Nema 23 Stepper Motor, 3A, 1.8° step angle, 2 phase 6 wires

$73.92

Nema 23 stepper motor with 0.9Nm holding torque, 1.8 deg. step angle(200 steps/revolution), high quality and manufacturer direct sale.

Matched Drive
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SKU: ATO-STEP-2802303

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Delivery date: 6-12 days

Overview
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Nema 23 Stepper motor, 0.9Nm in 56mm, 1.8 degree, manufacturer direct sale.

Specification

Electrical Specification	Model	ATO57STH56-3006
	Matched Driver Model	ATODSP57(Click it to see more info)
	Step Angle	1.8°
	Holding Torque	0.9Nm
	Rated Current/phase	3A
	Phase Resistance	0.75Ω
	Inductance	1.1mH
	Rotor Inertia	280g-cm2
Physical Specification	Frame Size	57 x 57mm
	Length	56mm
	Shaft Diameter	Φ6.35mm
	Shaft Length	19mm
	Motor Leads	6
	Weight	0.68kg
Technical Parameters	Step Angle Accuracy	±5% (full step, no load)
	Resistance Accuracy	±10%
	Inductance Accuracy	±20%
	Temperature Rise	80℃ Max. (rated current, 2 phase on)
	Ambient Temperature	-20℃~+50℃
	Insulation Resistance	100MΩ Min. 500VDC
	Dielectric Strength	500V AC for one minute
	Shaft Radial Play	0.02Max. 450g
	Shaft Axial Play	0.08Max. 450g
Quality Assurance	Warranty Period	12 months
Quality Assurance	Certificate	CE, ROHs, ISO/SGS9001

Dimensions: (Unit=mm)

L Max=56mm

Wiring Diagram

Tips: Steppe motor replaces servo motor in the medical device manufacturing industry

The requirement of the medical devices for precision at the time of production is usually higher than that of other products. Many medical devices manufacturers use the servo motor to manufacture the products to reach the precision. However, due to high price of servo motor, these manufacturers are searching for the device that can replace servo motor while the precision should also be reached.
After the arrival of the stepper motor, it’s been applied into the medical apparatus and instrument manufacturing industry. It’s found that the cost for matching a stepper driver with the motor is cheaper than that for buying a servo motor and the performance of the servo motor is also possessed. Its strong performance is better a lot than that of the servo motor and the torque of the stepper motor is larger; its appearance is smaller than the volume of the former servo motor; its technology is also better than that before. The small-type stepper motor also can ensure small energy consumption, based on which the cost can be saved for the any random action can be made for the stepper motor for there is stepping angle is available. Thus, the precision is greatly enhanced by subdividing the stability through stepper driver.

How to control a stepper motor using a PLC and HMI?
This video shows you how to configure a PLC, HMI, motor driver, and proximity sensor to perform Origin Return (OPR) control of a stepper motor.

Common Stepper Motor Troubleshooting Problems and Tips
In this video, 9 common problems that can occur with stepper motors are discussed, and expert advice is provided for diagnosing and effectively resolving these problems. If you have ever experienced problems with your stepper motor or want to be prepared for any future problems, this video is a must watch.

Controlling Stepper Motors with HMI and PLC for Fixed Cycle Power Delivery
In this video, we explore the step-by-step process of configuring an HMI and PLC to synchronize and manage specific cycle lengths of stepper motors, ensuring accurate power delivery.

VFD Two-Wire Control Wiring with Push Button for Forward Motor

In this video we've guided you through how to do VFD control wiring with a self-lock push button switch to run the motor in forward direction. We've covered everything from wiring to programming and even a test run. So just watch it through and hope you'll find it informative and helpful.

1.8 degree stepper motor teardown & construction display

In the case of non-overload, the speed and stop position of the motor only depend on the frequency and pulse number of the pulse signal, and are not affected by the load change. That is, when a pulse signal is added to the motor, the motor rotates through a step angle. The existence of this linear relationship, coupled with the characteristics of the stepper motor having only periodic errors and no cumulative errors. This makes it very simple to use stepper motors to control the speed, position and other control fields.