burst locked oscillator

简明释义

色同步锁定振荡器

英英释义

例句

1.Using a burst locked oscillator, the team improved the performance of the wireless transmitter.

通过使用突发锁定振荡器，团队提高了无线发射器的性能。

2.Engineers designed a burst locked oscillator for precise frequency control in radar applications.

工程师为雷达应用设计了一个突发锁定振荡器以实现精确的频率控制。

3.In telecommunications, a burst locked oscillator can synchronize multiple signals effectively.

在电信中，突发锁定振荡器可以有效地同步多个信号。

4.The burst locked oscillator helps reduce phase noise in high-frequency circuits.

在高频电路中，突发锁定振荡器有助于减少相位噪声。

5.The new communication system utilizes a burst locked oscillator to enhance signal stability.

新通信系统利用突发锁定振荡器来增强信号稳定性。

作文

In the realm of electronics and communication systems, the term burst locked oscillator refers to a specialized type of oscillator that is designed to maintain synchronization with an input signal during short bursts of operation. This technology is particularly important in applications where precise timing and frequency stability are crucial, such as in telecommunications, radar systems, and high-speed data transmission. A burst locked oscillator can quickly lock onto the frequency of an incoming signal, allowing it to produce a stable output even in the presence of noise or interference. The functionality of a burst locked oscillator relies on phase-locked loop (PLL) technology, which is a control system that generates a signal that is phase-locked to an input signal. When a burst of data is received, the oscillator can adjust its output to match the frequency and phase of the incoming signal, ensuring that the transmitted information is accurately processed. This capability is particularly valuable in digital communications, where data integrity is paramount. One of the key advantages of using a burst locked oscillator is its ability to operate efficiently in environments where signals may be intermittent or subject to fluctuations. For example, in mobile communications, a device might experience varying signal strengths due to movement or obstructions. The burst locked oscillator can adapt to these changes, maintaining a reliable connection and minimizing the risk of data loss. Moreover, the design of a burst locked oscillator typically incorporates features that enhance its performance under challenging conditions. These may include advanced filtering techniques, low-noise components, and robust feedback mechanisms that allow for rapid adjustments to the oscillator's output. Such innovations make it possible for the oscillator to respond quickly to changes in the input signal, ensuring that the output remains stable and accurate. In addition to telecommunications, burst locked oscillators find applications in various fields, including automotive systems, aerospace technology, and consumer electronics. For instance, in automotive radar systems used for collision avoidance, a burst locked oscillator can help ensure that the radar signal remains synchronized with the vehicle's movement, providing real-time data that is critical for safety. As technology continues to evolve, the demand for more sophisticated oscillators is likely to increase. Researchers and engineers are constantly exploring new materials and designs that could enhance the performance of burst locked oscillators. Innovations such as integrated circuits and miniaturization techniques are paving the way for even more compact and efficient devices that can operate in a wider range of conditions. In conclusion, the burst locked oscillator represents a significant advancement in the field of electronics, providing essential capabilities for maintaining synchronization in various applications. Its ability to lock onto input signals quickly and accurately makes it invaluable in today’s fast-paced technological landscape. As we continue to rely on complex communication systems, understanding and utilizing technologies like the burst locked oscillator will be crucial for achieving reliable performance and enhancing user experiences across multiple domains.

在电子和通信系统领域，术语burst locked oscillator指的是一种专门设计的振荡器，旨在短时间内保持与输入信号的同步。这项技术在对精确时序和频率稳定性要求很高的应用中尤为重要，例如在电信、雷达系统和高速数据传输中。burst locked oscillator能够快速锁定输入信号的频率，使其即使在噪声或干扰存在的情况下也能产生稳定的输出。burst locked oscillator的功能依赖于相位锁定环（PLL）技术，这是一种生成与输入信号相位锁定的信号的控制系统。当接收到一段数据时，振荡器可以调整其输出，以匹配输入信号的频率和相位，从而确保所传输的信息被准确处理。这种能力在数字通信中尤为宝贵，因为数据完整性至关重要。使用burst locked oscillator的一个主要优点是它能够在信号可能间歇或波动的环境中高效运行。例如，在移动通信中，由于移动或障碍物，设备可能会经历不同的信号强度。burst locked oscillator可以适应这些变化，保持可靠的连接并最小化数据丢失的风险。此外，burst locked oscillator的设计通常包含增强其在挑战条件下表现的特性。这些可能包括先进的滤波技术、低噪声组件和稳健的反馈机制，允许振荡器的输出快速调整。这样的创新使得振荡器能够迅速响应输入信号的变化，确保输出保持稳定和准确。除了电信，burst locked oscillators还在汽车系统、航空航天技术和消费电子等多个领域找到应用。例如，在用于防撞的汽车雷达系统中，burst locked oscillator可以帮助确保雷达信号与车辆运动保持同步，提供对安全至关重要的实时数据。随着技术的不断发展，对更复杂振荡器的需求可能会增加。研究人员和工程师们正在不断探索新材料和设计，以增强burst locked oscillators的性能。集成电路和小型化技术等创新正在为更紧凑和高效的设备铺平道路，这些设备能够在更广泛的条件下运行。总之，burst locked oscillator代表了电子领域的一项重要进步，为维护各种应用中的同步提供了基本能力。它快速且准确地锁定输入信号的能力使其在当今快节奏的技术环境中不可或缺。随着我们对复杂通信系统的依赖加深，理解和利用像burst locked oscillator这样的技术将对实现可靠性能和提升多个领域的用户体验至关重要。