Adampower

MODBUS RTU NEMA24 Integrated Stepper Motor

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Multi-turn Absolute Encoder

$141.00

MODBUS RTU NEMA23 Absolute Encoder Integrated Stepper Motor

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Multi-turn Absolute Encoder

$109.00

KK series Steel Slide, Linear Module with Linear Guide and Ball Screw

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KK series linear module

$108.00

Industrial Bluetooth to RS485 Converter

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Data Transparent Transmission

$22.00

EtherCAT Stepper Motor, EtherCAT Integrated Stepper Motor

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Waterproof EtherCAT Integrated Stepper Motor

$400.00

BLDC Motor Driver

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300W, 500W, 750W, 1000W, 1500W,BLDC Motor Driver

$200.00

AP57 Stepper Motor Controller, Spontaneous pulse driver

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Spontaneous pulse driver

$55.00

AP42 Stepper Motor Controller, Spontaneous pulse driver

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Spontaneous pulse driver

$47.00

Analog Voltage Stepper Motor Driver

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Analog Voltage: 0-5V & 0-10V

$58.00

ADM57 Stepper Motor Driver, Pulse & Direction Stepper Motor Driver

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$55.00

ADM57 Stepper Motor Controller, RS485 Stepper Motor Controller

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$87.00

ADM42S Stepper Motor Controller, RS485 Stepper Motor Controller

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RS-485 Stepper Motor Driver

$88.00

Adjustable-Current Stepper Motor Controller 4-20mA

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4-20 mA current stepper motor controller

$58.00

ADH42 Stepper Motor Controller, Spontaneous pulse driver

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Spontaneous pulse driver

$58.00

4~20 mA current-adjustable stepper motor driver

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current stepper motor driver

$58.00

NEMA34 Closed Loop Integrated Stepper Motor

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MODBUS RTU

$101.00

NEMA8 Closed Loop Integrated Stepper Motor

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Pulse and RS485

$153.00

NEMA17 Closed Loop Integrated Stepper Motor

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RS485 and Pulse Type

$80.00

NEMA23 Closed Loop Integrated Stepper Motor

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RS485 and Pulse Type

$98.00

NEMA24 Closed Loop Integrated Stepper Motor

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RS485 and Pulse Type

$98.00

MODBUS RTU NEMA24 Integrated Stepper Motor (IM24ET)

The IM24ET Series Integrated Motors represent a perfect integration of stepper drivers and stepper motors, combining the technologies of both in a single unit.

They are fully compatible with 1599-revolution mechanical absolute encoders, which not only save installation space but also streamline wiring connections.

By reducing your design and production costs, they stand as the premier choice for your stepper system solutions.

Frame Size: NEMA24
Holding Torque: 1.1–3.5 N·m
Supply Voltage: 24–60 VDC
Supported Protocols: Modbus/RTU, RS485
Built-in Programmable Multi-Turn Feedback: 1599 revolutions; supports user-defined home position with memory, no sensor required
Software Limit Function Supported: More reliable than mechanical limit switches
Closed-Loop Control: 4096-line (16384 counts) encoder feedback
Torque Modes Supported: Homing on collision, constant torque, object gripping
Input Compatibility: 5–24 VDC; Output: Open-collector (OC) output, withstanding voltage up to 30 VDC
Comprehensive Protection Features: Over-voltage, under-voltage, over-current, winding open-circuit, and position deviation protection
Non-Volatile Memory: Configuration parameters stored in the on-chip FLASH of the MCU
Wide Filter Frequency Range: 50 kHz–5 MHz adjustable, factory default at 300 kHz
User-friendly PC interface with full-featured functionality

Motor Parameters (two type flange size and hole spacing)

Model No.	Total Length L (mm)	Length L1 (mm)	Shaft Dia. (mm)	Flange Size (mm)	Hole Spacing	Phase Current (A)	Resistance (Ω)	Inductance (mH)	Holding Torque (N.m)	Inertia (g.cm²)	Weight (g)
IM24ET22S	92.8	21	8	38.1	47.14	5	0.45	1.4	2.2	490	1100
IM24ET30S	109.8	21	8	38.1	47.14	5	0.58	2.4	3.0	690	1400
IM24ET22B	92.8	21	8	36	50	5	0.45	1.4	2.2	490	1100
IM24ET30B	109.9	21	8	36	50	5	0.58	2.4	3.0	690	1400

Flange Size: 38.1 mm; Mounting Hole Spacing: 47.14 mm, drawing as below:

Flange Size: 36 mm; Mounting Hole Spacing: 50 mm, drawing as below:

Block Diagram:

RS485 Multi-turn Absolute Encoder type Integrated Stepper Motor

Terminal Definition

Terminal	Color	Name	Description
1	Red	V	24~60VDC
2	Black	V-	GND
3	Yellow	X com	INPUT COM, compatible with NPN and PNP
4	Yel/BLK	X0	3 Programmable Inputs (Active Low) Port functions configurable via commands or host computer. Pulse Mode: X0 = Pulse, X1 = Direction
5	Blue	X1
6	Blu/BLK	X2
7	Green	Y2	Y0: Default alarm output, Normally Closed (NC), Y1: Default position reached output, Normally Closed (NC) Y2: Undefined,Users may configure or redefine the functions of the corresponding ports via commands. Y2 can be customized to input X3 upon request before delivery; it defaults to an output port.
8	Gre/BLK	Y1
9	Purple	Y0
10	Pur/BLK	Y com	OUTPUT COM, COM GND
11	Orange	485A	RS485 Communication port, default baud rate is 115200
12	Ora/BLK	485B	RS485 Communication port, default baud rate is 115200

3-channel isolated digital signal input, the function of each input channel can be configured via software or commands, with the correspondence between input signals and functions as follows:

Signal	Interface	Function
X0	X0,Xcom	• General Input (Default) • Pulse / Limit / Home / Emergency Stop / Speed Switch / Interrupt Positioning / Forward Rotation
X1	X1,Xcom	• General Input (Default) • Pulse / Direction / Limit / Home / Emergency Stop / Speed Switch / Interrupt Positioning / Reverse Rotation
X2	X2,Xcom	• General Input (Default) • Limit / Home / Emergency Stop / Speed Switch / Interrupt Positioning

XCOM is the common positive terminal for single-ended input signals and shall be connected to the positive pole of the power supply.
It only accepts sinking NPN signals.
The figure below illustrates the typical wiring configurations for the X0–X2 input ports.

3-channel isolated digital signal output, the function of each output channel can be configured via software or commands, with the correspondence between output signals and functions as follows:

Signal	Interface	Function
Y0	Y0, Ycom	• Alarm Output (Default) • Alarm / Position Reached / Running Status
Y1	Y1, Ycom	• Position Reached Output (Closed Loop Default) • Running Status Output (Open Loop Default) • Alarm / Position Reached / Running Status
Y2	Y2, Ycom	• General Purpose Output (Default) • Alarm / Position Reached / Running Status

The figure below illustrates the typical wiring configurations for the Y0–Y2 output ports.

Warning: Output terminal → DC voltage ＜ 30V, Inflow current ≤ 50mA.

CRC Check Routine (C#)

UInt16 Funct_CRC16(unsigned char * puchMsg, UInt16 DataLen)
{
  UInt16 i,j,tmp;
  UInt16 crcdata=0xFFFF;
  for(i=0;i<DataLen;i )
  {
    crcdata=(*puchMsg)^crcdata;
    puchMsg ;
    for(j=0;j<8;j )
    {
      tmp=crcdata&0x0001;
      crcdata=crcdata>>1;
      if(tmp){
        crcdata=crcdata^0xA001;
      }
    }
  }
  return crcdata;
}

RS485 Integrated Stepper Motor Commissioning and Control Software:

Modbus Poll

New Software in google drive

Adampower

Quick Start Guide – Follow the steps below:

1. Extract the zip file, open CommFile folder and Click Step-Config.exe or Adampower.exe

2. Open Project.

3. Click Browse

4. Select the Project.prj in the Project folder, in the same path as CommFile.

5. Double Click the Project.prj path

6. Right Click Modbus_485, and Click Property:

7. Click Property ComNN, Choose COM port, Baud rate and click Save and OK.


8. Start to use software control the RS485 Integrated stepper motor by below buttons:

Optional: USB-TTL debugging cable

RS485 Stepper Motor Controller Commands Manual

LED indicator and status:

more Information on detail, please feel free to contact me

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Multi-turn Absolute Encoder

$141.00

MODBUS RTU NEMA23 Absolute Encoder Integrated Stepper Motor (IM23ET)

IM23ET Series NEMA23 Multi-Turn Absolute Encoder Integrated Stepper Motor (RS485 Modbus RTU)

Product Introduction

The IM23ET Series Integrated Motors represent a perfect integration of stepper drivers and stepper motors, combining the technologies of both in a single unit.

They are fully compatible with 1599-revolution mechanical absolute encoders, which not only save installation space but also streamline wiring connections.

By reducing your design and production costs, they stand as the premier choice for your stepper system solutions.

Product Advantages

NEMA23 frame size with holding torque from 0.8 to 3.0 N·m
Supply voltage: 24–60 VDC
Supported protocols: Modbus/RTU, RS485
Built-in programmable multi-turn feedback: 1599 revolutions; supports user-defined home position with memory, no sensor required
Software limit function supported — more reliable than mechanical limit switches
Closed-loop control with 4096-line (16384 counts) encoder feedback
Torque modes supported: homing on collision, constant torque, object gripping
Input compatible: 5–24 VDC; Output: open-collector (OC), withstanding voltage up to 30 VDC
Comprehensive protection: over-voltage, under-voltage, over-current, winding open-circuit, and position deviation protection
Non-volatile memory: configuration parameters stored in the on-chip FLASH of the MCU
Wide filter frequency range: 50 kHz–5 MHz adjustable, factory default at 300 kHz
User-friendly PC interface with full-featured functionality

Motor Parameters

Model No.	Total Length L (mm)	Length L1 (mm)	Shaft Dia. (mm)	Phase Current (A)	Resistance (Ω)	Inductance (mH)	Holding Torque (N.m)	Inertia (g·cm²)	Weight (g)
IM23ET12S	92.8	21	8	4	0.44	1.4	1.2	280	820
IM23ET20S	109.8	21	8	5	0.30	2.0	2.0	480	1200
IM23ET12B	92.8	30	8	4	0.44	1.4	1.2	280	820
IM23ET20B	109.9	30	8	5	0.30	2.0	2.0	480	1200

Block Diagram

Block Diagram:

Terminal Definition

RS485 Multi-turn Absolute Encoder Type Integrated Stepper Motor

Terminal	Color	Name	Description
1	Red	V	24~60 VDC
2	Black	V-	GND
3	Yellow	X com	INPUT COM, compatible with NPN and PNP
4	Yel/BLK	X0	3 Programmable Inputs (Active Low) Port functions configurable via commands or host computer. Pulse Mode: X0 = Pulse, X1 = Direction
5	Blue	X1
6	Blu/BLK	X2
7	Green	Y2	Y0: Default alarm output, Normally Closed (NC) Y1: Default position reached output, Normally Closed (NC) Y2: Undefined, users may configure via commands. Can be customized to input X3 upon request.
8	Gre/BLK	Y1
9	Purple	Y0
10	Pur/BLK	Y com	OUTPUT COM, COM GND
11	Orange	485A	RS485 Communication port, default baud rate is 115200
12	Ora/BLK	485B	RS485 Communication port, default baud rate is 115200

Digital Signal Input (X0-X2)

3-channel isolated digital signal input. The function of each input channel can be configured via software or commands.

Signal	Interface	Function
X0	X0, Xcom	• General Input (Default) • Pulse / Limit / Home / Emergency Stop / Speed Switch / Interrupt Positioning / Forward Rotation
X1	X1, Xcom	• General Input (Default) • Pulse / Direction / Limit / Home / Emergency Stop / Speed Switch / Interrupt Positioning / Reverse Rotation
X2	X2, Xcom	• General Input (Default) • Limit / Home / Emergency Stop / Speed Switch / Interrupt Positioning

XCOM is the common positive terminal for single-ended input signals and shall be connected to the positive pole of the power supply. It only accepts sinking NPN signals.

Digital Signal Output (Y0-Y2)

3-channel isolated digital signal output. The function of each output channel can be configured via software or commands.

Signal	Interface	Function
Y0	Y0, Ycom	• Alarm Output (Default) • Alarm / Position Reached / Running Status
Y1	Y1, Ycom	• Position Reached Output (Closed Loop Default) • Running Status Output (Open Loop Default) • Alarm / Position Reached / Running Status
Y2	Y2, Ycom	• General Purpose Output (Default) • Alarm / Position Reached / Running Status

Warning: Output terminal → DC voltage < 30 V, Inflow current ≤ 50 mA.

CRC Check Routine (C#)

UInt16 Funct_CRC16(unsigned char * puchMsg, UInt16 DataLen)
{
  UInt16 i,j,tmp;
  UInt16 crcdata=0xFFFF;
  for(i=0;i<DataLen;i )
  {
    crcdata=(*puchMsg)^crcdata;
    puchMsg ;
    for(j=0;j<8;j )
    {
      tmp=crcdata&0x0001;
      crcdata=crcdata>>1;
      if(tmp){
        crcdata=crcdata^0xA001;
      }
    }
  }
  return crcdata;
}

Software & Tools

RS485 Integrated Stepper Motor Commissioning and Control Software:

Modbus Poll

New Software in Google Drive

Adampower

Quick Start Guide

Follow the steps below:

1. Extract the zip file, open CommFile folder and click Step-Config.exe or Adampower.exe

2. Open Project

3. Click Browse

4. Select the Project.prj in the Project folder, in the same path as CommFile

5. Double Click the Project.prj path

6. Right Click Modbus_485, and Click Property:

7. Click Property ComNN, Choose COM port, Baud rate and click Save and OK

8. Start using software to control the RS485 Integrated stepper motor by below buttons:

Optional: USB-TTL debugging cable

RS485 Stepper Motor Controller Commands Manual

LED Indicator and Status

Application Scenarios

CNC machine tools — Closed-loop absolute encoder feedback for precise positioning
Automated assembly — Multi-turn absolute encoder remembers position after power loss
Robotic grippers — Constant torque and object gripping modes supported
Packaging machinery — Software limit more reliable than mechanical switches

More Information on detail, please feel free to contact me

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Multi-turn Absolute Encoder

$109.00

KK series Steel Slide, Linear Module with Linear Guide and Ball Screw (KK30-130)

KK Series Linear Module (Ball Screw Guide Rail)

Product Introduction

KK Series Linear Module with guide and ball screw — a steel linear module designed for precision linear motion applications.

Standard or customized requirements, please contact sales directly for confirmation.

Product Advantages

High precision ball screw driven linear motion
Available in 9 size series: KK30, KK40, KK50, KK60, KK80, KK86, KK100, KK130
Accuracy class: General or Precise
Optional limit switches: Omron EE-SX671, EE-SX674 / Panasonic GX-F12A, GX-F12A-P
Cover Type: Aluminum or Telescopic
Customizable working load, mounting flange, motor, and more

Ball Screw Lead by Series

Series	Ball Screw Lead
KK30	1 mm
KK40	1 mm
KK50	2 mm
KK60	5 / 10 mm
KK80	10 / 20 mm
KK86	10 / 20 mm
KK100	20 mm
KK130	25 mm

Application Scenarios

Automated assembly lines — Precision linear positioning for pick-and-place operations
CNC machinery — Reliable ball screw driven motion for machining axes
Lab equipment — Smooth and accurate linear movement for testing instruments
Packaging equipment — Durable steel construction for continuous industrial use

Series Parameters

KK30 Series Linear Module Parameters

KK40 Series Linear Module Parameters

KK50 Series Linear Module Parameters

KK60 Series Linear Module Parameters

KK80 Series Linear Module Parameters

KK86 Series Linear Module Parameters

KK100 Series Linear Module Parameters

KK130 Series Linear Module Parameters

More Information on detail, please feel free to contact me

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KK series linear module

$108.00

Industrial Bluetooth to RS485 Converter (BT24)

BT24 Industrial Bluetooth to RS485 Converter (BLE 5.1)

Industrial BLE 5.1 Bluetooth to RS485 Converter — Wireless Serial Port Adapter with Data Transparent Transmission.

Product Introduction

The BT24 is an industrial-grade Bluetooth 5.1 to RS485 converter designed for wireless communication between mobile devices and RS485 stepper motors or integrated stepper motors.

With data transparent transmission and Modbus protocol support, it enables convenient wireless control via Android APP, eliminating the need for physical serial cables.

Product Advantages

Renesas DA14531 chip with PA Amplifiers
Bluetooth BLE 5.1 technology
Support interfaces: RS485
Support ModBus protocol
Support communication between Android and RS485 Stepper Motor or RS485 Integrated Stepper Motor
Support changing baud rates: 2400, 4800, 9600, 19200, 38400, 57600, 115200
External rubber stick antenna, visual distance: mobile phone: 90 m / PC: 70 m / device to device: 400 m
Support power range: DC 5~36 V
Device Size: 60 × 27.8 × 16.4 mm
Working temperature: -40 to 85 °C

Electrical Characteristics

Parameter	Value
Power Supply	DC 5~36 V
RS485 Default Baud Rate	9600 bps
RS485 Load Capacity	Up to 32 devices
RS485 Communication Distance	1200 m (at 9600 bps)
Working Mode	Point-to-point half-duplex, point-to-multipoint half-duplex
Direction Control	Automatic
Power Supply Requirement	5 V / 1 A
Working Temperature	-40 to 85 °C
Dimensions	60 × 27.8 × 16.4 mm

BLE UUID

SERVICE UUID: FFE0
NOTIFY/WRITE UUID: FFE1
WRITE UUID: FFE2

Baud Rate Switch

Short press the KEY twice consecutively to switch the baud rate once. The number of times the blue light blinks represents the baud rate number.

Flash Count	Baud Rate
1	2400
2	4800
3	9600
4	19200
5	38400
6	57600
7	115200

Application Scenarios

Wireless motor control — Control RS485 stepper motors via Android APP over Bluetooth
Industrial automation — Replace wired serial connections with reliable wireless communication
Remote monitoring — Real-time data transmission over distances up to 400 m (device to device)
Field maintenance — Quick and convenient parameter adjustment via mobile phone

Android APP Control

AR Series RS485 Integrated Stepper Motor

Bluetooth to RS485 Converter and Android APP designed for AR Series RS485 Integrated Stepper Motor.

Download the Android APP

IG Series RS485 Integrated Stepper Motor

Bluetooth to RS485 Converter and Android APP designed for IG Series RS485 Integrated Stepper Motor.

Download the Android APP

More Information on detail, please feel free to contact me

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Data Transparent Transmission

$22.00

EtherCAT Stepper Motor, EtherCAT Integrated Stepper Motor (IEC57,60,86)

IEC57/60/86 EtherCAT Integrated Stepper Motor (Closed Loop)

IEC Series EtherCAT Integrated Stepper Motor

Product Introduction

IEC57/60/86 is a newly introduced one-bus type close-loop stepping driver of EtherCAT, which adopts the latest floating-point 32-bit MCU digital processing technology. It employs advanced variable current technology and advanced frequency conversion technology to control the driver, resulting in small motor vibration, smooth operation, and excellent high-speed performance. Users can set any ID address within 1-255, meeting the needs of most applications. Medium and high-speed operation is very smooth with ultra-low noise.

Characteristics

New floating-point 32-bit MCU technology
Whole machine dust and water resistant design, IP65 rating
1 channel optocoupler isolated OC output
With serial port settings and debugging functionality
Current control reduces motor heating significantly
Encoder with 4000 lines (standard)
57 closed-loop stepper motor, 1 N.m, 2.8 N.m
3 channels of optically-isolated signal input, with 2 channels being high-speed optocoupler isolated
Communication frequency of 100 MHz
Current can vary between 0.5-8 A with load variations
1.2 times overload capability
Factory default subdivision is set to 50000 (modifiable via software)

Application

Suitable for a variety of small and medium-sized automatic equipment and instruments, such as: engraving machine, marking machine, cutting machine, medical equipment, laser phototypesetting, plotter, CNC machine tools, automatic assembly equipment. Ideal for applications where the user expects low noise, low vibration, low heat and high speed.

Electrical Characteristics

Explanation	IEC57/60/86
Explanation	Min	Typ	Max	Unit
Continuous output current	0.5	-	8.0	A
Power Supply Voltage (DC)	20	24/36	50	Vdc
Control signal input current	6	10	16	mA
Logic input voltage	5	5	24	Vdc
OC output pull-up voltage	5	-	24	Vdc
EtherCAT frequency	-	100	-	MHz
Insulation Resistance	100	-	-	MΩ

Structure Installation

Waterproof plug, waterproof seal, waterproof paint, and Neodymium magnet rotor, 4000 line Encoder.

Model Number

Model No	Holding Torque	Controller Encoder Stepper Motor Length	Weight
Model No	N.m	mm	kg
IEC57-10	1.2	107 ± 1	1.9
IEC86-45	2.8	133 ± 1	2.2
IEC60-40	4.0	142 ± 1	2.2
IEC86-45	4.5	136 ± 1	2.3
IEC86-85	8.5	173 ± 1	3.8

Dimensions & Torque Curves

IEC57 Dimensions

IEC60 Dimensions

IEC86 Dimensions

Wiring & Port Definition

Schematic Diagram of Wiring

Port Definition

Protocol Specification

6060h = 1 — PP Mode, profile position mode
6060h = 3 — PV Mode, profile velocity mode
6060h = 6 — HM Mode, Homing mode
6060h = 8 — CSP Mode, Synchronous position mode

IEC Series EtherCAT Integrated Stepper Motor User Manual

EtherCAT Slave Information (xml)

Application Scenarios

CNC machine tools — High-speed precision positioning with closed-loop feedback
Engraving & marking machines — Smooth operation with ultra-low noise
Medical equipment — Low vibration and low heat for sensitive environments
Automatic assembly equipment — IP65 rated, dust and water resistant for industrial use

More Information on detail, please feel free to contact me

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Waterproof EtherCAT Integrated Stepper Motor

$400.00

BLDC Motor Driver (BLDC8015A)

BLDC-6012S Brushless DC Motor Driver

Product Introduction

BLDC-6012S is a high-tech product used in the field of low-power motors with communication functions. With the rapid development of electronic technology, the technology and performance of electronic products are constantly updated and improved. The product uses super-large hardware integrated circuits, has high anti-interference and fast response capabilities, and has the control performance of a traditional DC motor. Compared with maintenance-free, long life and constant torque advantages.

Features

SPWM, Speed/Current alike close loop technology, smooth rotation
Smooth torque output within speed range (8000 rpm Max.)
1:75 Max. speed regulation ratio
60°/300°/120°/240° Electrical angle adjustable
Speed regulation: potentiometer adjust / Analog input
Run/Step, Quick Brake, CW/CCW rotation shift
Speed output, Alarm output (O.C.)
Over current, over voltage, stall, missing speed alarm

Technical Data

Electrical Parameters

Parameter	Value
Power	24~60 VDC, capacity: up to motors
Current output	Rated 12 A, Peak 36 A (≤3 s)
Driving mode	SPWM
Insulation Res	>500 MΩ
Dielectric Strength	500 V/min
Weight	About 300 g

Environmental Requirements

Parameter	Value
Cooling method	Self cool
Environment	Avoid dust, oil mist and corrosive gas
Temperature	0~50 °C
Humidity	<80% RH, no condensation, no frosting
Shock	5.7 m/s² Max.
Storage temp	-20~125 °C

Model Number

Model No.	Power Supply Voltage	Continuous Output Current	Rated Power
BLDC-6012S	24 VDC	12 A	300 W
BLDC-6012A	20 VDC	15 A	300 W
BLDC-50020	24 VDC	20 A	500 W
BLDC-50014	36 VDC	14 A	500 W
BLDC-50011	48 VDC	11 A	500 W
BLDC-4810	50 VDC	15 A	750 W
BLDC-10050	24 VDC	50 A	1500 W
BLDC-10033	36 VDC	33 A	1500 W
BLDC-10025	48 VDC	25 A	1500 W
BLDC-750H	220 VAC	5 A	1000 W

DIP Switch Settings

Mode Table
SW1 = ON	HALL SENSOR
SW1 = OFF	None HALL SENSOR
SW2 = ON	120°/240° Sensor Phasings
SW2 = OFF	60°/300° Sensor Phasings
SW3 = ON	AVI port enable
SW3 = OFF	RV port enable

VDC: 18 V ~ 80 V

Application Scenarios

Low-power motor drives — Ideal for applications requiring communication functions and precise speed control
Industrial automation — High anti-interference and fast response for reliable operation in demanding environments
Fans and pumps — Maintenance-free, long life and constant torque advantages over traditional DC motors
Conveyor systems — Smooth torque output within speed range up to 8000 rpm

Wiring Diagrams

External Potentiometer Speed Governing

AVI (Analog Voltage or PWM Frequency) Speed Governing

RV Speed Governing

More Information on detail, please feel free to contact me

Software Modbus Poll
AdamPower Software

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300W, 500W, 750W, 1000W, 1500W,BLDC Motor Driver

$200.00

AP57 Stepper Motor Controller, Spontaneous pulse driver (AP57)

AP57 Stepper Motor Controller (Spontaneous Pulse)

Pulse & direction stepper motor driver supporting Spontaneous pulses mode — a mid-power integrated driver with built-in pulse generator for standalone operation without external PLC or motion controller.

● Miniature size 55.9mm × 55.9mm × 19mm

Product Introduction

The AP57 is a mid-power spontaneous pulse stepper motor driver designed for NEMA23/NEMA24 motors. With a built-in pulse generator, it can operate independently without requiring an external PLC or motion controller. It supports both pulse & direction and spontaneous pulse working modes via DIP switch selection, offering higher current output (up to 5.6 A peak) for larger motor applications.

Product Advantages

Pulse & direction stepper driver also supports standard RS232 serial command, with built-in 32-bit digital chip
Uses advanced control algorithms for vibration suppression and low heat generation
DC input voltage 20~50 VDC, recommended working voltage 36 VDC
Continuous output current 4.0 A max, max peak current 5.6 A
Integrated design, mountable with NEMA23/NEMA24 stepper motors
Low vibration, low noise, stable operation, low motor heating
Any micro-step can be set
Protection functions: overvoltage, undervoltage and overcurrent
Built-in automatic matching function of motor parameters
AP57 stepper driver can be assembled for NEMA23 Integrated Stepper Motors

Electrical Characteristics

Supply Voltage: 20~50 VDC (recommended 36 VDC)
Output Current (continuous): 4.0 A max
Peak Current: 5.6 A max
Control Modes: Spontaneous pulses, Pulse & Direction, Self-test, Double pulse
Communication: RS232 serial (parameter setting only)
Micro-step: Any value configurable
Dimensions: 55.9 × 55.9 × 19 mm

Pin Definition

Pin No.	Name	Description
1	VDC	Supply voltage: 20-50 VDC, Recommend DC 36 V
2	GND	Supply Voltage Ground: GND/0 V
3	RXD	To the RX pin on user device (not for communication, set parameter only)
4	TXD	To the TX pin on user device (not for communication, set parameter only)
5	PUL	Differential PULSE signal input, Allow receiving 5V signals, Rising edge is Effective
6	PUL-
7	DIR	Differential DIRECTION signal input, Allow receiving 5V signals, Rising edge is Effective
8	DIR-
9	ENA	Differential ENABLE signal input, Allow receiving 5V signals, Rising edge is Effective
10	ENA-
11	OUT	Alarm signal output, OC circuit, can receive voltage up to 24 V
12	OUT-

Note: Pulse signals, directional signals, and enable signals can receive up to 5 V signals.

If the control signal is 12 V, a 1K resistor needs to be connected.
If the control signal is 24 V, it is necessary to connect a 2.2K resistor.

Wiring Configurations

In addition to Differential wiring, AP57 Driver also supports common anode connection and common cathode connection:

DIP Switch Settings

SW1, SW2, SW3 — Set Current
SW4, SW5, SW6 — Set Micro-Step
SW8 — Set direction CW/CCW
SW9, SW10 — Choose Working Mode

Set Working Current by SW1, SW2, SW3

The default peak current at the factory is 1.5 A. It can be set through the serial port before sale.

The adjustable current range is any value between 0.1 A and 5.6 A (peak).

Set Stepper Motor's Default Rotation Direction

SW8 = on → CW (clockwise)
SW8 = off → CCW (counter-clockwise)

Note: The default rotation direction depends on wiring. Swapping wiring phase A A- (or B B-) will change the rotation direction.

Set Working Mode by SW9, SW10

SW9	SW10	Working Mode
on	on	Spontaneous pulses
on	off	Self-test
off	on	Double pulse
off	off	Pulse & Direction

Set Micro-Step and Working Speed by SW4, SW5, SW6, SW7

Note: Set SW9, SW10 for Spontaneous pulses mode. Working speed will be effective when connecting the 5V pulse signal.

Application Scenarios

Standalone automation — No PLC or motion controller needed; built-in pulse generator provides fixed-speed continuous rotation
Conveyor systems — Stable low-speed/high-torque operation with adjustable speed via DIP switch
Linear motion stages — Compact form factor ideal for NEMA23/NEMA24 integrated motor assemblies
Packaging machinery — Higher current capacity (5.6 A peak) suits medium-power industrial applications

More Information on detail, please feel free to contact me

AP57 Stepper Motor Driver User Manual

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Spontaneous pulse driver

$55.00

AP42 Stepper Motor Controller, Spontaneous pulse driver (AP42)

AP42 Stepper Motor Controller (Spontaneous Pulse)

Pulse & direction stepper motor driver supporting Spontaneous pulses mode — a compact integrated driver with built-in pulse generator for standalone operation without external PLC or motion controller.

● Miniature size 42.3mm × 42.3mm × 17mm

Product Introduction

The AP42 is a compact spontaneous pulse stepper motor driver designed for NEMA17/NEMA23 motors. With a built-in pulse generator, it can operate independently without requiring an external PLC or motion controller. It supports both pulse & direction and spontaneous pulse working modes via DIP switch selection, making it ideal for simple motion control applications that require fixed-speed continuous rotation.

Product Advantages

Pulse & direction stepper driver also supports standard RS232 serial command, with built-in 32-bit digital chip
Uses advanced control algorithms for vibration suppression and low heat generation
DC input voltage 12~40 VDC, recommended working voltage 24 VDC
Continuous output current 1.4 A max, max peak current 2.2 A
Integrated design, mountable with NEMA17/NEMA16 stepper motors
Low vibration, low noise, stable operation, low motor heating
Any micro-step can be set
Protection functions: overvoltage, undervoltage and overcurrent
Built-in automatic matching function of motor parameters
AP42 stepper driver can be assembled for NEMA17 Integrated Stepper Motors

Electrical Characteristics

Supply Voltage: 12~40 VDC (recommended 24 VDC)
Output Current (continuous): 1.4 A max
Peak Current: 2.2 A max
Control Modes: Spontaneous pulses, Pulse & Direction, Self-test, Double pulse
Communication: RS232 serial (parameter setting only)
Micro-step: Any value configurable
Dimensions: 42.3 × 42.3 × 17 mm

Pin Definition

Pin No.	Name	Description
1	VDC	Supply voltage: 12-32 VDC, Recommend DC 24 V
2	GND	Supply Voltage Ground: GND/0 V
3	RXD	To the RX pin on user device (not for communication, set parameter only)
4	TXD	To the TX pin on user device (not for communication, set parameter only)
5	PUL	Differential PULSE signal input, Allow receiving 5V signals, Rising edge is Effective
6	PUL-
7	DIR	Differential DIRECTION signal input, Allow receiving 5V signals, Rising edge is Effective
8	DIR-
9	ENA	Differential ENABLE signal input, Allow receiving 5V signals, Rising edge is Effective
10	ENA-
11	OUT	Alarm signal output, OC circuit, can receive voltage up to 24 V
12	OUT-

Note: Pulse signals, directional signals, and enable signals can receive up to 5 V signals.

If the control signal is 12 V, a 1K resistor needs to be connected.
If the control signal is 24 V, it is necessary to connect a 2.2K resistor.

Wiring Configurations

In addition to Differential wiring, AP42 Driver also supports common anode connection and common cathode connection:

DIP Switch Settings

SW1, SW2, SW3 — Set Current
SW4, SW5, SW6 — Set Micro-Step
SW8 — Set direction CW/CCW
SW9, SW10 — Choose Working Mode

Set Working Current by SW1, SW2, SW3

The default peak current at the factory is 0.5 A. It can be set through the serial port before sale. The adjustable current range is any value between 0.1 A and 2.2 A (peak).

Set Stepper Motor's Default Rotation Direction

SW8 = on → CW (clockwise)
SW8 = off → CCW (counter-clockwise)

Note: The default rotation direction depends on wiring. Swapping wiring phase A A- (or B B-) will change the rotation direction.

Set Working Mode by SW9, SW10

SW9	SW10	Working Mode
on	on	Spontaneous pulses
on	off	Self-test
off	on	Double pulse
off	off	Pulse & Direction

Set Micro-Step and Working Speed by SW4, SW5, SW6, SW7

Note: Set SW9, SW10 for Spontaneous pulses mode.

Working speed will be effective when connecting the 5V pulse signal.

Application Scenarios

Standalone automation — No PLC or motion controller needed; built-in pulse generator provides fixed-speed continuous rotation
Conveyor systems — Stable low-speed/high-torque operation with adjustable speed via DIP switch
Linear motion stages — Compact form factor ideal for NEMA17/NEMA16 integrated motor assemblies
Lab equipment — Low vibration and low noise for precision positioning applications

More Information on detail, please feel free to contact me

AP57 Stepper Motor Driver User Manual

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Spontaneous pulse driver

$47.00

Analog Voltage Stepper Motor Driver (510V)

0~5V / 0~10V Analog Voltage Stepper Motor Driver

Product Introduction

0~5V, 0~10V analog voltage type stepper motor driver. Miniature size 42.2mm × 42.2mm × 14.5mm, designed for precise speed control via analog voltage signal. It features wide voltage input and seamless integration with NEMA17 and NEMA23 stepper motors.

The driver accepts 0~5V (or 0~10V) analog voltage input, corresponding to adjustable speed range. High Speed Range: 0~1000RPM, Low Speed Range: 0~500RPM. Both speed ranges and analog signal voltage can be customized as required.

Product Advantages

Miniature Size: Ultra-compact 42.2mm × 42.2mm × 14.5mm design saves installation space.
Dual Analog Input: Supports 0~5V or 0~10V analog voltage signal control.
Wide Voltage Input: DC 12~40VDC input range, recommended working voltage 24VDC.
High Output Current: Continuous output current 1.4A max, peak current 2.0A.
Flexible Integration: Integrated design, mountable with NEMA17 and NEMA23 stepper motors.
Smooth Operation: Low vibration, low noise, stable operation, low motor heating.
Customizable: Working Speed Range and Analog Signal Voltage can be customized on request.
Dual Speed Ranges: High Speed Range 0~1000RPM, Low Speed Range 0~500RPM.

Electrical Characteristics

Parameter	Minimum Value	Typical Value	Maximum Value	Unit
Supply Voltage (DC)	12	24	40	VDC
Analog Signal Voltage	0	5	10	V

Product Images

Pin Definition

Pin No.	Name	Description
1	24V	Supply voltage: 12-40VDC, Recommend DC24V
2	GND	Supply Voltage Ground: GND/0V
3	H/L	Default High Speed Range; Connect GND to Low Speed Range
4	DIR	The rotation direction of the motor, CW/CCW
5	STP	The positive pole of the analog voltage current
6	ENA	Enable the Stepper Motor
7	DEBUG	Debug port

Wiring Diagram

Debug Cable & Software

Debugging Software ↓

Speed Configuration

Analog Voltage Signal 0-5V or 0-10V, Customized Working Speed Range 0-1000RPM for peristaltic pumps requirement.

Both of the two Speed Ranges are customizable, High Speed Range and Low Speed Range.

Default Adjusting Analog voltage: 0~5V corresponding to Speed range, High: 0~1000RPM; Low: 0~500RPM.

Integrated Stepper Motor Assembly

When this NEMA17 Sized Driver assembled with NEMA23 motor via a flange, an Integrated Stepper Motor is formed:

Downloads & Support

User Manual: Analog Voltage Type Stepper Motor Driver User Manual
Debug Software: Debugging Software Download

More Information on detail, please feel free to contact me

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Analog Voltage: 0-5V & 0-10V

$58.00

ADM57 Stepper Motor Driver, Pulse & Direction Stepper Motor Driver (ADM57)

ADM57 Pulse & Direction Stepper Motor Driver

Product Introduction

Pulse & direction stepper motor driver, supporting connection to magnetic encoder and photoelectric encoder. RS232 serial stepper motor controller, pulse and direction stepper driver. ADM57 is designed for NEMA23 integrated stepper motors.

ADM57 miniature integrated stepper motor driver with same size as NEMA23 stepper motor, built-in 32-bit DSP digital chip. Using new control algorithms for vibration suppression and low heat-generation, ensuring the motor runs smoothly with low noise and controllable temperature.

Product Advantages

High Output Current: Maximum output current 5.6A, meeting all NEMA23 stepper motor application requirements.
Encoder Support: Compatible with both magnetic encoder and photoelectric encoder.
Advanced DSP Chip: Built-in 32-bit DSP digital chip for precise motion control.
Vibration Suppression: New control algorithms for vibration suppression and low heat generation.
Advanced Micro-Step: Achieve high subdivision effects through internal algorithms, even in low micro-step conditions, widely applied in laser wire solutions.
Auto Tuning: Integrated automatic matching function for motor parameters, optimizing operating parameters for best performance.
Flexible Integration: Can be assembled as NEMA23 integrated stepper motor.

Pin Definition

Pin No.	Name	Description
1	VDC	Supply voltage: 12-50VDC
2	GND	Supply Voltage Ground: GND/0V
3	PUL	Pulse Control Signal Input: Rising Edge effective. PUL high level: 4~5V, Low level: 0~0.5V. Make sure pulse signal effective, pulse width ≥ 1.2μs. Add the resistance for power supply.
4	PUL-
5	DIR	Direction Signal: high/low level signal, pulse width > 5μs. High level: 4~5V, Low level: 0~0.5V.
6	DIR-
7	ENA	Enable Signal: enable/disable. If ENA connect 5V & ENA- connect low level (or Internal optocoupler on), stepper controller will turn off the current, motor in free state, no feedback even send pulses.
8	ENA-
9	TXD	To the TX pin on user device (not for communication, set parameter only)
10	RXD	To the RX pin on user device (not for communication, set parameter only)

DIP Switch Configuration

Set Working Current

Output Peak Current	Mean Current	S1	S2	S3
1.5A	1.1A	ON	ON	ON
2.1A	1.5A	OFF	ON	ON
2.7A	1.9A	ON	OFF	ON
3.2A	2.3A	OFF	OFF	ON
3.8A	2.7A	ON	ON	OFF
4.3A	3.1A	OFF	ON	OFF
4.9A	3.5A	ON	OFF	OFF
5.6A	4.0A	OFF	OFF	OFF

Set Micro-Step

Wiring Diagrams

Input Signal Single Ended Cathode Connection

Input Signal Single Ended Common Anode Connection

Input Signal Single Ended Cathode Connection (Alt)

Integrated Stepper Motor Assembly

Make the integrated NEMA23 stepper motor directly via simple screw:

Downloads & Support

User Manual: ADM57 Pulse & Direction Stepper Motor Driver User Manual

More Information on detail, please feel free to contact me

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$55.00

ADM57 Stepper Motor Controller, RS485 Stepper Motor Controller (ADM57S)

ADM57S RS485 Serial Stepper Motor Controller

Product Introduction

RS485 Serial Stepper Motor Controller, designed for NEMA23 stepper motors. It features standard RS485 communication protocol with built-in motion control instructions, and supports multi-axes control up to 32 axes simultaneously.

Product Advantages

RS485 Communication: Standard RS485 communication protocol with built-in motion control instructions.
Multi-Axis Control: Extending up to 32 axes for simultaneous control.
Wide Voltage Input: DC 15~50VDC input range, recommended 36VDC.
High Output: Continuous output current 4.0A max, peak current 5.6A.
Flexible Integration: Mountable with NEMA23 and NEMA34 stepper motors.
Smooth Operation: Low vibration, low noise, stable operation, low motor heating.
Advanced Features: Any micro-step settable, overvoltage/undervoltage/overcurrent protection, built-in automatic motor parameter matching.
Serial Debugging: RS232/RS485 debugging function.

Port Definition

1. VDC: Positive power input: DC voltage 15-50VDC
2. GND: Negative power input: DC voltage GND
3. COM: IO signal level common anode common terminal, amplitude 5VDC
4. LIM1-: Reverse limit signal port, valid for rising edge
5. LIM2-: Reverse limit signal port, valid for rising edge
6. STA: Start and stop signal port, valid on rising edge
7. RSA: RS485 group A signal
8. RSB: RS485 group B signal

Working Principle

DIP Switch Configuration

ADM57 stepper motor driver, using 6 DIP switches for setting the communication baud rate and device ID.

Device ID Setting (SW1 ~ SW4)

The formula for calculating the ID: ID = 1×SW1 2×SW2 4×SW3 8×SW4. The default ID value is 0, broadcast mode accepts data but does not return data.

Device ID	SW1	SW2	SW3	SW4
Broadcast	ON	ON	ON	ON
1	OFF	ON	ON	ON
2	ON	OFF	ON	ON
3	OFF	OFF	ON	ON
4	ON	ON	OFF	ON
5	OFF	ON	OFF	ON
6	ON	OFF	OFF	ON
7	OFF	OFF	OFF	ON
8	ON	ON	ON	OFF
9	OFF	ON	ON	OFF
10	ON	OFF	ON	OFF
11	OFF	OFF	ON	OFF
12	ON	ON	OFF	OFF
13	OFF	ON	OFF	OFF
14	ON	OFF	OFF	OFF
15	OFF	OFF	OFF	OFF

Communication Baud Rate Setting (SW5 ~ SW6)

Baud Rate	SW5	SW6
9600	ON	ON
19200	OFF	ON
38400	ON	OFF
57600	OFF	OFF

Integrated Stepper Motor

ADM57S Series RS485 Serial Stepper Motor Controller, NEMA23 Integrated Stepper Motor:

CRC Check Routine (C#)

Uint16 Funct_CRC16(unsigned char * puchMsg, Uint16 DataLen)
{
    Uint16 i, j, tmp;
    Uint16 crcdata = 0xFFFF;
    for(i = 0; i < DataLen; i )
    {
        crcdata = (*puchMsg) ^ crcdata;
        puchMsg ;
        for(j = 0; j < 8; j )
        {
            tmp = crcdata & 0x0001;
            crcdata = crcdata >> 1;
            if(tmp)
            {
                crcdata = crcdata ^ 0xA001;
            }
        }
    }
    return crcdata;
}

Downloads & Support

User Manual: ADM57S RS485 Serial Stepper Motor Controller Manual
Modbus Poll Software:
AdamPower Software: RS485 Controller Software

More Information on detail, please feel free to contact me

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$87.00

ADM42S Stepper Motor Controller, RS485 Stepper Motor Controller (ADM42S/UIM42S)

ADM42S RS485 Serial Stepper Motor Controller

Product Introduction

RS485 Serial Stepper Motor Controller, designed for NEMA17 stepper motors. It features miniature size, standard RS485 communication protocol with built-in motion control instructions, and supports multi-axes control up to 32 axes simultaneously.

Product Advantages

Miniature Size: Ultra-compact 42.3mm × 42.3mm × 21mm design.
RS485 Communication: Standard RS485 communication protocol with built-in motion control instructions.
Multi-Axis Control: Extending up to 32 axes for simultaneous control.
Wide Voltage Input: DC 12~32VDC input range, recommended 24VDC.
High Output: Continuous output current 1.58A max, peak current 2.2A.
Flexible Integration: Mountable with 42mm/39mm stepper motors.
Smooth Operation: Low vibration, low noise, stable operation, low motor heating.
Advanced Features: Any micro-step settable, overvoltage/undervoltage/overcurrent protection, built-in automatic motor parameter matching.
Serial Debugging: RS232/RS485 debugging function.

Port Definition

1. VDC: Positive power input: DC voltage 12-32VDC
2. GND: Negative power input: DC voltage GND
3. COM: IO signal level common anode common terminal, amplitude 5VDC
4. LIM1-: Reverse limit signal port, valid for rising edge
5. LIM2-: Reverse limit signal port, valid for rising edge
6. STA: Start and stop signal port, valid on rising edge
7. RSA: RS485 group A signal
8. RSB: RS485 group B signal

Working Principle

Assembly Options

With NEMA17 Plastic Flange

ADM42 Series RS485 Stepper Motor Controller with NEMA17 size plastic flange:

Direct Mount to NEMA17 Motor

When the RS485 Stepper Motor Controller without NEMA17 Plastic Flange, it can be assembled to NEMA17 Stepper Motor directly:

NEMA17 Integrated Stepper Motor, more concise and aesthetically pleasing:

DIP Switch Configuration

RS485 Stepper Motor Controller, using 6 DIP switches for setting the communication baud rate and device ID.

Device ID Setting (SW1 ~ SW4)

The formula for calculating the ID: ID = 1×SW1 2×SW2 4×SW3 8×SW4. The default ID value is 0, broadcast mode accepts data but does not return data.

Device ID	SW1	SW2	SW3	SW4
Broadcast	ON	ON	ON	ON
1	OFF	ON	ON	ON
2	ON	OFF	ON	ON
3	OFF	OFF	ON	ON
4	ON	ON	OFF	ON
5	OFF	ON	OFF	ON
6	ON	OFF	OFF	ON
7	OFF	OFF	OFF	ON
8	ON	ON	ON	OFF
9	OFF	ON	ON	OFF
10	ON	OFF	ON	OFF
11	OFF	OFF	ON	OFF
12	ON	ON	OFF	OFF
13	OFF	ON	OFF	OFF
14	ON	OFF	OFF	OFF
15	OFF	OFF	OFF	OFF

Communication Baud Rate Setting (SW5 ~ SW6)

Baud Rate	SW5	SW6
9600	ON	ON
19200	OFF	ON
38400	ON	OFF
57600	OFF	OFF

CRC Check Routine (C#)

Downloads & Support

User Manual: ADM42S RS485 Serial Stepper Motor Controller Manual
Modbus Poll Software:
AdamPower Software: RS485 Controller Software

More Information on detail, please feel free to contact me

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RS-485 Stepper Motor Driver

$88.00

Adjustable-Current Stepper Motor Controller 4-20mA (420MA)

4~20 mA Current-Adjustable Stepper Motor Driver

Product Introduction

4~20 mA current-adjustable stepping motor driver is a compact and versatile solution designed for precise speed control via analog current signal. It features miniature size, wide voltage input, and seamless integration with NEMA17 and NEMA23 stepper motors.

The driver accepts 4~20 mA analog current input corresponding to 0~300 RPM speed output (default setting for peristaltic pumps), making it ideal for applications requiring adjustable speed control without complex digital communication.

Product Advantages

Miniature Size: Ultra-compact 42.2mm × 42.2mm × 14.5mm design saves installation space.
Wide Voltage Input: DC 12~40VDC input range, recommended working voltage 24VDC.
High Output Current: Continuous output current 1.4A max, peak current 2.0A.
Flexible Integration: Integrated design, mountable with NEMA17 and NEMA23 stepper motors.
Smooth Operation: Low vibration, low noise, stable operation, low motor heating.
Adjustable Speed: 4~20 mA current corresponding to 0~300 RPM speed range (customizable on request).

Electrical Characteristics

Parameter	Minimum Value	Typical Value	Maximum Value	Unit
Supply Voltage (DC)	12	24	40	VDC
Control Signal Input Current	4	10	20	mA

Product Images

Pin Definition

Pin No.	Name	Description
1	24V	Supply voltage: 12-40VDC, Recommend DC24V
2	GND	Supply Voltage Ground: GND/0V
3	VCC	Reserved; H/L Speed Option or other Customized requirement
4	DIR	The rotation direction of the motor, CW/CCW
5	STP	The positive pole of the speed-regulating current
6	ENA	Enable the Stepper Motor
7	DEBUG	Debug port

Wiring Diagram

Debug Cable & Software

Debugging Software ↓

Demo Video

Customized Working Speed Range 0-300RPM for peristaltic pumps requirement.

Adjusting current: 4~20mA corresponding to Speed: 0~300RPM:

Integrated Stepper Motor Assembly

When this NEMA17 Sized Driver assembled with NEMA23 motor via a flange, an Integrated Stepper Motor is formed:

Downloads & Support

User Manual: Current Stepper Motor Driver User Manual
Debug Software: Debugging Software Download

More Information on detail, please feel free to contact me

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4-20 mA current stepper motor controller

$58.00

ADH42 Stepper Motor Controller, Spontaneous pulse driver (ADH42)

ADH42 Spontaneous Pulses Stepper Motor Driver

Product Introduction

Pulse & direction stepper motor driver, supporting spontaneous pulses mode. The ADH42 stepper driver features a miniature size 42mm × 42mm × 21.5mm, wide voltage input, and advanced control algorithms for vibration suppression and low heat generation.

It supports standard RS232 serial command and is built with a 32-bit digital chip. The ADM42H stepper driver can be assembled for NEMA17 integrated stepper motors.

Product Advantages

Miniature Size: Ultra-compact 42mm × 42mm × 21.5mm design.
Dual Working Modes: Supports both Pulse & Direction and Spontaneous pulses mode.
RS232 Support: Standard RS232 serial command interface with built-in 32-bit digital chip.
Advanced Control: New control algorithms for vibration suppression and low heat generation.
Wide Voltage Input: DC 12~40VDC, recommended 24VDC.
High Output: Continuous output current 1.4A max, peak current 2.1A.
Flexible Integration: Mountable with 42mm/39mm stepper motors.
Protection Functions: Overvoltage, undervoltage and overcurrent protection.
Auto Tuning: Built-in automatic matching function of motor parameters.
Any Micro-Step: Any micro-step value can be set.

Electrical Characteristics

Parameter	Minimum Value	Typical Value	Maximum Value	Unit
Supply Voltage (DC)	12	24	40	VDC
Control Signal Input Current	7	10	16	mA
Step Pulse Frequency	0	-	200	KHz
Insulation Resistance	50	-	-	MΩ

Product Images

Pin Definition

Pin No.	Name	Description
1	PU	Pulse Control Signal Input: 5V ~ 24V, Rising Edge effective. Make sure pulse signal effective, pulse width ≥ 2μs. Add the resistance for power supply.
2	PU-
3	DR	Direction Signal: high/low level signal 5V ~ 24V, direction signal should be at least 5μs earlier than pulse signal, High/Low level.
4	DR-
5	EN	Enable Signal: enable/disable. If ENA connect 5V & ENA- connect low level (or Internal optocoupler on), stepper controller will turn off the current, motor in free state, no feedback even send pulses.
6	EN-
7	AM	Alarm signal output: When overvoltage, undervoltage, phase loss, or position deviation alarms occur, the alarm signal output is effective. Maximum driving current 50mA.
8	AM-
9	GND	Supply Voltage Ground: GND/0V
10	DC	Supply voltage: 12-40VDC, Recommend DC24V

Wiring Diagram

Wire support common anode connection and common cathode connection, controlled by PLC or Pulse Generators.

DIP Switch Configuration

1. Set Working Current by SW1

SW1	Peak (A)	RMS (A)
Off	1.4	1.0
On	2.1	1.5

2. Set Working Mode by SW2

SW2	Working Mode
Off	Pulse & Direction
On	Spontaneous Pulses

2.1 Pulse & Direction Working Mode

Set Micro-step by SW3, SW4, SW5, SW6:

2.2 Spontaneous Pulses Working Mode

In this working mode, the PU & PU- connect to the power supply 5~24VDC and GND, make sure the stepper motor rotates instantly when power on. Please check below wiring diagram:

Set Working Speed by SW3, SW4, SW5, SW6:

Downloads & Support

User Manual: ADH42 Stepper Motor Driver User Manual

More Information on detail, please feel free to contact me

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Spontaneous pulse driver

$58.00

4~20 mA current-adjustable stepper motor driver (420MA)

4~20 mA Current-Adjustable Stepper Motor Driver

Product Introduction

Product Advantages

Miniature Size: Ultra-compact 42.2mm × 42.2mm × 14.5mm design saves installation space.
Wide Voltage Input: DC 12~40VDC input range, recommended working voltage 24VDC.
High Output Current: Continuous output current 1.4A max, peak current 2.0A.
Flexible Integration: Integrated design, mountable with NEMA17 and NEMA23 stepper motors.
Smooth Operation: Low vibration, low noise, stable operation, low motor heating.
Adjustable Speed: 4~20 mA current corresponding to 0~300 RPM speed range (customizable on request).

Electrical Characteristics

Parameter	Minimum Value	Typical Value	Maximum Value	Unit
Supply Voltage (DC)	12	24	40	VDC
Control Signal Input Current	4	10	20	mA

Product Images

Pin Definition

Pin No.	Name	Description
1	24V	Supply voltage: 12-40VDC, Recommend DC24V
2	GND	Supply Voltage Ground: GND/0V
3	VCC	Reserved; H/L Speed Option or other Customized requirement
4	DIR	The rotation direction of the motor, CW/CCW
5	STP	The positive pole of the speed-regulating current
6	ENA	Enable the Stepper Motor
7	DEBUG	Debug port

Wiring Diagram

Debug Cable & Software

Debugging Software ↓

Demo Video

Customized Working Speed Range 0-300RPM for peristaltic pumps requirement. Adjusting current: 4~20mA corresponding to Speed: 0~300RPM:

Integrated Stepper Motor Assembly

When this NEMA17 Sized Driver assembled with NEMA23 motor via a flange, an Integrated Stepper Motor is formed:

Downloads & Support

User Manual: Current Stepper Motor Driver User Manual
Debug Software: Debugging Software Download

More Information on detail, please feel free to contact me

View

current stepper motor driver

$58.00

NEMA34 Closed Loop Integrated Stepper Motor (IG3445)

The IG34 series integrated motor is the perfect combination of drive and stepper motor,
which perfectly integrates stepper motor and drive technology, also built in 1000 line encoder,
it can save installation space, Simultaneously saving design and production costs,
supporting RS485 and TTL communication.

Item	Specifications
Stepper Motor Size	NEMA34
Encoder type	1000 line encoder
Working voltage	24~80VDC, 18~60VAC
Driver Current	0.5-6.5A
Velocity range	Up to 3000RPM
Control Method	RS485, Pulse& Direction, Twin-Pulse, I/O, Built-in Program
Torque value	3.5 -12.5Nm
Nonvolatile storage	Configuration parameters are stored in FLASH inside the MCU
DI and DO	2 DI, 1 DO
Protection	Overvoltage, undervoltage, overcurrent, open winding, position deviation

Digital Input (2/3)	Receive 3.3-24VDC
Digital Output(1)	Maximum withstand voltage of 30V,
	Maximum input or output current 30mA

Motor Parameters

Model No.	length mm L	Shaft length mm	Shaft dia. mm	Phase current A	Resistance Ω	inductance mH	Hold torque N.m	Inertia g.cm²	Weight g
IG3445	80	32	14	6	0.5	3.6	4.5	1950	2900
IG23465	98	32	14	6	0.63	4.5	6.5	2500	3400
IG3485	118	32	14	6	0.5	4.2	8.5	2800	4100
IG34125	151	32	14	6	0.63	4.7	12.5	4950	5600

Wiring Diagram:

1. Pulse Type Integrated Stepper Motor, Terminal Definition

Terminal Definition

Terminal	Name	Description
1	V	24~60VDC
2	V-	GND
3	X0 (PU )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port for Pulse/Direction
4	X0-(PU-)
5	X1 (DR )
6	X1-(DR-)
7	X2(EN )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 100us, The maximum pulse frequency is 10KHz, which can be used as a universal input port for Enable
8	X2(EN-)
9	Y0 (AL )	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
10	Y0-(AL-)
11	Y1(EX )	The default In-place output , Other functions can be set through communication
12	Y1(EX-)

Set Micro-step by SW1, SW2, SW3 and SW4:

SW5=OFF: Pulse & Direction; SW=ON: Twin Pulse mode.
SW6=OFF: CW direction; SW6=ON: CCW direction.

2. RS485 Type Integrated Stepper Motor, Terminal Definition

Terminal Definition

Terminal	Name	Description
1	V	24~60VDC
2	V-	GND
3	X0 (PU )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port for Pulse/Direction
4	X0-(PU-)
5	X1 (DR )
6	X1-(DR-)
7	X2 (EN )
8	X2-(EN-)
9	Y0 (AL )	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
10	Y0-(AL-)
11	485A	RS485 Communication port, default baud rate is 115200
12	485B	RS485 Communication port, default baud rate is 115200

Set Device ID for RS485 integrated Stepper Motor by SW1 ~ SW5:

SW6 is used to set the terminal resistance; OFF=0 ohms; ON=120 ohms

CRC Check Routine (C#)

UInt16 Funct_CRC16(unsigned char * puchMsg, UInt16 DataLen)
{
UInt16 i,j,tmp;
UInt16 crcdata=0xFFFF;
for(i=0;i<DataLen;i )
{

crcdata=(*puchMsg)^crcdata;
puchMsg ;
for(j=0;j<8;j )
{
tmp=crcdata&0x0001;
crcdata=crcdata>>1;
if(tmp){
crcdata=crcdata^0xA001;
}
}
}
return crcdata;
}

Software Tools for RS485 Control

Modbus Poll

New Software in google drive

Step-Config
1. Extract the zip file, open CommFile folder and Click Step-Config.exe or Adampower.exe

2. Open Project.

3. Click Browse

4. Select the Project.prj in the Project folder, in the same path as CommFile.

5. Double Click the Project.prj path

6. Right Click Modbus_485, and Click Property:

7. Click Property ComNN, Choose COM port, Baud rate and click Save and OK.

8. Start to use software control the RS485 Integrated stepper motor by below buttons:

RS485 Stepper Motor Controller Manual

Block Diagram:

2 Input signals can directly receive 3.3-24V DC levels at high levels, Max. frequency of 400KHZ.
X0: pulse input, IO start/stop, limit, direction, universal input.
X1 pulse input, IO start/stop, limit, direction, universal input.
...

1 Output signal, maximum withstand voltage 30V, maximum input or output current 30mA
Y0 : alarm output, universal output, and factory default alarm output.

LED indicator and status:

more Information on detail, please feel free to contact me

View

MODBUS RTU

$101.00

NEMA8 Closed Loop Integrated Stepper Motor (IG8)

The IG8 series integrated motor is the perfect combination of drive and stepper motor,
which perfectly integrates stepper motor and drive technology, also built in 1000 line encoder,
it can save installation space, Simultaneously saving design and production costs,
supporting RS485 communication.

Item	Specifications
Stepper Motor Size	NEMA8
Encoder type	1000 line encoder
Working voltage	6~24VDC
Driver Current	0.2-1.5A
Velocity range	Up to 3000RPM
Control Method	RS485, Pulse& Direction, Twin-Pulse, I/O, Built-in Program
Torque value	0.08 - 0.24Nm
Nonvolatile storage	Configuration parameters are stored in FLASH inside the MCU
Protection	Overvoltage, undervoltage, overcurrent, open winding, position deviation

Motor Parameters
NEMA8 integrated Stepper Motor:

Model No.	Hole Spacing	Flange dia.	length mm L	Shaft length mm	Shaft dia. mm	Phase current A	Resistance Ω	inductance mH	Hold torque N.m	Inertia g.cm²	Weight g
IG8002	15.4	16	28	18	4	0.6	6	3	0.015	2.5	70
IG8004	15.4	16	38	18	4	1.0	3.2	1.3	0.04	3.3	90
IG8002B	16	15	28	18	4	0.6	6	3	0.015	2.5	70
IG8004B	16	15	38	18	4	1.0	3.2	1.3	0.04	3.3	90

1. Pulse Type NEMA8 Integrated Stepper Motor, Terminal definition.

Terminal Definition

Terminal	Name	Description
1	V	6 ~ 24VDC
2	V-	GND
3	PU	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port Pulse/Direction
4	DR
5	EN	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 100us, The maximum pulse frequency is 10KHz, which can be used as a universal input port for Enable
6	COM-	Input common ground
7	AL	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
8	AL-

2. RS-485 Type NEMA8 Integrated Stepper Motor, Terminal definition

CRC Check Routine (C#)

UInt16 Funct_CRC16(unsigned char * puchMsg, UInt16 DataLen)
{
UInt16 i,j,tmp;
UInt16 crcdata=0xFFFF;
for(i=0;i<DataLen;i )
{

crcdata=(*puchMsg)^crcdata;
puchMsg ;
for(j=0;j<8;j )
{
tmp=crcdata&0x0001;
crcdata=crcdata>>1;
if(tmp){
crcdata=crcdata^0xA001;
}
}
}
return crcdata;
}

Software Tools for RS485 Control

Modbus Poll

New Software in google drive

Adampower.exe
1. Extract the zip file, open CommFile folder and Click Step-Config.exe or Adampower.exe

2. Open Project.

3. Click Browse

4. Select the Project.prj in the Project folder, in the same path as CommFile.

5. Double Click the Project.prj path

more Information on detail, please feel free to contact me

View

Pulse and RS485

$153.00

NEMA17 Closed Loop Integrated Stepper Motor (IG1705)

The IG17 series integrated motor is the perfect combination of drive and stepper motor,
which perfectly integrates stepper motor and drive technology, also built in 1000 line encoder,
it can save installation space, Simultaneously saving design and production costs,
supporting RS485 and TTL communication.

Item	Specifications
Stepper Motor Size	NEMA17
Encoder type	1000 line encoder
Working voltage	8-50VDC, Recommend DC36V
Driver Current	0.2-3.2A
Velocity range	Up to 3000RPM
Control Method	RS485, Pulse& Direction, Twin-Pulse, I/O, Built-in Program
Torque value	0.2 - 6Nm
Nonvolatile storage	Configuration parameters are stored in FLASH inside the MCU
DI and DO	2 DI, 1 DO
Protection	Overvoltage, undervoltage, overcurrent, open winding, position deviation

Digital Input (2/3)	Receive 3.3-24VDC
Digital Output(1)	Maximum withstand voltage of 30V,
	Maximum input or output current 30mA

Motor Parameters

Model No.	length mm L	Shaft length mm	Shaft dia. mm	Phase current A	Resistance Ω	inductance mH	Hold torque N.m	Inertia g.cm²	Weight g
IG1704	40	21	8	2.0	2	4.2	0.4	57	380
IG1705	48	21	8	2.0	1.3	2.9	0.5	82	460
IG1706	60	21	8	2.5	1.3	3.2	0.6	116	700

Wiring Diagram:

1. Pulse Type Integrated Stepper Motor, Terminal Definition

Terminal Definition

Terminal	Name	Description
1	V	8-48VDC
2	V-	GND
3	X0 (PU )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port for Pulse/Direction
4	X0-(PU-)
5	X1 (DR )
6	X1-(DR-)
7	X2(EN )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 100us, The maximum pulse frequency is 10KHz, which can be used as a universal input port for Enable
8	X2(EN-)
9	Y0 (AL )	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
10	Y0-(AL-)

Set Micro-step by SW1, SW2, SW3 and SW4:

SW5=OFF: Pulse & Direction; SW=ON: Twin Pulse mode.
SW6=OFF: CW direction; SW6=ON: CCW direction.

2. RS485 Type Integrated Stepper Motor, Terminal Definition

Terminal Definition

Terminal	Name	Description
1	V	8-48VDC
2	V-	GND
3	X0 (PU )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port or a high-speed pulse input port
4	X0-(PU-)
5	X1 (DR )
6	X1-(DR-)
7	485A(EN )	RS485 Communication port, default baud rate is 115200,
8	485B(EN-)	RS485 Communication port, default baud rate is 115200,
9	Y0 (AL )	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
10	Y0-(AL-)

Set Device ID for RS485 integrated Stepper Motor by SW1 ~ SW5:

SW6 is used to set the terminal resistance; OFF=0 ohms; ON=120 ohms

CRC Check Routine (C#)

UInt16 Funct_CRC16(unsigned char * puchMsg, UInt16 DataLen)
{
UInt16 i,j,tmp;
UInt16 crcdata=0xFFFF;
for(i=0;i<DataLen;i )
{

crcdata=(*puchMsg)^crcdata;
puchMsg ;
for(j=0;j<8;j )
{
tmp=crcdata&0x0001;
crcdata=crcdata>>1;
if(tmp){
crcdata=crcdata^0xA001;
}
}
}
return crcdata;
}

Software Tools for RS485 Control

Modbus Poll

Software in google drive

Step-Config
1. Extract the zip file, open CommFile folder and Click Step-Config.exe or Adampower.exe

2. Open Project.

3. Click Browse

4. Select the Project.prj in the Project folder, in the same path as CommFile.

5. Double Click the Project.prj path

more Information on detail, please feel free to contact me

View

RS485 and Pulse Type

$80.00

NEMA23 Closed Loop Integrated Stepper Motor (IG2312)

The IG23 series integrated motor is the perfect combination of drive and stepper motor,
which perfectly integrates stepper motor and drive technology, also built in 1000 line encoder,
it can save installation space, Simultaneously saving design and production costs,
supporting RS485 and TTL communication.

Item	Specifications
Stepper Motor Size	NEMA23
Encoder type	1000 line encoder
Working voltage	8-60VDC, Recommend DC36V
Driver Current	0.5-5A
Velocity range	Up to 3000RPM
Control Method	RS485, Pulse& Direction, Twin-Pulse, I/O, Built-in Program
Torque value	0.8 - 2.2Nm
Nonvolatile storage	Configuration parameters are stored in FLASH inside the MCU
DI and DO	2 DI, 1 DO
Protection	Overvoltage, undervoltage, overcurrent, open winding, position deviation

Digital Input (2/3)	Receive 3.3-24VDC
Digital Output(1)	Maximum withstand voltage of 30V,
	Maximum input or output current 30mA

Motor Parameters

Model No.

Total

length
mm L

Motor Length L

Shaft length
mm

Shaft dia.
mm

Phase current
A

Resistance
Ω

inductance
mH

Hold torque
N.m

Inertia
g.cm²

Weight
g

IG2312

0.5

1.8

1.2

280

800

IG2320

0.4

2.0

480

1100

Wiring Diagram:

1. Pulse Type Integrated Stepper Motor, Terminal Definition

Terminal Definition

Terminal	Name	Description
1	V	24~60VDC
2	V-	GND
3	X0 (PU )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port for Pulse/Direction
4	X0-(PU-)
5	X1 (DR )
6	X1-(DR-)
7	X2(EN )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 100us, The maximum pulse frequency is 10KHz, which can be used as a universal input port for Enable
8	X2(EN-)
9	Y0 (AL )	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
10	Y0-(AL-)
11	Y1(EX )	The default In-place output , Other functions can be set through communication
12	Y1(EX-)

Set Micro-step by SW1, SW2, SW3 and SW4:

SW5=OFF: Pulse & Direction; SW=ON: Twin Pulse mode.
SW6=OFF: CW direction; SW6=ON: CCW direction.

2. RS485 Type Integrated Stepper Motor, Terminal Definition

Terminal Definition

Terminal	Name	Description
1	V	24~60VDC
2	V-	GND
3	X0 (PU )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port for Pulse/Direction/Enable
4	X0-(PU-)
5	X1 (DR )
6	X1-(DR-)
7	X2 (EN )
8	X2-(EN-)
9	Y0 (AL )	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
10	Y0-(AL-)
11	485A	RS485 Communication port, default baud rate is 115200
12	485B	RS485 Communication port, default baud rate is 115200

Set Device ID for RS485 integrated Stepper Motor by SW1 ~ SW5:

SW6 is used to set the terminal resistance; OFF=0 ohms; ON=120 ohms

CRC Check Routine (C#)

UInt16 Funct_CRC16(unsigned char * puchMsg, UInt16 DataLen)
{
UInt16 i,j,tmp;
UInt16 crcdata=0xFFFF;
for(i=0;i<DataLen;i )
{

crcdata=(*puchMsg)^crcdata;
puchMsg ;
for(j=0;j<8;j )
{
tmp=crcdata&0x0001;
crcdata=crcdata>>1;
if(tmp){
crcdata=crcdata^0xA001;
}
}
}
return crcdata;
}

Software Tools for RS485 Control

Modbus Poll

Software in google drive

Adampower
1. Extract the zip file, open CommFile folder and Click Step-Config.exe or Adampower.exe

2. Open Project.

3. Click Browse

4. Select the Project.prj in the Project folder, in the same path as CommFile.

5. Double Click the Project.prj path

more Information on detail, please feel free to contact me

View

RS485 and Pulse Type

$98.00

NEMA24 Closed Loop Integrated Stepper Motor (IG2422)

The IG24 series integrated motor is the perfect combination of drive and stepper motor,
which perfectly integrates stepper motor and drive technology, also built in 1000 line encoder,
it can save installation space, Simultaneously saving design and production costs,
supporting RS485 and TTL communication.

Item	Specifications
Stepper Motor Size	NEMA24
Encoder type	1000 line encoder
Working voltage	24-60VDC
Driver Current	0.5-5A
Velocity range	Up to 3000RPM
Control Method	RS485, Pulse& Direction, Twin-Pulse, I/O, Built-in Program
Torque value	1.6 - 3.5Nm
Nonvolatile storage	Configuration parameters are stored in FLASH inside the MCU
DI and DO	2 DI, 1 DO
Protection	Overvoltage, undervoltage, overcurrent, open winding, position deviation

Digital Input (2/3)	Receive 3.3-24VDC
Digital Output(1)	Maximum withstand voltage of 30V,
	Maximum input or output current 30mA

Motor Parameters

Model No.	length mm L	Shaft length mm	Shaft dia. mm	Phase current A	Resistance Ω	inductance mH	Hold torque N.m	Inertia g.cm²	Weight g
IG2422	68	21	8	5	0.33	1.05	2.2	490	1300
IG2430	85	21	8	5	0.43	2.0	3.0	690	1500

Wiring Diagram:

1. Pulse Type Integrated Stepper Motor, Terminal Definition

Terminal Definition

Terminal	Name	Description
1	V	24~60VDC
2	V-	GND
3	X0 (PU )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port for Pulse/Direction
4	X0-(PU-)
5	X1 (DR )
6	X1-(DR-)
7	X2(EN )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 100us, The maximum pulse frequency is 10KHz, which can be used as a universal input port for Enable
8	X2(EN-)
9	Y0 (AL )	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
10	Y0-(AL-)
11	Y1(EX )	The default In-place output , Other functions can be set through communication
12	Y1(EX-)

Set Micro-step by SW1, SW2, SW3 and SW4:

SW5=OFF: Pulse & Direction; SW=ON: Twin Pulse mode.
SW6=OFF: CW direction; SW6=ON: CCW direction.

2. RS485 Type Integrated Stepper Motor, Terminal Definition

Terminal Definition

Terminal	Name	Description
1	V	24~60VDC
2	V-	GND
3	X0 (PU )	Optoelectronic isolation, differential, High level can directly receive 3.3-24VDC, with a minimum pulse width of 2us, The maximum pulse frequency is 400KHz, which can be used as a universal input port for Pulse/Direction/Enable
4	X0-(PU-)
5	X1 (DR )
6	X1-(DR-)
7	X2 (EN )
8	X2-(EN-)
9	Y0 (AL )	The default alarm output port can detect the driver alarm status and provide feedback to the main station. Other functions can be set through communication
10	Y0-(AL-)
11	485A	RS485 Communication port, default baud rate is 115200
12	485B	RS485 Communication port, default baud rate is 115200

Set Device ID for RS485 integrated Stepper Motor by SW1 ~ SW5:

SW6 is used to set the terminal resistance; OFF=0 ohms; ON=120 ohms

CRC Check Routine (C#)

UInt16 Funct_CRC16(unsigned char * puchMsg, UInt16 DataLen)
{
UInt16 i,j,tmp;
UInt16 crcdata=0xFFFF;
for(i=0;i<DataLen;i )
{

crcdata=(*puchMsg)^crcdata;
puchMsg ;
for(j=0;j<8;j )
{
tmp=crcdata&0x0001;
crcdata=crcdata>>1;
if(tmp){
crcdata=crcdata^0xA001;
}
}
}
return crcdata;
}

Software Tools for RS485 Control

Modbus Poll

Software in google drive

Step-Config
1. Extract the zip file, open CommFile folder and Click Step-Config.exe or Adampower.exe

2. Open Project.

3. Click Browse

4. Select the Project.prj in the Project folder, in the same path as CommFile.

5. Double Click the Project.prj path

more Information on detail, please feel free to contact me

View

RS485 and Pulse Type

$98.00