high stable oscillator

简明释义

高稳定度振荡器

英英释义

例句

1.The new model of the synthesizer features a high stable oscillator that minimizes phase noise.

新型号的合成器配备了一个高稳定振荡器，可最小化相位噪声。

2.For satellite communications, engineers rely on a high stable oscillator to maintain consistent performance.

在卫星通信中，工程师依赖于高稳定振荡器以保持一致的性能。

3.The design of the communication system requires a high stable oscillator to ensure signal integrity.

通信系统的设计需要一个高稳定振荡器以确保信号完整性。

4.The high stable oscillator used in the laboratory provides precise frequency outputs for experiments.

实验室中使用的高稳定振荡器为实验提供精确的频率输出。

5.In radar applications, a high stable oscillator is essential for accurate distance measurements.

在雷达应用中，高稳定振荡器对准确的距离测量至关重要。

作文

In the realm of electronics and telecommunications, the term high stable oscillator refers to a crucial component that generates precise and consistent frequencies. These oscillators are essential in various applications, including radio transmission, signal processing, and clock generation for digital circuits. The stability of an oscillator is paramount, as it determines the reliability and accuracy of the signals it produces. A high stable oscillator is designed to maintain its frequency output over a wide range of environmental conditions, such as temperature fluctuations and power supply variations.The significance of a high stable oscillator can be observed in the functioning of modern communication systems. For example, in mobile phones, these oscillators ensure that the device can communicate effectively with cell towers by maintaining a stable frequency for signal transmission. If the oscillator were to drift or become unstable, it could lead to poor signal quality, dropped calls, or even complete communication failure.Moreover, in the field of aerospace and defense, high stable oscillators are critical for navigation systems. Global Positioning System (GPS) devices rely on accurate timing to determine location. The timing signals are generated by oscillators, and any instability in these signals can result in significant errors in position calculations. Thus, the demand for highly stable oscillators in such applications cannot be overstated.To achieve high stability, engineers often employ various techniques in the design and manufacturing of these oscillators. For instance, temperature compensation mechanisms can be integrated into the oscillator circuit to minimize frequency drift caused by temperature changes. Additionally, using high-quality materials and advanced fabrication techniques can enhance the overall performance and stability of the oscillator.In conclusion, the high stable oscillator plays an indispensable role in modern technology, enabling reliable communication, accurate navigation, and precise timing. As technology continues to advance, the need for even more stable oscillators will likely grow, pushing the boundaries of what is possible in electronic design and application. Understanding the principles behind high stable oscillators and their importance can provide valuable insights into the workings of many electronic devices we use daily.

在电子和通信领域，术语高稳定振荡器指的是一种生成精确且一致频率的关键组件。这些振荡器在各种应用中至关重要，包括无线电传输、信号处理和数字电路的时钟生成。振荡器的稳定性至关重要，因为它决定了其产生信号的可靠性和准确性。高稳定振荡器设计用于在广泛的环境条件下保持其频率输出的稳定性，例如温度波动和电源变化。在现代通信系统的运行中，可以观察到高稳定振荡器的重要性。例如，在手机中，这些振荡器确保设备能够有效地与基站进行通信，通过维持信号传输的稳定频率。如果振荡器漂移或变得不稳定，可能会导致信号质量差、通话中断甚至完全通信失败。此外，在航空航天和国防领域，高稳定振荡器对于导航系统至关重要。全球定位系统（GPS）设备依赖于准确的时序来确定位置。时序信号由振荡器生成，任何信号的不稳定都可能导致位置计算出现重大错误。因此，在此类应用中，对高稳定振荡器的需求不可小觑。为了实现高稳定性，工程师通常在这些振荡器的设计和制造中采用各种技术。例如，可以将温度补偿机制集成到振荡器电路中，以最小化因温度变化引起的频率漂移。此外，使用高质量材料和先进的制造技术可以增强振荡器的整体性能和稳定性。总之，高稳定振荡器在现代技术中扮演着不可或缺的角色，确保可靠的通信、准确的导航和精确的时序。随着技术的不断进步，对更高稳定性振荡器的需求可能会进一步增长，推动电子设计和应用的可能性边界。理解高稳定振荡器背后的原理及其重要性，可以为我们提供对许多日常使用的电子设备工作原理的宝贵见解。