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1326AB-B740E-M2L 伺服电机 实现对电机运行状态的精确控制

1326AB-B740E-M2L伺服电机是Allen-Bradley/罗克韦尔自动化公告1326 Torque Plus系列伺服电机。它可以以3400 RPM的最高转速,12.7千瓦的最大输出功率运行,在460伏交流额定电机电压下,每英寸额定电机扭矩为50 N-m或450磅。1326AB-B740E-M2L伺服电机还支持32安培的连续失速额定值和33.2安培或50安培的峰值失速额定值。峰值失速电流额定值取决于电机使用的艾伦-布拉德利公告1394轴模块的类型。1326AB-B740E-M2L伺服电机采用4英寸铁氧体磁体堆栈来减少摩擦。

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1326AB-B740E-M2L 伺服电机 实现对电机运行状态的精确控制

1326AB-B740E-M2L.jpg

1326AB-B740E-M2L伺服电机是Allen-Bradley/罗克韦尔自动化公告1326 Torque Plus系列伺服电机。它可以以3400 RPM的最高转速,12.7千瓦的最大输出功率运行,在460伏交流额定电机电压下,每英寸额定电机扭矩为50 N-m或450磅。1326AB-B740E-M2L伺服电机还支持32安培的连续失速额定值和33.2安培或50安培的峰值失速额定值。峰值失速电流额定值取决于电机使用的艾伦-布拉德利公告1394轴模块的类型。1326AB-B740E-M2L伺服电机采用4英寸铁氧体磁体堆栈来减少摩擦。

1326AB-B740E-M2L伺服电机将电压信号转化为转矩和转速的过程涉及到多个因素和复杂的物理原理。以下是一个简化的解释:


电压信号:1326AB-B740E-M2L伺服电机接收到的电压信号,实际上是控制其运行的一个指令。这个信号表示了期望的转速或转矩。

内部电路:伺服电机内部有一个复杂的电路系统,包括电源、控制电路、功率驱动电路等。这个电路系统负责将输入的电压信号转化为电机的实际运行指令。

磁场与电流:1326AB-B740E-M2L伺服电机的工作原理基于磁场与电流的相互作用。当电流通过电机的线圈时,会产生磁场。这个磁场与电机内部的永久磁场相互作用,产生转矩。

转矩与转速:转矩是电机旋转的力矩,而转速是电机旋转的速度。伺服电机的转矩和转速可以通过调整输入电压信号来控制。电压信号的幅度和频率影响电机的转矩和转速。一般来说,更高的电压会产生更大的转矩,更高的频率会导致更快的转速。

反馈系统:1326AB-B740E-M2L伺服电机内部通常包含一个反馈系统,该系统将电机的实际运行状态(如转矩和转速)反馈给控制器。控制器使用这些反馈信息来调整输入的电压信号,从而实现对电机运行状态的精确控制。

以上过程是一个简化的解释,实际的伺服电机控制系统要复杂得多,并且涉及到许多其他的因素和原理,如热效应、机械负载、控制算法等。如果您对这个话题有更深入的问题,建议您咨询专业的机械工程专家或查阅相关的专业文献。

1326AB-B740E-M2L 伺服电机 实现对电机运行状态的精确控制

1326AB-B740E-M2L.jpg


The 1326AB-B740E-M2L servo motor is the Allen-Bradley/ Rockwell Automation announcement 1326 Torque Plus series of servo motors. It can operate at a maximum speed of 3,400 RPM, with a maximum output power of 12.7 kW, and rated motor torque of 50 N-m or 450 pounds per inch at a rated motor voltage of 460 volts AC. The 1326AB-B740E-M2L servo motor also supports continuous stall ratings of 32 amps and peak stall ratings of 33.2 amps or 50 amps. The peak stall current rating depends on the type of Allen-Bradley Bulletin 1394 shaft module used by the motor. The 1326AB-B740E-M2L servo motor uses a 4-inch ferrite magnet stack to reduce friction.

The process by which the 1326AB-B740E-M2L servo motor converts voltage signals into torque and speed involves multiple factors and complex physical principles. Here's a simplified explanation:


Voltage signal: The voltage signal received by the 1326AB-B740E-M2L servo motor is actually an instruction to control its operation. This signal indicates the desired speed or torque.

Internal circuit: There is a complex circuit system inside the servo motor, including power supply, control circuit, power drive circuit, etc. This circuit system is responsible for converting the input voltage signal into the actual operation instructions of the motor.

Magnetic field and current: The working principle of 1326AB-B740E-M2L servo motor is based on the interaction of magnetic field and current. When an electric current passes through the coils of a motor, it creates a magnetic field. This magnetic field interacts with the permanent magnetic field inside the motor to produce torque.

Torque and speed: Torque is the torque of the motor rotation, and speed is the speed of the motor rotation. The torque and speed of the servo motor can be controlled by adjusting the input voltage signal. The amplitude and frequency of the voltage signal affect the torque and speed of the motor. In general, higher voltages produce greater torque, and higher frequencies lead to faster rotational speeds.

Feedback system: The 1326AB-B740E-M2L servo motor usually contains a feedback system inside, which feedbacks the actual operating state of the motor (such as torque and speed) to the controller. The controller uses the feedback information to adjust the input voltage signal, so as to achieve accurate control of the motor running state.

The above process is a simplified explanation, the actual servo motor control system is much more complex, and involves many other factors and principles, such as thermal effects, mechanical loads, control algorithms, etc. If you have more in-depth questions about this topic, it is recommended that you consult a professional mechanical engineering expert or consult the relevant professional literature.

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