由于环境条件变化，信号可能会大幅波动；因此，理解最大功率与平均功率有助于工程师设计能够维持信号完整性的发射器，同时最小化功率损失。最大功率与平均功率比率的重要性超越了工程学，延伸到日常生活中。例如，在选择家电或电子设备时，消费者通常会查看功率等级。具有高最大功率评级但低平均功率消耗的设备通常更受欢迎，因为这表明设备在应对苛刻条件下表现良好，同时在正常使用期间能效高。此外，在可再生能源系统（如太阳能电池板或风力涡轮机）中，最大功率与平均功率比率对于评估性能至关重要。这些系统由于天气条件变化而经历能量生成的波动。了解能够生成的最大功率与平均输出相比，帮助确定储存解决方案（如电池）的规模，以确保可靠的能源供应。总之，最大功率与平均功率比率是各个领域的重要参数，影响系统设计、效率和消费者选择。通过掌握这一概念，工程师和消费者都可以做出明智的决策，从而提高性能和能源管理。随着技术的不断进步，理解和优化这一比率的重要性只会增加，为未来更高效、更可持续的系统铺平道路。