pulsed mode

简明释义

脉冲工捉式

英英释义

例句

1.Using 脉冲模式 allows for better control of thermal effects in material processing.

使用脉冲模式可以更好地控制材料加工中的热效应。

2.The laser operates in 脉冲模式 to achieve high peak power.

激光以脉冲模式工作，以达到高峰值功率。

3.In the 脉冲模式, the device can deliver energy in short bursts.

在脉冲模式下，设备可以以短暂的冲击释放能量。

4.In radar technology, 脉冲模式 is essential for detecting distant objects.

在雷达技术中，脉冲模式对于探测远处物体至关重要。

5.The MRI machine has a 脉冲模式 that enhances image resolution.

MRI机器具有一种增强图像分辨率的脉冲模式。

作文

In the field of technology and engineering, various modes of operation are employed to optimize performance and efficiency. One such mode that has garnered significant attention is the pulsed mode. The concept of pulsed mode refers to a method of operation where energy is emitted in short bursts or pulses rather than in a continuous stream. This technique is widely used in different applications, including laser systems, communication technologies, and even medical devices.The advantages of utilizing pulsed mode are manifold. For instance, in laser technology, operating in pulsed mode allows for higher peak power output while maintaining lower average power consumption. This characteristic is crucial in applications such as laser cutting and engraving, where precision and control are paramount. By using short, intense bursts of energy, operators can achieve better results without damaging the material being processed.Moreover, in the realm of telecommunications, pulsed mode transmission can enhance signal integrity and reduce interference. By sending data in discrete packets or pulses, it becomes easier to distinguish between different signals, leading to improved clarity and reliability in communication. This is particularly important in modern digital communication systems, where bandwidth is a precious resource.In medical applications, pulsed mode is often employed in therapies such as laser surgery and phototherapy. In these cases, the use of pulsed energy can minimize damage to surrounding tissues while effectively targeting the intended area. For instance, during a laser surgery procedure, the surgeon can utilize pulsed mode to precisely cut or ablate tissue, ensuring a more controlled and safer operation.However, the implementation of pulsed mode is not without its challenges. Engineers must carefully design systems to manage the timing and duration of each pulse to achieve the desired effects. Additionally, the choice of materials and components used in these systems must be compatible with the high-energy outputs associated with pulsed operations. Failure to adequately address these factors can lead to inefficiencies or system failures.In conclusion, the pulsed mode represents a significant advancement in various technological fields. Its ability to deliver energy in controlled bursts offers numerous benefits, from enhanced precision in laser applications to improved signal quality in communications. As technology continues to evolve, the importance of understanding and mastering techniques like pulsed mode will only grow, paving the way for innovative solutions across multiple industries. Therefore, both professionals and students in technical disciplines should strive to gain a deeper understanding of this concept and its applications, as it holds the key to unlocking new possibilities in technology and engineering.

在技术和工程领域，为了优化性能和效率，采用了多种操作模式。其中一个引起广泛关注的模式是脉冲模式。脉冲模式的概念指的是一种操作方法，其中能量以短暂的爆发或脉冲形式释放，而不是以连续流的方式。这种技术广泛应用于激光系统、通信技术甚至医疗设备等不同领域。使用脉冲模式的优势是多方面的。例如，在激光技术中，以脉冲模式工作可以在保持较低平均功耗的同时实现更高的峰值功率输出。这一特性在激光切割和雕刻等应用中至关重要，其中精度和控制是重中之重。通过使用短暂而强烈的能量爆发，操作人员可以在不损坏被加工材料的情况下获得更好的效果。此外，在电信领域，脉冲模式传输可以增强信号完整性并减少干扰。通过以离散的数据包或脉冲发送数据，更容易区分不同的信号，从而提高通信的清晰度和可靠性。这在现代数字通信系统中尤为重要，因为带宽是一种宝贵的资源。在医疗应用中，脉冲模式通常用于激光手术和光疗等治疗中。在这些情况下，使用脉冲能量可以最小化对周围组织的损害，同时有效地针对预期区域。例如，在激光手术过程中，外科医生可以利用脉冲模式精确切割或消融组织，确保手术更加可控和安全。然而，实施脉冲模式并非没有挑战。工程师必须仔细设计系统，以管理每个脉冲的时机和持续时间，以达到所需效果。此外，这些系统中使用的材料和组件的选择必须与脉冲操作相关的高能输出兼容。如果未能充分解决这些因素，可能会导致效率低下或系统故障。总之，脉冲模式代表了各个技术领域的重要进步。其以受控爆发的方式传递能量的能力提供了诸多好处，从激光应用中的精确度提升到通信中信号质量的改善。随着技术的不断发展，理解和掌握像脉冲模式这样的技术的重要性将只会增加，为多个行业开辟创新解决方案的道路。因此，技术学科的专业人士和学生应努力深入理解这一概念及其应用，因为它是解锁技术和工程新可能性的关键。