trimming resistive network

简明释义

微电阻网路

英英释义

例句

1.The trimming resistive network 修剪电阻网络 design was critical for minimizing signal loss.

设计trimming resistive network 修剪电阻网络对于最小化信号损失至关重要。

2.By adjusting the trimming resistive network 修剪电阻网络, we enhanced the performance of the amplifier.

通过调整trimming resistive network 修剪电阻网络，我们提高了放大器的性能。

3.The technician demonstrated how to set up a trimming resistive network 修剪电阻网络 for better voltage regulation.

技术员演示了如何设置trimming resistive network 修剪电阻网络以获得更好的电压调节。

4.The engineer explained how trimming resistive network 修剪电阻网络 can improve the accuracy of the circuit.

工程师解释了如何通过trimming resistive network 修剪电阻网络来提高电路的精度。

5.In our project, we utilized a trimming resistive network 修剪电阻网络 to calibrate the sensor readings.

在我们的项目中，我们使用了trimming resistive network 修剪电阻网络来校准传感器读数。

作文

In the field of electrical engineering, the concept of trimming resistive network plays a crucial role in optimizing circuit performance. A trimming resistive network refers to a configuration of resistors that can be adjusted or 'trimmed' to achieve desired electrical characteristics. This is particularly important in precision circuits where accuracy and stability are paramount. By carefully selecting and adjusting the values of resistors within the network, engineers can fine-tune the performance of electronic devices to meet specific requirements.One of the primary applications of a trimming resistive network is in the calibration of sensors and measurement devices. For instance, in temperature sensors, a trimming resistive network can be used to compensate for variations in resistance due to temperature changes. This ensures that the output signal remains stable and accurate across a range of operating conditions. Additionally, in analog-to-digital converters (ADCs), a trimming resistive network can help in achieving precise voltage levels, which is critical for accurate digital representation of analog signals.Moreover, the importance of trimming resistive network extends beyond just calibration. In many cases, these networks are essential for minimizing the effects of noise and interference in electronic circuits. By strategically placing resistors and adjusting their values, engineers can create a more robust design that is less susceptible to external disturbances. This is particularly vital in communication systems where signal integrity is essential for reliable data transmission.The process of designing a trimming resistive network involves careful consideration of several factors, including the tolerance of the resistors, the temperature coefficient, and the overall layout of the circuit. Engineers often utilize simulation software to model the behavior of the network before physical implementation. This allows them to predict how changes in resistor values will affect the overall performance of the circuit, leading to more efficient designs.Furthermore, advancements in technology have led to the development of programmable trimming resistive networks. These innovative solutions allow for dynamic adjustments to be made even after the circuit has been manufactured. This is particularly beneficial in applications where environmental conditions may change over time, requiring ongoing calibration to maintain optimal performance.In conclusion, the trimming resistive network is an essential component in modern electronic design, providing engineers with the ability to enhance the performance and reliability of circuits. Its applications range from sensor calibration to noise reduction, making it a versatile tool in the engineer's toolkit. As technology continues to evolve, the significance of trimming resistive network will undoubtedly grow, paving the way for even more precise and efficient electronic devices in the future.

在电气工程领域，trimming resistive network的概念在优化电路性能方面发挥着至关重要的作用。trimming resistive network指的是可以调整或“修剪”的电阻器配置，以实现所需的电气特性。这在精密电路中尤其重要，因为准确性和稳定性至关重要。通过仔细选择和调整网络中电阻器的值，工程师可以微调电子设备的性能，以满足特定要求。trimming resistive network的一个主要应用是在传感器和测量设备的校准中。例如，在温度传感器中，可以使用trimming resistive network来补偿由于温度变化而导致的电阻变化。这确保了输出信号在一系列工作条件下保持稳定和准确。此外，在模数转换器（ADC）中，trimming resistive network可以帮助实现精确的电压水平，这对于模拟信号的准确数字表示至关重要。此外，trimming resistive network的重要性不仅仅局限于校准。在许多情况下，这些网络对于最小化电子电路中噪声和干扰的影响至关重要。通过战略性地放置电阻器并调整其值，工程师可以创建更强大的设计，从而降低外部干扰的敏感性。这在通信系统中尤为重要，因为信号完整性对于可靠的数据传输至关重要。设计trimming resistive network的过程涉及多个因素的仔细考虑，包括电阻器的公差、温度系数和电路的整体布局。工程师通常利用仿真软件在实际实施之前对网络的行为进行建模。这使他们能够预测电阻值的变化将如何影响电路的整体性能，从而导致更高效的设计。此外，技术的进步导致了可编程trimming resistive network的开发。这些创新解决方案允许在电路制造后进行动态调整。这在环境条件可能随时间变化的应用中尤为有利，需要持续校准以保持最佳性能。总之，trimming resistive network是现代电子设计中的一个重要组成部分，为工程师提供了增强电路性能和可靠性的能力。它的应用范围从传感器校准到噪声减少，使其成为工程师工具箱中的多功能工具。随着技术的不断发展，trimming resistive network的重要性无疑会增加，为未来更精确、更高效的电子设备铺平道路。