Q1EA06020DXS00M
Wake Industrial LLC is not an authorized distributor of this product.
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The Q1EA06020DXS00M, crafted by Sanyo Denki as part of the Q SANMOTION Servo Motors series, delivers a rated output of 0.2 kW. This servo motor operates at a rated speed of 3000 min⁻¹, with a peak torque of 1.91 N·m and a continuous stall current of 4.5 Arms. It also boasts a torque constant of 0.161 N·m/Arms.
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Product Description:
The Q1EA06020DXS00M is a 100V class, low-inertia AC servo motor engineered for compact motion systems by Sanyo Denki. Its smooth operation, minimal vibration and quick dynamic response is ideal for positioning, speed and torque control where performance and precision are essential.
The Q1EA06020DXS00M AC servo motor operates with a 60 mm flange dimension along with 200 watts rated power capability which enables medium-duty automation systems. It includes an incremental encoder of model PP031 with 2000 pulses per rotation to support accurate feedback control. The torque constant of Q1EA0 AC servo motor measures 0.29 Newton-meters for every Arms and its voltage constant stands at 0.49 millivolts during one minute. This servo motor Q1EA0 presents a phase resistance of 2.2 ohms and its rotor inertia measurement equals 0.141×10−4 kg·m² to enable quick responses with minimal mechanical delay. The Q1EA0 AC servo motor shows electrical and mechanical time constants measuring as 8.0 milliseconds and 2.4 milliseconds respectively. This product contains no built-in holding brake yet it can work between an ambient temperature range of 0 to 40 degrees Celsius alongside up to 90% relative humidity that does not cause condensation. The Q1EA0 AC servo motor achieves CE and UL compliance with a total weight of 1.1 kilo grams.
The Q1EA06020DXS00M AC servo motor works at 3000 revolutions per minute as rated speed and reaches 5000 revolutions per minute as its maximum speed. This device produces 0.637 Nm of rated and continuous stall torque but delivers a maximum instantaneous peak torque of 1.91 Nm. The rated and continuous stall currents amount to 2.2 Arms while peak current capability reaches 4.5 Arms. It is available on Wake Industrial.
Frequently Asked Questions about Q1EA06020DXS00M:
Q: Why is a torque constant of 0.29 Nm/Arms important in Q1EA06020DXS00M?
A: It defines the motor’s ability to generate torque per unit current, ensuring precise torque output in proportional control systems.
Q: What does a voltage constant of 0.49 mV·min⁻¹ indicate for Q1EA06020DXS00M?
A: It reflects how efficiently back EMF is generated during operation, crucial for fine speed control and system tuning.
Q: Why is the absence of a holding brake relevant in Q1EA06020DXS00M?
A: It's ideal for systems that don't require static holding torque, reducing weight and simplifying the motor design.
Q: How does the motor's 2.2 ohm phase resistance affect its performance?
A: Higher resistance slightly reduces current draw but can lead to increased heat; it balances efficiency and thermal stability.
Q: Why does the Q1EA06020DXS00M use an incremental encoder instead of absolute?
A: Incremental encoders offer faster response and are suitable for cost-effective systems where relative position tracking suffices.
