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Description
Overview
Essential details:33VM52-020-9 Low Inertia PMDC Servomotor
Product Description
The low inertia PMDC (Permanent magnet DC) servo motor series has some common characteristics and advantages.
Light weight, low inertia: Due to design optimization and material selection, these servo motors usually have a small moment of inertia, which allows them to respond quickly to control signals and achieve rapid acceleration and deceleration.
Large torque constant, large acceleration: Low inertia PMDC servo motors usually have a large torque constant, which means that they are able to produce a large torque in a short period of time, thus achieving a highly dynamic response control system.
Suitable for high-speed, high-dynamic response control systems: Due to the above characteristics, low-inertia PMDC servo motors are ideal for application scenarios requiring high-speed, high-dynamic response, such as semiconductor equipment, automation equipment, medical equipment, food machinery, packaging equipment, etc.
Adaptability to inertial load: Due to the small inertia, even if a large inertial load is generated, a smaller servo motor can be used to drive it, thereby reducing the overall size and cost of the system.
In addition, the low inertia PMDC servo motor usually has good stability and reliability, and can operate stably in a variety of harsh working environments. At the same time, they are also easy to install and maintain, reducing the overall operating costs of the system.
33VM52-000-4
Product parameter
The parameters of low inertia PMDC (Permanent magnet direct current) servo motors will vary depending on the manufacturer, model and application requirements. However, the following are some common parameters that can help you understand the basic performance and characteristics of a servo motor:
Rated Voltage: The DC voltage required for normal operation of the motor.
Rated Current: The current required for the motor to operate at rated voltage.
Rated Power: The maximum power that the motor can output at rated voltage and rated current.
Rated Speed: The rotation speed of the motor when operating at rated voltage and rated load.
Rated Torque: The maximum torque that a motor can produce at rated voltage and rated current.
Moment of Inertia: the total moment of inertia of the motor rotor and the load it carries reflects the response of the motor to changes in acceleration and deceleration.
Back-emf Constant: The proportional relationship between the Back electromotive force generated by the motor during rotation and the speed of the motor.
Torque Constant: The proportional relationship between the current of the motor and the torque produced.
Efficiency: The rate at which a motor converts electrical energy into mechanical energy.
Thermal Resistance: The thermal resistance between the internal temperature of the motor and the external ambient temperature, which is used to estimate the temperature rise of the motor.
Temperature Rise: The difference between the internal temperature of the motor and the ambient temperature when the motor is running under rated load.
Insulation Class: The highest temperature level that the insulating material of the motor can withstand.
Encoder Type: Servo motors are usually equipped with encoders to provide position and speed feedback, and the type and resolution of the encoder can affect the accuracy and dynamic performance of the system.
Mounting Type: Mounting method and size of the motor, such as flange mounting and foot mounting.
Environmental adaptability: The environmental conditions that the motor can adapt to, such as temperature range, humidity, vibration and shock.
APPLICATION
The low inertia PMDC (Permanent magnet DC) servo motor series has a wide range of applications in many fields, mainly including:
Semiconductor equipment: In the semiconductor manufacturing process, it is necessary to achieve high precision and high speed motion control. The low inertia PMDC servo motor can quickly respond to control signals, ensuring that the equipment can maintain high accuracy at high speeds.
Optical fiber communication: In the field of optical fiber communication, low inertia PMDC servo motors can be used for precision positioning and adjustment of optical fibers to meet the needs of optical fiber communication for high precision and high speed.
Medical devices: Fast and precise motion control is often required in medical devices, such as pacemakers. Low inertia PMDC servo motors provide efficient motion control to ensure the safety and accuracy of equipment operation.
Electronic processing: In the field of electronic processing, such as the production and inspection of PCB boards, it is necessary to precisely control the position and speed of processing tools. Low inertia PMDC servo motors can meet these needs and improve machining accuracy and efficiency.
Robots: In the field of robotics, low inertia PMDC servo motors are widely used for their high control accuracy and fast response speed. Both industrial robots and service robots need to respond quickly and accurately to control signals to achieve complex actions and tasks.
Other industrial automation fields: Low inertia PMDC servo motors are also widely used in other industrial automation fields, such as automated assembly lines, packaging machinery, printing machinery, etc. In these applications, servo motors need to provide high-precision, high-speed motion control to ensure the stability and efficiency of the production process.
In short, the low inertia PMDC servo motor series has a wide range of applications in areas requiring high precision and high speed motion control. With the continuous development of industrial automation and intelligent manufacturing, the application prospects of low inertia PMDC servo motors will be broader.
Shipping
Superiority products 33VM52-020-9 Low Inertia PMDC Servomotor
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