Q1AA10150HXSYKM
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The Q1AA10150HXSYKM servo motor delivers a rated output of 1.5 kW, a rated speed of 2000 min-1, a rated torque of 7.2 N·m, and a peak current of 25.5 Arms. Part of the Q SANMOTION Servo Motors series by Sanyo Denki, it features an inertia of 79.9 ×10-4 kg·m2 and a torque constant of 0.937 N·m/Arms.
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Product Description:
Sanyo Denki manufactures the Q1AA10150HXSYKM servo motor. Under normal working circumstances, the Sanyo Denki Q1AA10150HXSYKM servo motor can transform electrical input into continuous mechanical motion with a continuous power output of 1.5 kW. This power output establishes the pace of mechanical work that the motor can do in real time and is a direct indicator of its long-term workload capability. This standard determines the range of tasks the motor may do in industrial settings, such as actuating linear stages and driving conveyor belts. Greater acceleration profiles and applications where mass and inertia are important factors are supported by higher output power, which guarantees operational consistency without mechanical or thermal deterioration.
Under fully loaded conditions, the motor's rotor maintains a steady-state angular velocity while operating at its rated speed of 2000 revolutions per minute. This speed characteristic reflects how the servo system synchronizes motion orders with real-time actuation and is more than just a rotation metric. The rising time, settling time, and overall frequency response of the motor-controller system are all directly impacted by the rated speed, which also has an impact on closed-loop system dynamics. This feature, which is essential for high-precision control loops, guarantees that the motor can attain and maintain the intended motion profile in high-speed automation or CNC machining operations while reducing overshoot and positioning inaccuracy.
The constant twisting force that the motor can produce without going over its thermal limitations is defined by its rated torque of 7.2 newton-meters. In order to predict dynamic load circumstances, engineers use this crucial variable in the torque-speed envelope. By maintaining rotational stability at this torque, the servo motor balances mechanical resistance and electromagnetic force. This becomes especially important in systems like rotary indexing tables or vertical actuators that have gravity or frictional stresses. The relationship between torque and speed at rated values also helps in determining the optimal operating point for the motor, which maximizes energy conversion and minimizes electrical losses.
Frequently Asked Questions about Q1AA10150HXSYKM:
Q: What is the rated output and how does it affect performance?
A: The rated output of the Q1AA10150HXSYKM servo motor is 1.5 kW. This means the motor can consistently deliver 1.5 kilowatts of mechanical power during regular operation without overheating. This level of power is suitable for medium- to heavy-duty industrial automation tasks, providing enough force and speed for applications that require high precision and repeatability under load.
Q: What is the rated speed and why is it important in motion control?
A: The motor has a rated speed of 2000 min⁻¹ (revolutions per minute), which defines the optimal operating speed for sustained performance. Rated speed affects how fast a system can move or respond, making it a key parameter for processes that demand quick positioning or rapid cycling. A stable 2000 min⁻¹ ensures both torque and speed are well-balanced.
Q: What does the rated torque of 7.2 N·m indicate about this servo motor?
A: A rated torque of 7.2 N·m means the motor can apply this amount of twisting force continuously during operation without overheating. This level of torque is critical for lifting or driving loads in industrial applications where reliable and consistent force is required over time.
Q: How does the continuous stall torque of 8 N·m contribute to its capabilities?
A: Continuous stall torque is the torque the motor can produce while holding a position without moving, and it’s rated at 8 N·m. This means the servo can maintain force against a static load indefinitely without damage, which is essential in robotics, conveyors, and machine tools where holding torque is frequently needed.
Q: What is the significance of the peak torque of 20.5 N·m?
A: Peak torque is the highest torque the motor can deliver for a short duration without damage, and 20.5 N·m is quite high for a motor of this class. It enables the system to handle momentary load spikes, such as rapid accelerations or decelerations, making the motor more reliable under dynamic conditions.
