- Comparably more powerful than NEMA17 motors.
- Input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
- Provides good starting, stopping and reversing.
- Control of this motor is less costly because of exclusion of complex control circuitry.
- The speed is proportional to the frequency of the input pulses.
Description :
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.
Features :
- Comparably more powerful than NEMA17 motors.
- Input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
- Provides good starting, stopping and reversing.
- Control of this motor is less costly because of exclusion of complex control circuitry.
- The speed is proportional to the frequency of the input pulses.
Specifications:
Step Angle | 1.8 degree |
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 | 6.6 ohms |
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 |
Package includes :
1 x NEMA 23 7.2 kg-cm Dual Shaft Hybrid Stepper Motor