operating frequency

简明释义

工椎率

英英释义

例句

1.The operating frequency of the motor determines its speed and efficiency in various applications.

电机的工作频率决定了其在各种应用中的速度和效率。

2.To minimize interference, we adjusted the operating frequency of the transmitter.

为了减少干扰，我们调整了发射机的工作频率。

3.In this experiment, we measured the operating frequency of the oscillator to ensure it was functioning correctly.

在这个实验中，我们测量了振荡器的工作频率以确保其正常工作。

4.Different devices may have different operating frequencies, affecting their performance.

不同设备可能具有不同的工作频率，这会影响它们的性能。

5.The device operates at an operating frequency of 2.4 GHz, which is ideal for wireless communications.

该设备的工作频率为2.4 GHz，非常适合无线通信。

作文

In the world of technology and electronics, the term operating frequency plays a crucial role in determining the performance and efficiency of devices. The operating frequency refers to the rate at which a device operates, typically measured in hertz (Hz). This frequency can significantly affect how well a device functions and interacts with other components in a system. For example, in radio communications, the operating frequency determines the range and clarity of the signal transmitted and received. A higher operating frequency may allow for faster data transmission but can also lead to increased attenuation and reduced range. Therefore, engineers must carefully choose the appropriate operating frequency for their designs based on the specific requirements of the application.Moreover, the operating frequency is not only relevant in communication technologies but also in computing systems. Modern processors have a designated operating frequency that dictates how many cycles per second the CPU can execute instructions. This frequency is often referred to as the clock speed, and it is a critical factor in determining the overall performance of a computer. Higher clock speeds usually correlate with better performance, but they also generate more heat, necessitating efficient cooling solutions to maintain optimal operating conditions.In addition to computers and communication devices, the operating frequency is vital in various other fields, including medical equipment and industrial machinery. For instance, in ultrasound imaging, the operating frequency of the sound waves used can influence the resolution and depth of the images produced. Higher frequencies provide better resolution but are limited in penetration depth, while lower frequencies can penetrate deeper but offer lower resolution. Thus, selecting the right operating frequency is essential for achieving the desired outcomes in medical diagnostics.Furthermore, understanding the concept of operating frequency helps in troubleshooting and optimizing existing systems. If a device is not performing as expected, one of the first factors to consider is whether it is operating at its intended frequency. Deviations from the specified operating frequency can lead to malfunctions or suboptimal performance. For instance, if a wireless router is set to operate at a frequency that is too high, it may face interference from other devices, leading to connectivity issues.In conclusion, the concept of operating frequency is integral to the functionality of numerous technological systems. Its implications span across various domains, from telecommunications to computing and medical imaging. By understanding the importance of operating frequency, engineers and technicians can make informed decisions that enhance device performance and reliability. As technology continues to evolve, the significance of optimizing operating frequency will only grow, making it a key consideration in future innovations and applications.

在技术和电子产品的世界中，术语操作频率在确定设备的性能和效率方面发挥着至关重要的作用。操作频率是指设备运行的速率，通常以赫兹（Hz）为单位测量。这一频率可以显著影响设备的功能以及与系统中其他组件的交互。例如，在无线电通信中，操作频率决定了信号的传输和接收的范围和清晰度。更高的操作频率可能允许更快的数据传输，但也可能导致增加的衰减和减少的范围。因此，工程师必须根据应用的具体要求仔细选择适当的操作频率。此外，操作频率不仅在通信技术中相关，而且在计算系统中也是至关重要的。现代处理器具有指定的操作频率，这决定了CPU每秒可以执行多少个周期的指令。这个频率通常被称为时钟速度，它是决定计算机整体性能的关键因素。更高的时钟速度通常与更好的性能相关，但它们也会产生更多的热量，因此需要有效的冷却解决方案来维持最佳的操作条件。除了计算机和通信设备外，操作频率在医疗设备和工业机械等多个领域也至关重要。例如，在超声成像中，使用的声波的操作频率可以影响所产生图像的分辨率和深度。更高的频率提供更好的分辨率，但在穿透深度上受到限制，而较低的频率可以穿透得更深，但分辨率较低。因此，选择正确的操作频率对于实现医疗诊断中的预期结果至关重要。此外，理解操作频率的概念有助于故障排除和优化现有系统。如果设备的性能未达到预期，首先要考虑的因素之一就是它是否在其预定的频率下运行。偏离指定的操作频率可能导致故障或次优性能。例如，如果无线路由器设置为在过高的频率下运行，它可能会面临来自其他设备的干扰，从而导致连接问题。总之，操作频率的概念是众多技术系统功能的核心。其影响跨越多个领域，从电信到计算和医学成像。通过理解操作频率的重要性，工程师和技术人员可以做出明智的决策，从而提高设备的性能和可靠性。随着技术的不断发展，优化操作频率的重要性只会增加，使其成为未来创新和应用中的关键考虑因素。