KOLLMORGEN  S20260-CNS 科尔摩根S200系列驱动器 附带程序光盘

In recent years, the motion control industry has emerged as one of the fastest growing markets worldwide. There has been a sharp rise in research initiatives, leading to new innovations and products being released time and again. Kollmorgen is a leading company from this industry, setting high standards for its competitors with its top of the class motion solutions. It has 100+ years of experience in business and has evolved to become a corporate multinational with diverse markets and an international clientele. Its product range includes solutions such as motors, drives, AVG systems, and more.

The S200 Position Node Servo Drive series is a remarkable fleet of state of the art control devices by Kollmorgen. It is famously advertised as the world’s first all-digital servo drive to offer 400 Hz bandwidth in velocity loop applications. To top this off, it is built for the CANopen communication interface that allows for field bus applications, most importantly for deep networked industrial floors. The S20260-CNS from this series is a remarkable servo drive that is suited for modern motion systems. It has a current rating of 1.5 A_RMS continuous and 4.5 A_RMS peak. It works with an input voltage of 120/240 VAC.

Apart from the exceptional bandwidth available for velocity loop systems, it is the perfect machine for current loops as well. It runs with 3-5 kHz and augmented by a 24-bit high resolution feedback. Furthermore, this motion solution has a number of functions to engineers including digital oscilloscope emulation, profile generation capability, and compatibility with incremental encoders via ComCoder. The S20260-CNS Position Node Servo Drive by Kollmorgen is a must-buy motion control product for those aiming for optimization!

 伺服系统由电机(DC或交流)、电位计、齿轮组件和控制电路组成。首先，我们使用齿轮组件来降低转速和增加电机的扭矩。比方说在伺服电机轴的初始位置，电位计旋钮的位置使得在电位计的输出端口没有电信号产生。现在，电信号被提供给误差检测放大器的另一个输入端。现在，这两个信号之间的差异，一个来自电位计，另一个来自其他来源，将在反馈机制中处理，输出将以误差信号的形式提供。该误差信号作为电机的输入，电机开始旋转。现在，电机轴与电位计相连，随着电机旋转，电位计将产生信号。因此，当电位计的角位置改变时，其输出反馈信号也会改变。一段时间后，电位计的位置达到电位计的输出与外部提供的信号相同的位置。在这种情况下，放大器没有输出信号到电机输入端，因为外部施加的信号和电位计产生的信号之间没有差异，在这种情况下，电机停止旋转。