stepper-dat

How to identify the common port of a 4-wire motor:

Use the resistance * 1 position of the multimeter to measure the four terminals separately.

If the resistance value of one terminal is the smallest and equal to that of the other three terminals, then this terminal is the COM terminal, which is the common terminal.

The driver board automatically identifies 3-wire or 4-wire brushless motors,

4-wire brushless motors can also be connected without COM lines.

NEMA 23 Motor

NEMA 23 Motor Overview

A NEMA 23 motor is a stepper motor with a standard mounting flange size defined by the National Electrical Manufacturers Association (NEMA). It is widely used in CNC machines, 3D printers, robotics, and automation systems.

Key Features of NEMA 23 Motor

1. Frame Size

The NEMA 23 standard specifies that the motor has a 2.3-inch (57.15mm) x 2.3-inch (57.15mm) faceplate size for mounting.
The length of the motor varies, affecting torque and power output.

2. Stepper Type

Most NEMA 23 motors are stepper motors, typically 1.8° per step (200 steps per revolution), but variations exist.
Some models have finer step angles (e.g., 0.9° per step, 400 steps per revolution).

3. Torque & Power

The torque varies based on the motor length and current rating, typically ranging from 0.3 Nm to over 3.0 Nm.
Higher torque versions are often longer and require higher current.

4. Voltage & Current

Operates typically on 12V to 48V (varies based on driver and application).
Current ratings range from 2A to 6A per phase, depending on the winding configuration.

5. Shaft & Wiring

Shaft diameter is usually 6.35mm (1/4 inch) or 8mm.
Common wiring configurations: 4-wire, 6-wire, or 8-wire for unipolar or bipolar operation.

Common Applications of NEMA 23 Stepper Motors

CNC Machines (milling, laser cutters, engraving machines)
3D Printers (especially for larger or industrial-grade machines)
Robotics & Automation Systems
Textile and Packaging Machines
Conveyor Belt Systems