transfer characteristic
简明释义
传输特性
英英释义
例句
1.Understanding the transfer characteristic of this sensor is crucial for accurate measurements.
了解该传感器的传输特性对准确测量至关重要。
2.The transfer characteristic of a system describes how input signals are converted to output signals.
系统的传输特性描述了输入信号如何转换为输出信号。
3.The engineer analyzed the transfer characteristic of the amplifier to ensure it met the design specifications.
工程师分析了放大器的传输特性以确保其符合设计规范。
4.In control theory, the transfer characteristic helps predict the behavior of dynamic systems.
在控制理论中,传输特性有助于预测动态系统的行为。
5.We need to graph the transfer characteristic to visualize the performance of the circuit.
我们需要绘制传输特性图,以便可视化电路的性能。
作文
In the field of engineering and electronics, the term transfer characteristic refers to the relationship between the input and output of a system or device. This concept is crucial for understanding how different systems respond to various inputs, which in turn allows engineers to design more efficient and effective devices. The transfer characteristic can be represented graphically, typically as a curve on a graph where the x-axis represents the input and the y-axis represents the output. By analyzing this curve, one can determine the performance and behavior of the system under different conditions. For instance, consider an amplifier used in audio devices. The transfer characteristic of the amplifier shows how the input audio signal is transformed into an output signal. If the amplifier has a linear transfer characteristic, it means that the output signal will be a faithful reproduction of the input signal, merely amplified in strength. However, if the transfer characteristic is non-linear, the output may distort the original signal, leading to a loss of audio quality. Understanding the transfer characteristic is essential for engineers when designing circuits. They must ensure that the transfer characteristic meets the desired specifications for the application at hand. For example, in a temperature sensor, the transfer characteristic would illustrate how changes in temperature affect the output voltage of the sensor. A precise and predictable transfer characteristic is vital for accurate temperature readings. Moreover, the transfer characteristic can also vary with external factors such as temperature, humidity, and other environmental conditions. Engineers must take these variables into account when designing systems to ensure reliability and consistency. By understanding the transfer characteristic of a system, engineers can predict how it will behave under different scenarios, allowing them to make informed decisions during the design process. In addition to engineering, the concept of transfer characteristic can also be applied in other fields such as economics and biology. In economics, for instance, the transfer characteristic could describe how changes in consumer income affect spending behavior. Similarly, in biology, it could refer to how the introduction of a new species affects the ecosystem. In conclusion, the transfer characteristic is a fundamental concept that plays a significant role in various fields. Whether it is in engineering, economics, or biology, understanding the transfer characteristic allows professionals to analyze and predict the behavior of systems. This understanding ultimately leads to better designs, improved efficiency, and enhanced performance across different applications. As technology continues to advance, the importance of mastering the transfer characteristic will only grow, making it a vital area of study for future engineers and scientists.
在工程和电子领域,术语transfer characteristic指的是系统或设备的输入与输出之间的关系。这个概念对于理解不同系统如何响应各种输入至关重要,这反过来又使工程师能够设计出更高效和有效的设备。transfer characteristic可以通过图形表示,通常是在一个图表上,x轴代表输入,y轴代表输出。通过分析这条曲线,可以确定系统在不同条件下的性能和行为。例如,考虑用于音频设备的放大器。放大器的transfer characteristic显示输入音频信号如何转化为输出信号。如果放大器具有线性transfer characteristic,这意味着输出信号将忠实地再现输入信号,仅仅在强度上得到放大。然而,如果transfer characteristic是非线性的,输出可能会失真原始信号,从而导致音质下降。理解transfer characteristic对工程师在设计电路时至关重要。他们必须确保transfer characteristic符合手头应用的期望规格。例如,在温度传感器中,transfer characteristic将说明温度变化如何影响传感器的输出电压。精确且可预测的transfer characteristic对准确的温度读取至关重要。此外,transfer characteristic还可能因温度、湿度和其他环境条件等外部因素而变化。工程师在设计系统时必须考虑这些变量,以确保可靠性和一致性。通过理解系统的transfer characteristic,工程师可以预测其在不同场景下的行为,从而在设计过程中做出明智的决策。除了工程,transfer characteristic的概念还可以应用于经济学和生物学等其他领域。例如,在经济学中,transfer characteristic可以描述消费者收入变化如何影响消费行为。同样,在生物学中,它可以指新物种的引入如何影响生态系统。总之,transfer characteristic是一个基本概念,在各个领域发挥着重要作用。无论是在工程、经济学还是生物学中,理解transfer characteristic使专业人员能够分析和预测系统的行为。这种理解最终导致更好的设计、更高的效率和在不同应用中的增强性能。随着技术的不断进步,掌握transfer characteristic的重要性只会增加,使其成为未来工程师和科学家研究的关键领域。
