control voltage

简明释义

控制电压

英英释义

例句

1.The control voltage from the sequencer determines the sequence of notes played.

来自音序器的控制电压决定了演奏的音符序列。

2.Adjusting the control voltage can change the filter cutoff frequency in a synthesizer.

调整控制电压可以改变合成器中的滤波器截止频率。

3.A higher control voltage typically results in a higher output level in audio circuits.

较高的控制电压通常会导致音频电路中的输出电平更高。

4.The synthesizer uses a control voltage to modulate the pitch of the sound.

合成器使用控制电压来调制声音的音高。

5.In modular synthesizers, each module can respond to a different control voltage for unique sounds.

在模块化合成器中， 每个模块可以响应不同的控制电压以产生独特的声音。

作文

In the world of electronics, the term control voltage refers to a specific voltage level used to manipulate and control the behavior of electronic circuits and devices. Understanding control voltage is essential for anyone working with synthesizers, audio equipment, or various types of automated systems. To grasp its significance, we must first delve into its applications and how it operates within different contexts.Control voltage is primarily utilized in modular synthesizers, where it serves as a means of communication between different modules. For instance, one module may generate a control voltage that dictates the pitch of an oscillator, while another module could use it to modulate the amplitude of a sound. This interconnectivity allows for intricate sound design and manipulation, giving musicians and sound engineers a powerful tool to create unique audio experiences.The concept of control voltage is not limited to music production; it also plays a crucial role in automation systems. In industrial settings, control voltages are often used to regulate machinery and processes. For example, a sensor might detect a change in temperature and generate a corresponding control voltage that adjusts the heating element's output. This feedback loop ensures that systems operate efficiently and safely, highlighting the importance of control voltage in maintaining optimal performance.Moreover, the use of control voltage extends to robotics and automation technology. In robotic systems, control voltage can dictate the movement of motors and servos, allowing for precise control over the robot's actions. By varying the control voltage, operators can achieve different speeds and positions, enabling complex maneuvers that are vital for tasks ranging from assembly line work to delicate surgical procedures.Understanding the principles behind control voltage also involves recognizing its relationship with other electrical concepts. Voltage is essentially the potential difference that drives current through a circuit, and when we apply this to control voltage, we see that it acts as a signal that influences the current flow in connected components. This interaction is fundamental to the operation of many electronic devices, making it a critical area of study for engineers and technicians alike.In conclusion, the term control voltage encompasses a wide range of applications across various fields, including music, automation, and robotics. Its ability to influence the behavior of electronic systems makes it a vital concept for anyone involved in electronics or related industries. By mastering the understanding of control voltage, individuals can harness its power to innovate and enhance the functionality of their projects, whether they are creating captivating soundscapes or developing advanced automated systems. As technology continues to evolve, the relevance of control voltage will undoubtedly remain significant, paving the way for new advancements and discoveries in the realm of electronics.

在电子世界中，术语控制电压指的是用于操控和控制电子电路及设备行为的特定电压水平。理解控制电压对于任何从事合成器、音频设备或各种自动化系统的人来说都是至关重要的。要掌握其重要性，我们必须首先深入探讨其应用以及它在不同背景下的运作方式。控制电压主要用于模块化合成器，在其中，它作为不同模块之间通信的手段。例如，一个模块可能会生成一个控制电压，来决定振荡器的音高，而另一个模块则可以利用它来调制声音的幅度。这种互联性允许进行复杂的声音设计和操控，为音乐家和音频工程师提供了一种强大的工具，以创造独特的音频体验。控制电压的概念不仅限于音乐制作；它在自动化系统中也发挥着关键作用。在工业环境中，控制电压通常用于调节机械和过程。例如，一个传感器可能会检测到温度变化，并生成相应的控制电压，以调整加热元件的输出。这个反馈回路确保系统高效安全地运行，突显了控制电压在维持最佳性能中的重要性。此外，控制电压的使用还扩展到机器人和自动化技术。在机器人系统中，控制电压可以决定电机和伺服的运动，从而实现对机器人的精确控制。通过改变控制电压，操作员可以实现不同的速度和位置，使得复杂的操作成为可能，这对于从装配线工作到精细外科手术等任务都是至关重要的。理解控制电压背后的原理还涉及到认识它与其他电气概念之间的关系。电压本质上是驱动电流通过电路的电位差，当我们将其应用于控制电压时，我们会看到它作为一种信号，影响连接组件中的电流流动。这种相互作用是许多电子设备运作的基础，使其成为工程师和技术人员研究的重要领域。总之，术语控制电压涵盖了多个领域的广泛应用，包括音乐、自动化和机器人。它影响电子系统行为的能力使其成为任何参与电子或相关行业的关键概念。通过掌握对控制电压的理解，个人可以利用其力量来创新和增强项目的功能，无论是创造迷人的声景还是开发先进的自动化系统。随着技术的不断发展，控制电压的相关性无疑将保持重要性，为电子领域的新进展和发现铺平道路。