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ZF-D200 Series Stepper Servo Drive Systems

ZF-D200 Series Stepper Servo Drive Systems

Standard Packaging: Carton and plywood box packaging
Delivery Period: 3 Days
Payment Method: L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Capacity: 500-10000 per Month
Detail Information
Brand Name
ZFeng
Certification
CE、CB、CCC、ISO9001、ISO14001、ISO45001、EN61439、EN61000
Model Number
D200 Series
Input Voltage:
220/380V
Match Motor Power:
0.1 ~ 4.5 Kw
Control Model:
IGBT
Max Output Current:
3.5 ~ 32.0A
Speed Control Range:
1:6000
Highlight:

380V Servo Drive System

,

IGBT Control Servo Drive System

,

380V ac servo control system

Product Description
ZF-D200 Series Stepper Servo Drive Systems

A stepper servo system integrates the principles of stepper motors and servo control technology to combine the advantages of both systems, offering enhanced precision, efficiency, and adaptability.


1. Core Components
  • Stepper Motor : A brushless DC motor that rotates in discrete steps (e.g., 1.8° or 0.9° per step) when energized by electrical pulses.
  • Servo Drive/Controller : Processes feedback signals (position, velocity, torque) and adjusts motor output in real time via closed-loop control.
  • Feedback Device : Typically an encoder or resolver, providing high-resolution position/velocity data to the controller.

2. Working Principle
  • Open-Loop vs. Closed-Loop : Traditional stepper motors operate open-loop, relying on pulse counting for positioning. In a stepper servo system, feedback enables closed-loop control, correcting errors caused by load variations or external disturbances.
  • Microstepping : Divides full steps into smaller increments (e.g., 256 microsteps/full step) for smoother motion and reduced resonance.
  • FOC (Field-Oriented Control) : Advanced algorithms (e.g., vector control) optimize torque and efficiency by aligning the magnetic field with the rotor.

3. Key Features
  • High Precision : Positioning accuracy <±1 arc-second with high-resolution encoders (e.g., 23-bit).
  • Elimination of Lost Steps : Closed-loop feedback ensures the motor maintains synchronization with commands, even under overload.
  • Dynamic Performance : Fast acceleration/deceleration (e.g., 5000 rpm/s) and smooth velocity control.
  • Energy Efficiency : Reduced power consumption via adaptive current control and low-idle current modes.
  • Compact Design : Integrated driver-motor units save space and simplify wiring.

4. Applications
  • Industrial Automation : CNC machines, 3D printers, and semiconductor equipment.
  • Robotics : Joint drives in collaborative robots (cobots) requiring safety and precision.
  • Medical Devices : Surgical robots, diagnostic equipment, and laboratory automation.
  • Textile & Packaging: High-speed winding, labeling, and material handling systems.

5. Advantages Over Traditional Systems
  • Stepper Motors : Low cost, simplicity, and high holding torque at low speeds.
  • Servo Motors : Superior speed control, efficiency, and overload resilience.
  • Stepper Servo Hybrid : Combines cost-effectiveness with servo-grade precision and reliability.

products
PRODUCTS DETAILS
ZF-D200 Series Stepper Servo Drive Systems
Standard Packaging: Carton and plywood box packaging
Delivery Period: 3 Days
Payment Method: L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Capacity: 500-10000 per Month
Detail Information
Brand Name
ZFeng
Certification
CE、CB、CCC、ISO9001、ISO14001、ISO45001、EN61439、EN61000
Model Number
D200 Series
Input Voltage:
220/380V
Match Motor Power:
0.1 ~ 4.5 Kw
Control Model:
IGBT
Max Output Current:
3.5 ~ 32.0A
Speed Control Range:
1:6000
Packaging Details:
Carton and plywood box packaging
Delivery Time:
3 Days
Payment Terms:
L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Ability:
500-10000 per Month
Highlight

380V Servo Drive System

,

IGBT Control Servo Drive System

,

380V ac servo control system

Product Description
ZF-D200 Series Stepper Servo Drive Systems

A stepper servo system integrates the principles of stepper motors and servo control technology to combine the advantages of both systems, offering enhanced precision, efficiency, and adaptability.


1. Core Components
  • Stepper Motor : A brushless DC motor that rotates in discrete steps (e.g., 1.8° or 0.9° per step) when energized by electrical pulses.
  • Servo Drive/Controller : Processes feedback signals (position, velocity, torque) and adjusts motor output in real time via closed-loop control.
  • Feedback Device : Typically an encoder or resolver, providing high-resolution position/velocity data to the controller.

2. Working Principle
  • Open-Loop vs. Closed-Loop : Traditional stepper motors operate open-loop, relying on pulse counting for positioning. In a stepper servo system, feedback enables closed-loop control, correcting errors caused by load variations or external disturbances.
  • Microstepping : Divides full steps into smaller increments (e.g., 256 microsteps/full step) for smoother motion and reduced resonance.
  • FOC (Field-Oriented Control) : Advanced algorithms (e.g., vector control) optimize torque and efficiency by aligning the magnetic field with the rotor.

3. Key Features
  • High Precision : Positioning accuracy <±1 arc-second with high-resolution encoders (e.g., 23-bit).
  • Elimination of Lost Steps : Closed-loop feedback ensures the motor maintains synchronization with commands, even under overload.
  • Dynamic Performance : Fast acceleration/deceleration (e.g., 5000 rpm/s) and smooth velocity control.
  • Energy Efficiency : Reduced power consumption via adaptive current control and low-idle current modes.
  • Compact Design : Integrated driver-motor units save space and simplify wiring.

4. Applications
  • Industrial Automation : CNC machines, 3D printers, and semiconductor equipment.
  • Robotics : Joint drives in collaborative robots (cobots) requiring safety and precision.
  • Medical Devices : Surgical robots, diagnostic equipment, and laboratory automation.
  • Textile & Packaging: High-speed winding, labeling, and material handling systems.

5. Advantages Over Traditional Systems
  • Stepper Motors : Low cost, simplicity, and high holding torque at low speeds.
  • Servo Motors : Superior speed control, efficiency, and overload resilience.
  • Stepper Servo Hybrid : Combines cost-effectiveness with servo-grade precision and reliability.