Pulse Type AC Servo System
Strong internal motion control functions which can realize position, speed,torque,homing controlling modes. It also supports I/O control and standard Modbus RTU protocol. It can replace PLC partly, which helps to save cost.
Drives Of P100S Series As Example:
Drives Of P300 Series As Example:
EtherCAT Bus Field AC Servos
System Wiring Example
Dimension
Drive Specification
In the trend of advocating smart and simple industrial automation, environmentally friendly products, value-added solutions, K-Drive, as one of the world's leading drive manufacturers aggressively investing in R&D, production, and continuous quality improvement, is well positioned to provide its customers with technology-driven, performance-outstanding products such as VFDs, wind power converters, servo drives, HEV/EV drives, helping its customers save energy and increase industrial productivity with sustainability on the one hand, and enhancing their entire value-chain quality, delivery, and services on the other hand.
Performance | Common brands | K-Drive |
---|---|---|
Applicable motors | Asynchronous motors | Asynchronous /synchronous motors |
Starting torque | 2.0Hz, 150% (sensor-less vector control) 0Hz, 180% (closed-loop vector control) | 0.5Hz, 180% (sensor-less vector control) 0Hz, 200% (closed-loop vector control) |
Speed adjustable range | 1:100 (SVC), 1:1000 (VC) | 1:200 (SVC), 1:1000 (VC) |
Ambient temperature (no derating required) | -10-40ºC | -10-50ºC (for most of the models) |
Rated input voltage | 208VAC-400VAC | 208VAC-480VAC |
Communication | Modbus RTU//ASCII | Modbus RTU//ASCII Profibus-DP, CANopen, etc. |
Position control (fixed length, or angular positioning) | × | √ |
Field weakening control | × | √ |
Autotune online | Online | Online & Offline |
Short-time ramp-up | Trip | No trip |
Customized features (software and/or hardware) | Unprocurable or no experience | Procurable with rich experience |
In production, rigorous quality control is implemented on components, circuit boards, and the finished goods, assuring products without defects.
Determine the torque and speed requirements: Calculate the maximum torque and speed required for your application. This will help you select a servo motor with the appropriate specifications.
Consider the load characteristics: The characteristics of the load, such as inertia, friction, and weight, will affect the selection of the servo motor. Choose a motor that can handle the load's characteristics.
Choose the appropriate size: The size of the motor should match the size of the load. A larger motor can handle a heavier load, but it may be more expensive and consume more power.
Look for feedback options: Servo motors typically come with different types of feedback options, such as encoders, resolvers, or hall effect sensors. Choose the appropriate feedback option for your application.
Select a compatible drive: Choose a servo drive that is compatible with the selected motor. The drive should be able to provide the necessary power and control signals to the motor.
Consider the application environment: Consider the application's operating environment, such as temperature, humidity, and vibration. Choose a servo motor that can operate reliably in that environment.
Evaluate cost: Consider the cost of the servo motor and drive, as well as the cost of installation and maintenance.