Machine base |
40 |
60 |
60 |
80 |
Rated Power (kW) |
0.1 |
0..2 |
0.4 |
0.75 |
Rated Torque (N-m)*2 |
0.32 |
0.64 |
1.27 |
2.39 |
Maximum Torque (N-m) |
1.12 |
2.24 |
4.45 |
8.36 |
Rated Speed (rpm) |
3000 |
Maximum Speed (rpm) |
6000 |
Rated Current (Arms) |
0.9 |
1.45 |
2.65 |
5.1 |
Max. Instantaneous Current (Arms) |
3.88 |
6.2 |
10.1 |
20.6 |
Rated Power Rate (kW/s)*3 |
25.6 (24) |
45.5 (34.1) |
107.5 (89.6) |
102.2 (93) |
Rotor Inertia (10-4kg.m2 ) *3 |
0.04 (0.0426) |
0.09 (0.12) |
0.15 (0.18) |
0.559 (0.614) |
Mechanical Time Constant (ms)*3 |
0.838 (0.892) |
0.64 (0.85) |
0.41 (0.5) |
0.44 (0.48) |
Insulation Class |
Class A (UL), Class B (CE) |
Insulation Resistance |
> 100 MΩ, DC 500V |
Insulation Strength |
1.8 kVac, 1 sec |
Vibration Level (μm) |
V15 |
Operating Temperature |
0˚C - 40˚C*3 |
Storage Temperature |
"-10˚C - 80˚C*3 |
Storage & Operation Humidity |
20 - 90%RH (non-condensing) |
Vibration Capacity |
2.5 G |
Optimized Performance
1.High Response Bandwidth
* Higher responsiveness: From 0.5 kHz of the ASDA-B2 series to 3.1kHz of the ASDA-B3
(series to 3.1kHz of the ASDA-B3 series)
* Increased productivity: Settling time reduced by 40%
2.Higher Load Tolerance
• Enhances positioning precision and optimizes the system
• Higher response bandwidth with the same load conditions
3.24-bit Absolute Encoder
• Enhances positioning precision with a resolution of 16,777,216 pulses per revolution
• Stable operation at low speeds improves machine performance
• Absolute encoder retains the motor's position when the power is off.
4.Low Cogging Torque
The cogging torque is 50% of previous models which increases the smoothness of constant speed operation and low speed machining.
5.Increased Speed and Torque
• Motor speed increased to 6,000 rpm
• Torque overload ratio increased to 3.5 times and the time required for acceleration and deceleration is shortened
• Significantly increases productivity and efficiency
Functions
1. Various Motion Functions2. EtherCAT Communication Functions
3. Vibration Suppression Functions
4. Self-Diagnosis and Adaptation
5. Energy-Saving and Compact Size
6. Multiple Selections
7. User-Friendly Software Interface
AC servo motors are utilized across a wide range of applications due to their precision, efficiency, and reliability.
1.Industrial Automation AC servo motors are extensively used in industrial automation for tasks such as driving pumps, fans, and conveyor belts. Their high efficiency and accuracy contribute significantly to enhancing production efficiency and reducing energy consumption in manufacturing processes.
2.Robotics In robotics, AC servo motors play a crucial role in providing precise motion control. They enable smooth and accurate movements for robotic arms, joints, and actuators, making them essential for tasks requiring high precision, such as assembly and material handling.
3.CNC Machinery AC servo motors are integral to CNC (Computer Numerical Control) machines, where they control the movement of tools with high precision. They allow for accurate positioning and speed control, which is critical for machining operations.
4.Packaging Machinery These motors are widely used in packaging applications, where they provide coordinated motion for tasks such as filling, sealing, and labeling. Their ability to handle rapid acceleration and deceleration makes them ideal for high-speed packaging lines.
5.New Energy Industry In the renewable energy sector, particularly in wind and solar energy applications, AC servo motors are employed for precise control of mechanisms that adjust the orientation of solar panels or wind turbine blades, optimizing energy capture.
6.Automotive Manufacturing AC servo motors are used in various automotive manufacturing processes, including engine assembly lines and testing equipment. Their precise control contributes to improved production efficiency and product quality in the automotive industry.
7.Aerospace In aerospace applications, AC servo motors are utilized to drive precision instruments and equipment, where strict weight and performance requirements are critical. Their reliability and accuracy are vital for the operation of complex aerospace systems.
8.Medical Equipment These motors are also found in medical devices such as CT scanners and MRI machines, where precise control and continuous variable speed characteristics are necessary for optimal performance and patient safety.
9.Logistics and Transportation
In logistics, AC servo motors are used in automated guided vehicles (AGVs) and other transportation systems to ensure precise movement and positioning, enhancing efficiency in material handling and distribution.
10.Smart Homes AC servo motors are increasingly being integrated into smart home technologies, controlling various devices and systems for improved automation and energy management.
These diverse applications highlight the versatility and importance of AC servo motors in modern technology and industry.