|Place of Origin:
|Minimum Order Quantity:
|7-25 work days
|T/T, Western Union, L/C,
|250000pcs /per month
6A Brake Stepper Motor,
8.2Nm Brake Stepper Motor,
nema 34 high torque stepper motor
nema 34 86mm Stepping Motor 6A 1.8 degree Brake Stepper Motor With Encoder For packaging machine
Forward/Reverse Rotation,Pause and Hold
The forward /reverse rotation of the stepping motor can be controlled by the input sequence of the controlled electric pulses.
In the case of the a stepping motor lock(the motor winding is energized,there is no external electric pulse command),the stepping motor can still maintain a certain torque output.
The material is selected from well-known manufacturers at home and abroad. The advantages are light weight, good heat dissipation performance, good thermal conductivity, die-casting, good plasticity, higher elongation than iron, low noise, good motion stability, the disadvantages are high price, low hardness
Accurate position Control
The angular displacement of the stepping motor can be precise controlled by the number of electrical pulses.Angle accuracy can be controlled within ±0.09°without any feedback devices.
High torque is mainly attributed to many factors including rare earth magnets, optimized rotors, Stators with maximum winding fill and laminatins, all of which are combined together to realize maximum torque.
prostepper’ high torque stepper motors provide 15% to 25% more torque across the entire speed than conventional motors.The increased torque is a result of higher motor efficiency, and is available without increasing the drive voltage or current.
Encoder Specifications Brake Specifications
· Green Product
· Military Specifications
· Product Features
· Product Performance
· Prompt Delivery
· Quality Approvals
· Small Orders Accepted
· Brand-name Parts
· Experienced Staff
The winding on this article is a 4 Wire Bipolar.
1.8° Step Angle,The motors are directly compatible with the stepper motor drive boards and also drive either motor (if required) in the half step mode i.e. 0.9° per step resulting in higher resolution, greater performance stability and faster stepping rates. Direction, velocity, acceleration/deceleration can be controlled by a stepper motor controller.,Applying the correct electrical pulse sequence to the windings of the stepper motor results in a 1.8° step angle rotation of the spindle (i.e. 200 steps per revolution). When correctly loaded and driven these motors will produce discrete output steps. The number of steps and speed of rotation are determined by the number of pulses and frequency of the input signal. This provides an ideal method for speed and position control. The motors are directly compatible with stepper motor drive boards.