static gain

简明释义

静态增益

英英释义

例句

1.To achieve better clarity in the broadcast, we must set the static gain 静态增益 correctly.

为了在广播中获得更好的清晰度，我们必须正确设置static gain 静态增益。

2.The engineer explained how static gain 静态增益 affects the overall quality of the recording.

工程师解释了static gain 静态增益如何影响录音的整体质量。

3.When designing the circuit, the static gain 静态增益 was a crucial factor to consider.

在设计电路时，static gain 静态增益是一个关键因素。

4.In our audio setup, we adjusted the static gain 静态增益 to optimize the signal-to-noise ratio.

在我们的音频设置中，我们调整了static gain 静态增益以优化信噪比。

5.The amplifier's performance was enhanced by increasing the static gain 静态增益 to ensure a clearer sound output.

通过增加放大器的static gain 静态增益，增强了其性能，以确保更清晰的声音输出。

作文

In the field of electronics and signal processing, the term static gain refers to the ratio of output signal to input signal when the system is in a steady state, meaning that the input does not change over time. This concept is crucial for understanding how amplifiers and other electronic devices operate under constant conditions. The static gain is typically expressed in decibels (dB) and is a key parameter that engineers must consider when designing circuits. For instance, if an amplifier has a static gain of 20 dB, it means that the output signal is 100 times greater than the input signal. This kind of amplification is essential in various applications, such as audio systems, radio transmission, and medical equipment. By ensuring that the static gain is sufficient, engineers can guarantee that signals are transmitted clearly and effectively without distortion.Moreover, understanding static gain is not only important for amplifiers but also for feedback systems. In feedback loops, the static gain can influence the stability and performance of the entire system. If the gain is too high, it may lead to oscillations or instability, while a low gain may result in insufficient response to changes in input. Therefore, finding the right balance of static gain is essential for optimal system performance.Another aspect to consider is the relationship between static gain and frequency response. While static gain is measured under static conditions, real-world signals often vary with time, leading to dynamic behavior. Engineers often analyze how static gain changes with frequency to ensure that the system performs well across the desired range of operation. This analysis helps in designing filters and equalizers that can modify the signal characteristics to meet specific requirements.In summary, the concept of static gain plays a vital role in electronics and signal processing. It allows engineers to understand and predict how systems will behave under steady-state conditions. By mastering the principles of static gain, professionals in the field can design more effective and reliable electronic devices, ensuring that they meet the demands of modern technology. As we continue to advance in this field, the importance of understanding static gain will only grow, making it a fundamental concept for anyone involved in electronics and engineering.

在电子和信号处理领域，术语静态增益指的是在系统处于稳态时输出信号与输入信号的比率，这意味着输入信号随时间不变。这个概念对于理解放大器和其他电子设备在恒定条件下的操作至关重要。静态增益通常以分贝（dB）表示，是工程师在设计电路时必须考虑的关键参数。例如，如果一个放大器的静态增益为20 dB，这意味着输出信号是输入信号的100倍。这种放大在各种应用中都是必需的，例如音频系统、无线电传输和医疗设备。通过确保静态增益足够，工程师可以保证信号清晰有效地传输而不失真。此外，理解静态增益不仅对放大器重要，对反馈系统也同样如此。在反馈回路中，静态增益可能会影响整个系统的稳定性和性能。如果增益过高，可能导致振荡或不稳定，而增益过低则可能导致对输入变化反应不足。因此，找到合适的静态增益平衡对于实现最佳系统性能至关重要。另一个需要考虑的方面是静态增益与频率响应之间的关系。虽然静态增益是在静态条件下测量的，但现实世界中的信号往往随着时间变化，导致动态行为。工程师通常分析静态增益如何随频率变化，以确保系统在所需的操作范围内表现良好。这种分析有助于设计滤波器和均衡器，可以修改信号特性以满足特定要求。总之，静态增益的概念在电子学和信号处理中扮演着至关重要的角色。它使工程师能够理解和预测系统在稳态条件下的行为。通过掌握静态增益的原理，专业人员可以设计出更有效和可靠的电子设备，确保它们满足现代技术的需求。随着我们在这一领域的不断进步，理解静态增益的重要性只会增加，使其成为任何参与电子和工程工作者的基本概念。