NEMA17 4.2 kg-cm Stepper Motor (With Detachable 70 cm Cable)
- Step Angle: 1.8 °
- Current: 1.2 A/Phase
- Holding Torque: 4.2 kg-cm
- Detent torque: 2.2 N.cm (Maximum)
- Lead Wires: 4
- Shaft diameter: 5 mm
The stepper motors move in precisely repeatable steps, hence they are the motors of choice for the machines requiring precise position control. The NEMA17 4.2 kg-cm Stepper Motor can provide 4.2 kg-cm of torque at 1.2A current per phase.
The motor’s position can be commanded to move or hold at one position with the help of Stepper Motor Drivers. The NEMA17 4.2 kg-cm Stepper Motor provides excellent response to starting, stopping and reversing pulses from stepper motor driver.
They are very useful in the various application, especially which demands low speed with high precision. Many machines such as 3D Printers, CNC Router and Mills, Camera Platforms, XYZ Plotters etc.
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 so doesn’t require complex electronic control circuitry.
It comes with a detachable 70cm cable which makes wiring and rewiring very fast and easy work. The design of this cable is such that it can directly be mounted on a stepper motor controller. So, playing with the connection is done with just snap of fingers.
The motor’s shaft has been machined for good grip with a pulley, drive gear etc., and especially avoiding stall or slip.
We are engaged in supplying and wholesaling a quality approved collection of the Stepper Motors which are highly acknowledged and accepted for long service life and high reliability. To explore more of them click below,
The Nema17 4.2kgcm Stepper motor dimensions and weight may have ±2% error.
Resonances can occur because of improper installment.
Not easy to operate at extremely high speeds.
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.
|Holding Torque (Kg-Cm)||4.2|
|Supply Current (A)||1.2 A/Phase|
|No. of Leads||4|
|Rotor Inertia (gm-cm2)||54|
|Dimensions (mm) LxWxH||40x42x42|
|Detent Torque (kg-cm)||0.22|
|Frame Size (mm)||42 x 42|
|Shaft Diameter (mm)||5|
|Shaft Length (mm)||20|
|Step Angle Accuracy||±5%|
|Cable Length (CM)||7|
|Shipment Weight||0.425 kg|