P60B13150HXSA3
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The P60B13150HXSA3 servo motor boasts a rated output of approximately 1.0 kW, a rated rotating speed of 2000 min⁻¹, and a maximum rotating speed of 3000 min⁻¹. As part of the P6 Super BL Servo Motors series by Sanyo Denki, it features a torque constant of approximately 1.27 N·m/Arms and a phase armature resistance of about 1.32 Ω.
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Product Description:
Among servo motors the P60B13150HXSA3 motor stands out for its outstanding efficiency. >> belongs to the P6 Super BL Servo Motors series. This motor guarantees both the stability of its power output and the effectiveness of its speed regulation.
The SANYO DENKI P60B13150HXSA3 operates dependably in rapidly changing environments. It has a maximum output of 1 kW. For steady action it has a rated torque of about 4.7 N·m. It has a WDG.F winding for protection. The instantaneous highest stall torque of this motor is about 15.2 N·m. The resistance of the phase armature is roughly 1.32 ohms. Up to 5.2 Arms of continuous stall armature current is measured. The motor operates on a 3o (three-phase) electrical system. The rated armature current is approximately 4.8 Arms. The motor can withstand up to 14.6 Arms of instantaneous maximum stall current for brief periods of time. The continuous stall torque is 5.9 N·m. The rated rotation speed is 2000 min⁻¹, with a maximum speed of 3000 min⁻¹. The torque constant generated by this motor is roughly 1.27 N·m/Arm. About 44.6 mV/min⁻² is its induced voltage constant. The motor is rated for approximately 9.0 kW/S of power.
The SANYO DENK servo motor performs efficiently under varying load conditions. With an electric time, constant of around 4.5 ms its response time is fast and precise. The mechanical time constant in the absence of a sensor is approximately 5.9 milliseconds. The motor is tiny and portable as it weighs only 8 kg. It effectively combines power, speed, and electrical accuracy. With precise current ratings and fast time constants performance is consistent. In terms of efficiency, it meets the most important needs of heavy-duty machinery.
Frequently Asked Questions about P60B13150HXSA3:
Q: How does the torque constant of 1.27 N·m/Arms benefit motor control?
A: A higher torque constant improves low-speed accuracy and stable torque delivery. It also reduces the current required for torque generation.
Q: Why is a 3o system used in the P60B13150HXSA3 servo motor?
A: Three-phase systems offer smoother torque output and better efficiency. They reduce vibration and support high-performance control systems.
Q: What role does the induced voltage constant play in system design?
A: The 44.6 mV/(min⁻¹) voltage constant aids in determining back EMF during rotation. It is essential for configuring drive parameters and control logic.
Q: How does the electric time constant of 4.5 ms impact performance?
A: It enables quick current rise time for fast response during load variation. This improves motor reaction during high-speed automation.
Q: Why is phase resistance important in the P60B13150HXSA3 design?
A: The 1.32 Ω resistance affects heat generation and energy efficiency. It also impacts motor drive compatibility and voltage drop behavior.
