P60B13200BXSA3
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The P60B13200BXSA3 servo motor delivers a rated output of 1.5 kW, a continuous stall torque of 4.90 N·m, and a maximum rotating speed of 3,000 min⁻¹. Part of the P6 Super BL Servo Motors series by Sanyo Denki, it features a torque constant of 0.83 N·m/A and a rotor inertia of 2.04×10⁻⁴ kg·m².
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Product Description:
The P60B13200BXSA3 Servo Motor from Sanyo Denk offers precise motion. It is designed for dependable performance in industrial environments. This three-phase motor operates effectively and maintains torque regulation. It provides regulated power despite fluctuations in load. It is optimal for robotic systems requiring substantial workload management.
The P60B13200BXSA3 Servo Motor has a rated power of 1.5 kW and a rated torque of 4.79 Nm. It has a maximum speed of 3,000 min⁻¹ making it ideal for high-speed tasks. The rotor has an inertia of 2.04 × 10⁻⁴ kg·m². It can withstand a continuous stall force of 4.90 N·m stable continuous loads. The servo motor's input resistance is 0.67 Ω and its torque constant is 0.83 N·m/A. It enables rapid power conversion with an electric time constant of 13 ms. Without the sensor the mechanical time constant is 0.57 ms which results in faster feedback. Its maximum armature current is 6.5 A, which makes sure that the thermal load is balanced. The motor can also handle a maximum stall armature current of 26.5 A. This supports heavy starting torque or sudden load conditions. A maximum stall torque of 17.7 N·m makes sure that it can handle heavy loads. The WDG.F class of windings can handle high temperatures.
The P60B13200BXSA3 Servo Motor works at a high insulation grade ensuring longer reliability. Its induced voltage constant is 29.0 mV/(min⁻¹) for consistent voltage output. This supports accurate control and minimizes feedback errors. It supports precision motion even under fluctuating loads and continuous cycles. It performs consistently in automated lines and CNC machinery. Its specifications are tuned for energy-efficient and powerful actuation. This motor is designed to maintain smooth operation in complex systems. It combines durability with industrial-grade control accuracy.
Frequently Asked Questions about P60B13200BXSA3:
Q: How does the WDG.F winding class benefit the P60B13200BXSA3 in continuous operations?
A: The WDG.F winding class ensures thermal endurance in prolonged duty cycles. It prevents insulation breakdown in high-temperature industrial conditions.
Q: What role does the torque constant of 0.83 N·m/A play in P60B13200BXSA3 performance?
A: The torque constant ensures stable torque generation per ampere of current. This improves linearity and control accuracy under varying loads.
Q: Why is a high induced voltage constant (29.0 mV/(min⁻¹)) useful in P60B13200BXSA3?
A: A higher induced voltage constant provides better back EMF for feedback. This helps in maintaining precise control over motor speed.
Q: Why is rotor inertia of 2.04×10⁻⁴ kg·m² crucial in automation setups?
A: Lower rotor inertia enables faster acceleration and deceleration. This helps achieve precise motion control in CNC and robotic systems.
Q: Why is the low mechanical time constant of 0.57 ms important?
A: A low mechanical time constant allows for quicker speed adjustments. This enables the motor to respond rapidly in high-speed positioning applications.
