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Specifications:
| Step Angle | 1.8° |
| Holding Torque (Kg-Cm) | 7.2 |
| Operating Voltage (VDC) | 6.6 |
| Supply Current (A) | 1A |
| No. of Leads | 6 |
| Inductance (mH/Phase) | 8.2 |
| Resistance (Ω) | 6.6 |
| Rotor Inertia (gm-cm2) | 275 |
| Weight (gm) | 600 |
| Dimensions (mm) LxWxH | 57 x 57 x 52 |
| Detent Torque (kg-cm) | 0.36 |
| Frame Size (mm) | 57 x 57 |
| Inductance Accuracy | ±20% |
| Resistance Accuracy | ±10% |
| Shaft Type | Round |
| Shaft Diameter (mm) | 6.35 |
| Shaft Length (mm) | 20.6 |
| Step Angle Accuracy | ±5% |
| Cable Length (cm) | 30 |
Description
They are the special choice for heavy duty CNC machines. They overpass the NEMA17 Stepper Motors because of their inherent operational advantages including comparably high torque at high speeds. This NEMA 23 Stepper Motor is a powerhouse when it comes to larger machines that require extra torque. The NEMA 23 7.2 kg-cm Dual Shaft Hybrid Stepper Motor can provide 7.2 kg-cm of torque at 1A current per phase.
The stepper motors move in precisely repeatable steps, hence they are the motors of choice for the machines requiring precise position control. One can equip them on CNC Milling, CNC Router like application which demands extra torque than provided by NEMA17 Stepper Motors.
The NEMA 23 7.2 kg-cm Dual Shaft Hybrid Stepper Motor provides excellent response to starting, stopping and reversing pulses from stepper motor driver.
It equips shaft at front side as well as at rear side. This type of shaft arrangement in motor gives them more flexibility in applications, as it can be used to drive two different types of equipment on either side of the motor. Another great advantage of using such dual shaft stepper motor is you can utilize rear shaft to connect encoder, different sensors or simply a drive wheel etc. The motor’s shaft has been machined for good grip with a pulley, drive gear etc. and especially avoiding stall or slip.
It is a brushless DC motor, so the life of this motor is dependent upon life of the bearings. The position control is achieved by a simple Open Loop control mechanism which doesn’t require complex electronic control circuitry.
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