Here is a summary of the BCU-02 3AUA0000110429 product in English:
Product Model: BCU-02 3AUA0000110429
Product Parameters:
- Drive Voltage: DC20-50V1
- Drive Current: 0.71A/phase to 3.0A/phase1
- Motor Type: Compatible with two-phase hybrid stepping motors with current ratings up to 3.0A and diameters ranging from 42-86mm1
Product Specifications:
- Torque Control Accuracy: ±5%1
- Steady-state Speed Accuracy: ±0.02%1
- Overload Capacity: 150% rated current for 60s, 180% rated current for 5s1
- System Response Time: 20ms1
- Maximum Step Frequency: Up to 200Kpps (kilo pulses per second)1
- Control Modes: Supports vector control, weak magnetic field control, and PID control1
Dimensions and Weight:
- Unfortunately, the specific dimensions and weight for BCU-02 3AUA0000110429 are not provided in the search results.
Features:
- High Performance: Designed for precision control of two-phase hybrid stepping motors1
- Low Noise: Uses a bipolar constant current chopping method to reduce motor noise and improve smoothness1
- High Speed and Torque: Capable of driving motors at high speeds with high torque1
- Thermal Protection: When the stepper pulse stops for more than 100ms, the coil current is automatically halved, reducing heat generation by 50%1
- Communication: Supports CAN communication for easy integration with multiple pumps1
- Protection: Includes protection features such as phase loss, short circuit, and overheat detection1
Functions:
- Provides precision control of two-phase hybrid stepping motors1
- Used to drive a variety of motors in applications requiring high precision and smooth operation1
Application Areas:
- Ideal for applications such as engraving machines, laser equipment, labeling machines, electronic equipment, and advertising equipment1
Please note that the specifications and features mentioned may vary depending on the specific product variant and manufacturer’s information. Always refer to the official documentation or datasheet for accurate and up-to-date information.
Reviews
There are no reviews yet.