blocking of oscillator

简明释义

振荡器停振

英英释义

例句

1.The engineer noticed a significant blocking of oscillator in the circuit, which affected the overall performance.

工程师注意到电路中出现明显的振荡器阻塞，这影响了整体性能。

2.To troubleshoot the blocking of oscillator, we had to check all the connections and components.

为了排查振荡器阻塞的问题，我们必须检查所有连接和组件。

3.The software update was meant to fix the blocking of oscillator issue that users were experiencing.

软件更新旨在修复用户所遇到的振荡器阻塞问题。

4.During the test, we observed a blocking of oscillator that caused unexpected signal interruptions.

在测试过程中，我们观察到出现了振荡器阻塞，导致信号意外中断。

5.A blocking of oscillator can lead to inaccurate frequency readings in communication devices.

在通信设备中，振荡器阻塞可能导致频率读数不准确。

作文

The concept of the blocking of oscillator is fundamental in the study of various physical systems, particularly in the fields of electronics and signal processing. An oscillator is a device that generates repetitive signals, often in the form of sine waves or square waves. These signals are crucial for many applications, including communication systems, clocks, and radio transmitters. However, there are instances where the functionality of an oscillator can be hindered, leading to what is known as the blocking of oscillator.

In electronics, the blocking of oscillator occurs when the output frequency of an oscillator is interrupted or altered due to external factors or internal malfunctions. This disruption can lead to significant issues in circuits that rely on consistent oscillation for their operation. For example, in a radio transmitter, if the oscillator is blocked, the transmission frequency may drift, resulting in poor signal quality or complete loss of transmission. Understanding the causes and effects of the blocking of oscillator is essential for engineers and technicians who design and maintain these systems.

One common cause of the blocking of oscillator is the presence of noise in the circuit. Noise can come from various sources, including electromagnetic interference from nearby devices or thermal noise generated by the components themselves. When noise levels exceed certain thresholds, they can disrupt the stable operation of the oscillator, leading to fluctuations in frequency or amplitude. Engineers often employ filtering techniques to minimize noise and prevent the blocking of oscillator in sensitive applications.

Another factor that can contribute to the blocking of oscillator is component aging or failure. Over time, electronic components can degrade, leading to changes in their electrical characteristics. For instance, capacitors may lose their ability to store charge effectively, which can alter the timing of the oscillator circuit. Regular maintenance and testing of components can help identify potential issues before they result in the blocking of oscillator and subsequent system failures.

Moreover, temperature variations can also affect the stability of an oscillator. Most oscillators are designed to operate within a specific temperature range. If the temperature exceeds this range, it can lead to changes in resistance, capacitance, or inductance, resulting in the blocking of oscillator. Implementing temperature compensation techniques, such as using thermistors or other temperature-sensitive components, can help mitigate this issue.

In conclusion, the blocking of oscillator is a critical phenomenon that can significantly impact the performance of electronic systems. By understanding the underlying causes, such as noise, component aging, and temperature variations, engineers can take proactive measures to ensure the reliability and stability of oscillators. This knowledge not only enhances the performance of individual devices but also contributes to the overall efficiency of complex electronic systems. As technology continues to advance, the importance of addressing the blocking of oscillator will remain a vital aspect of electronics engineering and design.

“阻塞振荡器”的概念在各种物理系统的研究中是基础性的，特别是在电子学和信号处理领域。振荡器是一种生成重复信号的设备，这些信号通常以正弦波或方波的形式出现。这些信号对于许多应用至关重要，包括通信系统、时钟和广播发射器。然而，有时振荡器的功能可能会受到阻碍，这就是所谓的“阻塞振荡器”。

在电子学中，“阻塞振荡器”发生在振荡器的输出频率由于外部因素或内部故障而被中断或改变时。这种干扰可能导致依赖于持续振荡的电路出现重大问题。例如，在无线电发射器中，如果振荡器被阻塞，传输频率可能会漂移，从而导致信号质量差或完全失去传输。理解“阻塞振荡器”的原因和影响对设计和维护这些系统的工程师和技术人员来说至关重要。

造成“阻塞振荡器”的一个常见原因是电路中噪声的存在。噪声可以来自各种来源，包括附近设备的电磁干扰或组件本身产生的热噪声。当噪声水平超过某个阈值时，它们可能会干扰振荡器的稳定操作，导致频率或幅度的波动。工程师通常采用过滤技术来最小化噪声，并防止在敏感应用中发生“阻塞振荡器”。

另一个可能导致“阻塞振荡器”的因素是组件老化或故障。随着时间的推移，电子组件可能会退化，导致其电气特性发生变化。例如，电容器可能失去有效存储电荷的能力，这可能会改变振荡器电路的时序。定期维护和测试组件可以帮助在发生“阻塞振荡器”及随后的系统故障之前识别潜在问题。

此外，温度变化也会影响振荡器的稳定性。大多数振荡器设计为在特定温度范围内工作。如果温度超过此范围，可能会导致电阻、电容或电感的变化，从而导致“阻塞振荡器”。实施温度补偿技术，例如使用热敏电阻或其他温度敏感组件，可以帮助减轻此问题。

总之，“阻塞振荡器”是一个关键现象，可能会显著影响电子系统的性能。通过理解噪声、组件老化和温度变化等潜在原因，工程师可以采取主动措施，以确保振荡器的可靠性和稳定性。这一知识不仅增强了单个设备的性能，还有助于提高复杂电子系统的整体效率。随着技术的不断进步，解决“阻塞振荡器”的重要性将继续成为电子工程和设计的一个重要方面。