peak pulse power

简明释义

最大脉冲功率

英英释义

例句

1.During testing, the peak pulse power was measured to ensure it meets safety standards.

在测试过程中，测量了峰值脉冲功率以确保符合安全标准。

2.In telecommunications, the peak pulse power is crucial for signal transmission over long distances.

在电信中，峰值脉冲功率对长距离信号传输至关重要。

3.The microwave generator produces a peak pulse power that can cook food quickly and evenly.

该微波发生器产生的峰值脉冲功率可以快速均匀地加热食物。

4.The laser system operates at a peak pulse power of 500 watts, allowing for precise cutting.

该激光系统的峰值脉冲功率为500瓦特，能够实现精确切割。

5.The radar system is designed to handle a peak pulse power of 1 megawatt for better detection capabilities.

该雷达系统设计能承受1兆瓦的峰值脉冲功率以提高探测能力。

作文

In the field of electrical engineering and telecommunications, the term peak pulse power refers to the maximum power level that a signal can achieve during a short burst or pulse. This concept is crucial for understanding how various devices function, especially those that transmit information over radio frequencies or through fiber optics. The ability to measure and manage peak pulse power is essential for ensuring that signals remain clear and within operational limits, thereby preventing distortion or damage to components. One of the primary applications of peak pulse power is in radar technology. In radar systems, pulses of energy are emitted and then reflected off objects, such as aircraft or ships. The strength of these pulses is critical, as it determines the radar's ability to detect and track objects at various distances. If the peak pulse power is too low, the radar may not detect an object effectively, leading to potential safety hazards. Conversely, if the power is too high, it can cause interference with other electronic devices or even damage the radar equipment itself. Another significant area where peak pulse power plays a vital role is in laser technology. Lasers emit light in concentrated pulses, and the peak pulse power of these emissions can affect their application in fields ranging from medicine to manufacturing. For instance, in laser surgery, a high peak pulse power can allow for precise cutting or cauterizing of tissues, minimizing damage to surrounding areas. On the other hand, in industrial applications, controlling the peak pulse power of lasers is essential to ensure that materials are cut or engraved without excessive heat buildup, which could lead to warping or other defects. Understanding peak pulse power also has implications for wireless communication technologies. As mobile devices and networks become more advanced, the need for efficient transmission of data grows. The peak pulse power of signals transmitted by cell towers, for example, must be optimized to ensure coverage while minimizing interference with other signals. Engineers must balance the peak pulse power to provide strong signals to users while adhering to regulatory limits designed to protect against harmful radiation levels. Moreover, the concept of peak pulse power extends beyond just engineering applications; it also has implications for environmental considerations. High levels of peak pulse power can result in electromagnetic pollution, which can affect both human health and wildlife. Therefore, understanding and managing this power level is crucial not only for technological advancement but also for sustainable practices. In conclusion, the term peak pulse power encompasses a fundamental aspect of many technologies that rely on short bursts of energy. Its significance spans various domains, including radar, laser applications, and wireless communications. By mastering the principles surrounding peak pulse power, engineers and scientists can innovate and improve technologies while ensuring safety and efficiency. With the ongoing advancements in technology, the understanding of peak pulse power will continue to evolve, paving the way for new applications and innovations in the future.

在电气工程和电信领域，术语峰值脉冲功率指的是信号在短暂爆发或脉冲期间可以达到的最大功率水平。这个概念对于理解各种设备的功能至关重要，尤其是那些通过无线电频率或光纤传输信息的设备。测量和管理峰值脉冲功率的能力对于确保信号保持清晰并在操作极限内至关重要，从而防止失真或损坏组件。峰值脉冲功率的主要应用之一是在雷达技术中。在雷达系统中，会发出能量脉冲，然后反射到物体上，例如飞机或船只。这些脉冲的强度至关重要，因为它决定了雷达在不同距离上检测和跟踪物体的能力。如果峰值脉冲功率过低，雷达可能无法有效检测物体，从而导致潜在的安全隐患。相反，如果功率过高，可能会干扰其他电子设备，甚至损坏雷达设备本身。峰值脉冲功率发挥着重要作用的另一个领域是激光技术。激光以集中脉冲发射光，这些发射的峰值脉冲功率可以影响其在医学到制造等领域的应用。例如，在激光手术中，高峰值脉冲功率可以实现对组织的精确切割或烧灼，最小化对周围区域的损害。另一方面，在工业应用中，控制激光的峰值脉冲功率至关重要，以确保材料在没有过多热量积聚的情况下被切割或雕刻，这可能导致翘曲或其他缺陷。理解峰值脉冲功率也对无线通信技术有影响。随着移动设备和网络的不断发展，对数据高效传输的需求不断增长。例如，基站发射的信号的峰值脉冲功率必须优化，以确保覆盖范围，同时最小化与其他信号的干扰。工程师必须平衡峰值脉冲功率，以向用户提供强信号，同时遵守旨在保护人类免受有害辐射水平影响的法规限制。此外，峰值脉冲功率的概念不仅限于工程应用；它还涉及环境方面。高水平的峰值脉冲功率可能导致电磁污染，影响人类健康和野生动物。因此，理解和管理这一功率水平对于技术进步和可持续实践至关重要。总之，术语峰值脉冲功率涵盖了许多依赖短暂能量爆发的技术的基本方面。其重要性跨越多个领域，包括雷达、激光应用和无线通信。通过掌握围绕峰值脉冲功率的原则，工程师和科学家可以创新和改进技术，同时确保安全和效率。随着技术的不断进步，对峰值脉冲功率的理解将继续发展，为未来的新应用和创新铺平道路。