signal-to-crosstalk ratio

简明释义

信号串音比

英英释义

例句

1.The signal-to-crosstalk ratio (信号与串扰比) can be improved by using better shielding techniques.

通过使用更好的屏蔽技术，可以改善信号与串扰比（信号与串扰比）。

2.A higher signal-to-crosstalk ratio (信号与串扰比) indicates better performance in audio equipment.

更高的信号与串扰比（信号与串扰比）表明音频设备的性能更好。

3.In high-speed communication systems, maintaining a good signal-to-crosstalk ratio (信号与串扰比) is crucial for data integrity.

在高速通信系统中，保持良好的信号与串扰比（信号与串扰比）对数据完整性至关重要。

4.When designing a circuit, it's important to calculate the signal-to-crosstalk ratio (信号与串扰比) to avoid degradation of the signal quality.

在设计电路时，计算信号与串扰比（信号与串扰比）以避免信号质量下降是很重要的。

5.Engineers often test the signal-to-crosstalk ratio (信号与串扰比) to ensure minimal interference between channels.

工程师通常测试信号与串扰比（信号与串扰比），以确保通道之间的干扰最小化。

作文

In the realm of telecommunications and signal processing, the quality of communication systems is often evaluated based on various parameters. One crucial metric that engineers and researchers focus on is the signal-to-crosstalk ratio. This term refers to the measure of the desired signal's strength relative to the unwanted interference caused by crosstalk. Crosstalk occurs when a signal from one channel interferes with another channel, leading to degradation of the overall performance of the system. Understanding the signal-to-crosstalk ratio is essential for designing efficient communication systems that can deliver clear and reliable signals.To elaborate further, the signal-to-crosstalk ratio is typically expressed in decibels (dB). A higher ratio indicates that the desired signal is much stronger than the crosstalk interference, which translates to better audio or data quality. For instance, in a telephone system, if the signal-to-crosstalk ratio is high, users will experience clearer conversations without the distraction of background noise or other conversations bleeding into their call. Conversely, a low ratio can result in significant confusion and miscommunication, which can be detrimental in critical applications such as emergency services or medical communications.The importance of maintaining a good signal-to-crosstalk ratio extends beyond traditional telephony. In modern digital communication systems, such as fiber optics and wireless networks, the same principles apply. As technology advances, the demand for higher bandwidth and faster data transmission rates increases, making it imperative to minimize crosstalk. Engineers employ various techniques to achieve this, including the use of shielding, twisted pair cables, and advanced modulation schemes.Moreover, testing and measuring the signal-to-crosstalk ratio is a vital part of the development process for any communication device. During the design phase, prototypes are rigorously tested to ensure that they meet the required specifications. By analyzing the signal-to-crosstalk ratio, engineers can identify potential issues and make necessary adjustments before the product reaches the market. This proactive approach not only enhances the performance of the device but also ensures customer satisfaction.In conclusion, the signal-to-crosstalk ratio is a fundamental concept in the field of communication systems that directly impacts the quality of signal transmission. As we continue to rely on digital communication for our daily interactions, understanding and optimizing this ratio will remain a priority for engineers and researchers alike. By minimizing crosstalk and maximizing the clarity of signals, we can enhance our communication experiences, paving the way for more effective and reliable technologies in the future.

在电信和信号处理领域，通信系统的质量通常根据各种参数进行评估。其中一个工程师和研究人员关注的重要指标是信号串扰比。这个术语指的是所需信号强度与由串扰引起的不必要干扰之间的比较。串扰发生在一个通道的信号干扰另一个通道时，导致系统整体性能的下降。理解信号串扰比对于设计高效的通信系统至关重要，这些系统能够传递清晰可靠的信号。进一步阐述，信号串扰比通常以分贝（dB）表示。更高的比率表明所需信号远强于串扰干扰，这意味着音频或数据质量更好。例如，在电话系统中，如果信号串扰比很高，用户将体验到更清晰的对话，而不会受到背景噪声或其他对话的干扰。相反，低比率可能会导致显著的混淆和误解，这在紧急服务或医疗通信等关键应用中是有害的。保持良好的信号串扰比的重要性超越了传统电话。在现代数字通信系统中，如光纤和无线网络，同样的原则适用。随着技术的进步，对更高带宽和更快数据传输速率的需求增加，使得减少串扰变得至关重要。工程师采用各种技术来实现这一目标，包括使用屏蔽、双绞线电缆和先进的调制方案。此外，测试和测量信号串扰比是任何通信设备开发过程中的重要部分。在设计阶段，原型经过严格测试，以确保其符合所需规格。通过分析信号串扰比，工程师可以识别潜在问题并在产品上市之前进行必要的调整。这种主动的方法不仅增强了设备的性能，还确保了客户的满意度。总之，信号串扰比是通信系统领域的基本概念，直接影响信号传输的质量。随着我们继续依赖数字通信进行日常互动，理解和优化这一比率将始终是工程师和研究人员的优先事项。通过最小化串扰和最大化信号的清晰度，我们可以增强我们的通信体验，为未来更有效和可靠的技术铺平道路。