servos

简明释义

英[ˈsɜː.vəʊz]美[ˈsɜr.voʊz]

n. 伺服系统；伺服机构（servo 的复数）

n. （Servos）人名；（德）泽福斯

英英释义

单词用法

同义词

反义词

例句

1.Not exceeding the number of servos rated for your specific BEC.

使用舵机数量超过了电调的容量。

2.Servos for large radars and launchers are either electro-hydraulic or all-electric.

大型雷达和发射装置的伺服系统，不是电动-液压式的，就是全电动式的。

3.In addition, all of the controls (including the rudder) are enabled by electronically controlled servos-much like a remote control car that can be controlled by a joystick.

除此以外，所有的控制器(包括方向舵)都启用电子控制伺服系统- - -和一个可以由一个游戏杆控制的遥控车很象。

4.There is enough space in the fuselage to place four servos for the flaps, stabilizer and the rudder.

有机身的充足空间设置四个伺服作为分版原图，稳定剂和舵。

5.I'll clean your servos later. Come on.

我回头帮你清洁伺服系统。来吧。

6.Only two servos are used in my design.

只有两个伺服用在我的设计。

7.Power on the Receiver, check if the four servos could work correctly.

接通接收机电源，检查一下四个舵机是否均能正确的工作。

8.The drone's flight stability is enhanced by its precise servos.

这架无人机的飞行稳定性得益于其精确的伺服电机。

9.In robotics, servos are essential for joint movement.

在机器人技术中，伺服电机对于关节运动至关重要。

10.We replaced the faulty servos to improve the model's performance.

我们更换了故障的伺服电机以提高模型的性能。

11.The RC car uses high-torque servos for better steering control.

这款遥控车使用高扭矩的伺服电机以获得更好的转向控制。

12.Adjusting the servos can fine-tune the robot's movements.

调整这些伺服电机可以微调机器人的动作。

作文

In the world of robotics and automation, the term servos refers to a type of motor that is widely used to control the movement of various devices. These servos are essential components in many applications, ranging from simple hobby projects to complex industrial machinery. Understanding how servos work and their applications can greatly enhance one's knowledge of engineering and technology. A servo motor is designed to provide precise control of angular position, velocity, and acceleration. Unlike regular motors, which simply rotate continuously, servos are capable of moving to specific angles and holding that position. This precision makes servos invaluable in applications where accurate movement is crucial, such as in robotic arms, drones, and even camera gimbals. The operation of a servo motor is based on a feedback loop system. This system includes a sensor that detects the current position of the motor and sends this information back to a controller. The controller then compares the actual position to the desired position and adjusts the power sent to the servo accordingly. This continuous adjustment allows for smooth and precise movements, making servos ideal for tasks that require fine control. One of the most common types of servos is the hobby servo, which is often used in remote-controlled cars, airplanes, and robots. Hobby servos typically have a limited range of motion, usually around 180 degrees, and are relatively easy to control using a simple pulse-width modulation (PWM) signal. This makes them accessible for beginners who are just starting to explore the world of robotics. On the other hand, there are also continuous rotation servos, which can turn indefinitely in either direction. These servos are often used in applications where continuous movement is required, such as in conveyor belts or rotating displays. However, controlling the speed and direction of continuous rotation servos is slightly more complex than standard hobby servos due to the lack of positional feedback. In industrial settings, servos play a critical role in automation and manufacturing processes. They are used in CNC machines, robotic arms, and assembly lines to ensure that tasks are performed with high precision and efficiency. The ability of servos to maintain accuracy over time makes them a preferred choice for industries that require consistent quality in their products. Moreover, advancements in technology have led to the development of smart servos, which incorporate advanced features such as built-in sensors and communication protocols. These smart servos can be programmed to perform complex tasks autonomously, further increasing their utility in modern applications. In conclusion, servos are an integral part of many technological advancements in robotics and automation. Their ability to provide precise control and feedback makes them essential for a wide range of applications. Whether you are a hobbyist working on a small project or an engineer involved in large-scale manufacturing, understanding the workings and capabilities of servos can significantly enhance your work. As technology continues to evolve, the importance of servos will only increase, paving the way for more innovative solutions in the future.

在机器人和自动化的世界中，术语servos指的是一种广泛用于控制各种设备运动的电机。这些servos是许多应用中的基本组成部分，从简单的爱好项目到复杂的工业机械。理解servos的工作原理及其应用可以极大地增强一个人对工程和技术的知识。 Servo电机旨在提供精确的角度位置、速度和加速度控制。与普通电机不同，普通电机只是连续旋转，servos能够移动到特定角度并保持该位置。这种精确性使得servos在需要准确运动的应用中不可或缺，例如在机器人手臂、无人机甚至相机云台中。 Servo电机的操作基于反馈回路系统。该系统包括一个传感器，用于检测电机的当前位置，并将此信息反馈给控制器。控制器然后将实际位置与期望位置进行比较，并相应地调整发送给servo的电力。这种持续的调整使得运动平滑而精确，使得servos非常适合需要精细控制的任务。 最常见的servos之一是爱好者伺服电机，它通常用于遥控车、飞机和机器人。爱好者servos的运动范围通常有限，通常约为180度，并且使用简单的脉宽调制（PWM）信号相对容易控制。这使得它们对刚开始探索机器人世界的初学者来说更易于接触。 另一方面，还有连续旋转servos，可以无限制地向任意方向旋转。这些servos通常用于需要连续运动的应用，例如传送带或旋转显示器。然而，由于缺乏位置信息反馈，控制连续旋转servos的速度和方向比标准爱好者servos稍微复杂一些。 在工业环境中，servos在自动化和制造过程中发挥着关键作用。它们被用于数控机床、机器人手臂和装配线，以确保任务以高精度和效率执行。servos在时间上保持精确性的能力使其成为需要产品质量一致性的行业的首选。 此外，技术的进步导致了智能servos的发展，这些servos集成了内置传感器和通信协议等先进功能。这些智能servos可以被编程以自主执行复杂任务，进一步增加了它们在现代应用中的实用性。 总之，servos是许多机器人和自动化技术进步的重要组成部分。它们提供精确控制和反馈的能力使其在各种应用中至关重要。无论您是从事小型项目的爱好者，还是参与大规模制造的工程师，理解servos的工作原理和能力都能显著提升您的工作。随着技术的不断发展，servos的重要性只会增加，为未来更具创新性的解决方案铺平道路。