Motor Drivers
28BYJ48 5V Stepper Motor With ULN2003 Driver Board
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Signal Output function :

Brand new and high quality.
Voltage: 5V.
Diameter: 28mm.
 

Description:

 
 Signal Output function :
Brand new and high quality.
Voltage: 5V.
Diameter: 28mm.
Step angle: 5.625 x 1 / 64.
Reduction ratio: 1 / 64.
5 Line 4 phase can be driven by ordinary uln2003 chip can also be connected in phase 2 development board used for.
supporting the use of a direct plug and easy to use stepper motor used in the development board.
Dimensions of the Board : 31mm x 35mm.
Stepper motor driver board with ULN2003.
A, B, C, D four-phase LED indicates the status of the stepper motor work.
Stepper motor with a standard interface, when used directly pluggable.
Drive Module Board Size:2.8cm x 2.8cm x 2cm - 1.1inch x 1.1inch x 0.79inch.
Stepper motor Size:3.2cm x 3.2cm - 1.26inch x 1.26inch.
 
Package Included:
1 x Drive Module Board ULN2003
1 x Stepper motor

A4988 StepStick Stepper Motor Driver Module (35V, 2A) with heat-sink
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A4988 is a complete microstepping motor driver with built-in translator for easy operation. The product can be full, half, 1/4, 1/8 and 1/16 step mode to operate bipolar stepper motor output drive capacity of up to 35 V and ± 2 A. A4988 includes a fixed off-time current regulator, the regulator can slow or mixed decay mode

Description:

  • A4988 is a complete microstepping motor driver with built-in translator for easy operation. The product can be full, half, 1/4, 1/8 and 1/16 step mode to operate bipolar stepper motor output drive capacity of up to 35 V and ± 2 A. A4988 includes a fixed off-time current regulator, the regulator can slow or mixed decay mode. The converter is the key to the easy implementation of the A4988. In inputting one pulse on the STEP input drives the motor one microstep. No phase sequence tables, high frequency control lines, or complex interfaces to programming. A4988 interface is very suitable for complex microprocessor is unavailable or is overburdened.
  • Micro-step operation, the chopping control in the A4988 automatically selects the current decay mode (Slow or Mixed). In the mixed decay mode, the device is initially set to fast decay in the part of the fixed off-time, then a slow decay in the rest of the downtime. Mixed-decay current control scheme results in reduced audible motor noise, increased step accuracy, and reduced power consumption. Internal synchronous rectification control circuitry to improve the pulse-width modulation (PWM) power consumption when operating. Internal circuit protection includes: thermal shutdown with hysteresis, undervoltage lockout (UVLO) and crossover current protection. Special power-Sort.
  • A4988 surface mount QFN package (ES), the size of 5 mm × 5 mm nominal overall package height of 0.90 mm, and with exposed pad for enhanced thermal dissipation. The package is Pb (suffixes-T), with 100% matte tin leadframe plating.

Product Summary:

  • Low RDS (ON) outputs<,A0~A5/li>
  • Automatic current decay mode detection / selection
  • Internal UVLO
  • Mixed with slow current decay modes
  • Synchronous rectification for low power dissipation
  • Crossover-current protection
  • Thermal shutdown circuitry
  • 3.3 and 5 V compatible logic supply
  • Thermal shutdown circuitry
  • Ground Fault Circuit
  • Load short-circuit protection
  • Of five optional step mode: full, 1/2, 1/4, 1/8 and 1/16

5A Integrated 3 Axis CNC TB6600 Stepper Driver w/ Controller, LCD and Keypad Box Set,
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Comparing with the previous 3rd generation TB6560AHQ Stepper Driver, besides including all the functions that the 3rd generation TB6560AHQ Stepper Driver has, this newly released 3rd generation TB6600HG Stepper Driver was specially developed for bigger stepper motors which have higher current. As long as the current range of the stepper motors is within 0.2-5.0 amps

 

The Latest 3rd Generation Revolutionary TB6600HG 3 Axis Stepper Driver Box Set (TB3H-CD-S (Box))



 I: PCB Instructions & Specifications

 
Descriptions:
  • Comparing with the previous 3rd generation TB6560AHQ Stepper Driver, besides including all the functions that the 3rd generation TB6560AHQ Stepper Driver has, this newly released 3rd generation TB6600HG Stepper Driver was specially developed for bigger stepper motors which have higher current. As long as the current range of the stepper motors is within 0.2-5.0 amps, all the 2 Phase or 4 Phase of Nema17, Nema23, Nema24 and Nema34 stepper motors will work perfectly with this new TB6600HG Stepper Driver.  
  • Actually, the 3rd generation TB6600HG Stepper Drivers have two types of versions, one is the standard version, and another is the professional version. Compare to the standard version, the professional version mainly has two more functions than the standard version, one is the “computer G-code recording function”, and another is the “manual programing function”. Except these two functions, these two types of versions have no other differences. 
  • Firstly, both of these two types of versions have upgraded their PCB boards, the re-designing the PCB board will avoid the TB6600HG chip on the board being easily blown as the previous version.  
  • With the embedded intelligent memory chip, the professional version of this 3rd generation 3 Axis TB6600HG Stepper Driver can easily record the G-coderunning on the CNC software (e.g. Mach3EMC2KCAM4, etc..) of the computer, and then rerun the recorded G-code to make the stepper motor work without the computer any more.     
  • Furthermore, the upgraded external manual control tools (display panel and control pad) on the professional version can be not only used for manually controlling the stepper motor, but also manually programming the G-code. All the manually Programmed G-code will also be recorded in to the embedded intelligent memory chip, and then we also can easily run the recorded G-code to control the stepper motor. Considering that the computer G-code recording function is enough for all the three axis working without computer, to avoid repeated function, the manual programming function is mainly designed for one axis to make linear motion, therefore, the three axis cannot be manually programmed simultaneously. This function is widely used on working which just need one Axis, such as RBI machine, Conveyor etc. 
  • Lately, both of these two types of versions adopt the totally enclosed optical isolation and bipolar constant-current chopper to insure working at low noise & vibration, and avoid creeping at a low speed. It is very suitable for driving the 2-phase and 4-phase hybrid stepping motors. 
  • In short, the qualities and functions of the new 3rd generation advanced 3 Axis TB6600HG Stepper Driver are revolutionized from the previous version. So, we believe that these two types of versions must satisfy different users on CNC DIY.  
  • The item you are watching is the 3 Axis Standard Version (TB3H-CD-S (Box)), if you need the other versions, please feel free to contact with us 
  • Click here for the comparison between TB6560AHQ and TB6600HG Chipset. 
  • Click here for more details about the TB6600HG Chipset.
 Features:
  • High performance, cost-effective. 
  • Automatic idle-current reduction
  • To manually control the stepper motor, both of the standard and professional drivers have been equipped with the display panel and control pad.  
  • Automatically identify both of the computer and control pad, functions of the computer and control pad can be switched intelligently for each other without any interference. 
  • Display panel can real-time trail the running path of G-Code on the computer or input by the control pad, and then completely and Simultaneous display the changing of each axis'(X, Y, Z axis etc.) values on its screen. 
  • Both of the standard version and professional version are compatible with the Mach2Mach3(Default Software), LinuxCNC(EMC2),KCAM4 CNC Software, etc.. Besides, the professional version also can automatically trail the path running path of G-Code from the CNC software (e.g.Mach3EMC2KCAM4, etc.) of the computer and record the G-code into the memory chip; Easy to repeatedly run the G-code to control the stepper motors without computer. 
  • The professional version also support manual programming via the control pad, as long as input the required values on one axis and record them in the memory chip of the driver, and then run these recorded values to drive the axis to make linear motion, widely used on RBI machine, Conveyor and so on.  
  • Automatically finish Tool-settings on X, Y, Z Axis via the control pad, without the support of the computer.  
  • Compatible with all the motors with 0.2A-5.0A (peak) rated current, four types of adjustable output current can be set on the driver board. 
  • 1, 2, 4(new mode), 8, 16 adjustable microstep control, motors run more precisely and smoothly. 
  • Overload, overcurrent, overheat, overvoltage and undervoltage protection to avoid damaging your computer and devices. 
  • Totally enclosed optical isolation and single-chip PWM bipolar sinusoidal chopper to insure motors work at low noise & vibration, and avoid motors creep at a low speed.  
  • With one 0-10V PWM Signal output port for speed adjustment and one Relay control port. 
  • 5 types of input control in manual control interface, to set LimitEstopMidpoint-SettingCutter-presetting/Tool-Setting etc... 
  • Cooling Aluminium Box Design for Cooling, and protect the driver board from being damaged by dirt, dust or other liquids.
 Applications:
  • For processing various pattern mould.  
  • For advising, such as brand, architechture mould, badge, nameplate, display boards, doorplate, furniture decoration, etc..  
  • For carving portrait, scenery, handwriting, sealing, etc..  
  • Suitable for any small-and-medium automatic equipment with CNC controller, such as  X-Y-Z tables, labeling machines, laser cutters, engraving machines, and pick-place devices.
 Dip Switch Settings:
 

II: DIP Switch Settings 

  • Microstep Mode Selection:
Microstep Mode
SW1
SW2
SW3
N/A
ON
ON
ON
1(Full Step)
OFF
ON
ON
2
ON
OFF
ON
2
OFF
OFF
ON
4
ON
ON
OFF
8
OFF
ON
OFF
16
ON
OFF
OFF
N/A
OFF
OFF
OFF

  • Output Current Selection:
Output Current
SW4
SW5
SW6
0.2A
ON
ON
ON
0.6A
OFF
ON
ON
1.2A
ON
OFF
ON
1.8A
OFF
OFF
ON
2.5A
ON
ON
OFF
3.3A
OFF
ON
OFF
4.2A
ON
OFF
OFF
5.0A
OFF
OFF
OFF
 
 Further Details:
  • DC 12-48V power supply selection
    *Voltage Selection: 
    12-24V DC power supply for Nema 17 stepper motors 
    24-36V DC power supply for Nema 23 stepper motors 
    36-48V DC power supply for Nema 34 stepper motors
    (High(≥50V) voltage will be easy to cause the driver and stepper motors to be damaged!!!)
    *Current Selection:
    Output current of the power supply can be calculated by the following formula:
    Output current = Rated current of your stepper motors * quantity + 2A
    (For example, if you want to drive 3 * 2A Nema 23 stepper motors, theoretically 24V 8A DC power supply is recommended, but higher power such as 24V 10A/15A also will be good. 
    If you are not sure about the selection of power supply, please feel free to contact us for help)
  • Please SHUT DOWN the power before you plug or unplug the connectors to avoid burning up the board.

 Connection Diagram For Reference: 

 

 III: Connection Diagram

ΔTOP

 Specifications:

  • Electrical Specifications
Input voltage
12V-50V(Peak) DC
Output current
0.2A-5.0A (Peak)
Drive type
Pulse + Direction + Enable Signal Control (Single-Chip PWM Bipolar Sine Chopper)
Suitable motor
Nema17, Nema23, Nema24, Nema34 (Rated current: 0.2A-5.0A)
Net weight
535g (Driver)
Dimensions
177*147*46mm

  • Operationg Environment & Other Specifications 
Cooling
Natural Cooling or Fan Forced cooling
Operating Environment
Environment
Avoid dust, oil fog, corrosive gas
Ambient Temperature
0 ℃- 50℃ (32℉ - 122℉)
Humidity
40%RH - 90%RH
Operating Temperature
70℃ (158℉) Max
Storage Temperature
-20 ℃ - 65℃ (-4℉ - 149℉)
Total Weight
Approx. 650g (Driver + Control Pad + Display Panel)

ΔTOP

  • 1 x The 3rd Generation 3 Axis TB6600HG Stepper Driver With Aluminium Box (Standard Version) 
  • 1 x Build-in Control Pad (Standard Version)
  • 1 x Build-in Display Panel (Universal)
  • 1 x LPT Parallel Cable
  • 1 x CD   
  • Click here for the Mach3 software

IRF520 N-Channel MOSFET Driver Module
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Description:
Size: 33*24mm
Weight: 10g
Voltage: 3.3V, 5V
Ports: Digital Level
Output load voltage :0-24V
Output load current:
Datasheet Link: http://www.irf.com/product-info/datasheets/data/irf520.pdf.

Description:
Size: 33*24mm
Weight: 10g
Voltage: 3.3V, 5V
Ports: Digital Level
Output load voltage :0-24V
Output load current:
Platform: Arduino, MCU, ARM, raspberry pi
Using original IRF520 Power MOS, you can adjust the output PWM
For Arduino drive up to 24V allows the load, such as LED lights, DC motors, miniature pumps, solenoid valves
PWM dimming LED can be used to achieve stepless dimming, variable speed motor

Package Included:
1 X IRF520 MOS FET Driver Module

 

ULN2003 Driver Board
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A, B, C, D four-phase LED indicates the status of the stepper motor work.

Stepper motor with a standard interface, when used directly pluggable.

Drive Module Board Size:2.8cm x 2.8cm x 2cm - 1.1inch x 1.1inch x 0.79inch. 

Dual H Bridge Motor Driver Module (L298)
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This dual bidirectional motor driver is based on the very popular L298 Dual H-Bridge Motor Driver Integrated Circuit. The circuit will allow you to easily and independently control two motors of up to 2A each in both directions. It is ideal for robotic applications and well suited for connection to a microcontroller requiring just a couple of control lines per motor.

 

L298 Motor Driver Module

Drive a 2-phase bipolar stepper motor or two DC motors with the L298 dual H-Bridge chip, mounted on this handy breakout board along with all necessary peripherals!

Logic voltage 5V
Drive voltage 5V-35V
Logic Current 0mA-36mA
Drive current 2A (MAX each bridge)
Maximum Power 25W
Dimensions 43 * 43 * 27 mm


The L298 motor driver module features:

  • Finned Aluminum Heatsink for the L298 IC
  • Clamping Rectifiers
  • Filter Capacitors for logic-power and moto-power busses
  • Onboard 5-Volt DC Regulator (A jumper selects between external 5-Volt power or the onboard 5-volt regulator.)
  • Screw Terminal connections for ground, motor power, 5-volt power, and motor outputs
  • 0.1 inch-pitch header pins for logic inputs
  • Jumpers to tie the enable inputs to ground (if desired)
  • Switches up to 2 amps per channel

The overall PC Board dimensions are 1.70" Square x 1.16" Tall. Mounting holes in each corner accept 1/8" screws or standoffs. This module is easy to get running, with only 4 logic pins required. 
L298 Motor Driver Module L298 Motor Driver Module L298 Motor Driver Module

L9110 Dual Channel DC Motor Driver H bridge Controller Board
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Description:
The L9110S 2-Channel motor driver module is a compact board that can be used to drive small robots. This module has two independent motor driver chips which can each drive up 800mA of continuous current. The boards can be operated from 2.5V to
12V enabling this module to be used with both 3.3V and 5V microcontrollers.
A set of female header pins is used to connect this module to a microcontroller.
The motors are attached via two sets of screw terminals.
A PWM Pulse Width Modulation signal is used to control the speed of a motor and a digital output is used to change its direction. This module can also be used to 
drive a single four line two phase stepper motor. Four holes make this board easy to
mount onto your robot or other project.

On-board 2 L9110 motor control chip
Module can be driven by two dc motors at the same time or one phase 4 line 2type stepping motor
Input voltage: 2.5-12V DC
Each channel has a continuous output current 800 ma
PCB Size: 29.2mm x 23mm

Package Included:
1 X L9110 L9110S 2 Channel Motor Driver

50A Dual Channel Motor Drive Module
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Description :

This motor driver works with single channel max 50A load capacity. This module performs far better than MC33886 or L298 motor driver, especially in terms of motor speed control and power efficiency.

This drive has a brake function, which can quickly stop the motor. And the operation is very easy.The drive module contains a full-bridge driver chip and MOSFET with low internal resistance. The full-bridge driver IC minimizes the switching loss of MOSFET and improves power efficiency.

MOSFET is current impact-resistant type, with internal resistance of 0.003 Ohm. MOSFET channel can be opened quickly to improve the motor's speed curvature, and also brake the motor quickly. This function can make the car start or stop quickly.

This driver module  can work under the PWM duty cycle of 0% -98%.

Electronic Parameter :

1、Peak current (Load): 50A

2、Recommend max working current(Load): 20A

3、Power VCC (Load): 0V~30V

4、Recommend power vcc(load) : 12V ~ 26V

5、Control VCC: 4V~12V

6、Control TTL Voltage; 2.5V ~ 12V

Notice : 

1) : Control TTL voltage means the High voltage of the control pins (EN, LPWM, RPWM, DIS).

2) : The stable max working current is 20A while load vcc is between 12V~30V. The current is restricted by heat dissipation. Current, we don't add any heat radiator on the board.So if the current is over 20A, the heat may melt the sldering tin and cause problems. If you want it working stable at higher current, you should add radiator.

3) : Power VCC is recommended to be higher than 12V if your load is large-current devices. While over 12V, the MOSFET is working fully and its power consumption is small. So the heat will be less. If your load current is not large and just several  Amperes, the power VCC can be as low as 3V.

Interface :

We are trying to let this driver be compatible with Arduino and non-Arduino users. We leave holes on the PCB and so mount long-pin felmale hearders to plug in Arduino. If you are non-Arduino user, leave the holes alone. 
 


Above in the red box are for Arduino. We will ship the long-pin female headers with this module. 

 

 



 


 

 
To improve performance while with large current load. you could add soldering tin on the routs shown below. 

 

 


Dimension :

PCB Size: 52.3mm x 63.9mm

Mount Hole: 44.4mm x 57.0mm, 3mm Diameter

High: 12.4mm(without long-pin headers) or 26.4mm (with long-pin headers)

Control :


Basically the control is very easy.

* Rotate forward: EN = HIGH, RPWM = PWM, LPWM = HIGH, DIS = vacant

* Rotate reverse: EN = HIGH, RPWM = HIGH, LPWM = PWM, DIS = vacant

* Stop and brake: EN = HIGH, RPWM = HIGH, LPWM = HIGH, DIS = vacant

* Stop but not brake: EN = 0, RPWM = HIGH, LPWM = HIGH, DIS = vacant

* Prohibit : EN = X, RPWM = X, LPWM = X, DIS = HIGH

For Arduin users : 
 
 
                  Correction in below image Channel A.....LPWM.......arduino pn 11 NOT 5. 
 

   


Please Note :


1、Smaller PWM duty will get higher speed.

2、 PWM frequency should be 1Khz ~ 60Khz. Smaller frequency could get it work but not in perfect performace.It may increase the module's resonse time, but very slight in nanosecond level.We can't sense it. Default frequency of Arduino PWM is 0.5Khz. In our test, the default frequency could get it work very well. But remember, for better performance, the recommended frequency is 1Khz ~ 60Khz. In our library, we set the pwm frequency over 1Khz.

Document Download :


Library for Arduino


Product list :

1、50A Dual-Channel Motor Drive Module x 1

2、6 Pin Female pins for Arduino x 2

3、8 Pin Female pins for Arduino x 2

Note: by default, the female pins are not soldered on the module.   

5A Integrated 3 Axis CNC TB6600 +Intelligent Handle Keyboard+ LCD Digital Display with controller
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Features: Features

 

 

1: Integrated high-speed microcomputer intelligent control chip, within the Ministry of digital pulse handle and can automatically switch the computer and handle control, mutual non-interference, and automatic detection function automatically shielded handle computer-controlled motion control, digital display can simultaneously track record computer data and handle control of mobile data

 Two: Computer path track record in computer processing time can run offline record keeping and processing data processing automatic repeat run

Three: Manually move the processing of record-keeping, traceability records manually move the machine data and automatically repeat the processing run manually move the path

Four: manual data entry and processing path, and automatically run the input path

2: The axis of the knife can be done automatically, eliminating the need computer software operation

3:Maximum 5 A stepper motor drive current , eight -speed adjustable .

4: maximum 16 segments, higher accuracy, run more smoothly.

5 : Overload temperature automatic overcurrent protection, full protection of your computer and peripheral equipment 
6: Bipolar constant current chopper drive , low speed without creeping phenomenon, noise, non-resonant region.

7: Closed optical isolation, two-stage signal processing, to fully protect your computer and equipment.

8 : 1 -way 0-10V / PWM speed control signal output 
9: Rd input control, you can set limit, emergency stop, which is divided into pairs of knives.

10: aluminum capacitors using 470U and 3300U / 50V, large capacitance

Electrical properties (ambient temperature Tj = 25 ° C when):

Input Power

12 - 48V DC power supply, a set of power supply.

Output Current

4.5A ( peak 5A)

Drive mode

Bipolar constant current PWM drive output.

Drive motor

42,57,86 stepper motors , two -phase -4 phase (4 -line 6 -line 8 -wire stepper motor )

Weight

Approximately 400 grams.

Environmental Requirements

Cooling

Natural cooling.

Using the occasion

Avoid dust, oil mist and corrosive gases.

Temperature

0 ° C ~ + 50 ° C

Shock

Maximum of 5.7m / S2 .

Save

-20 ° C ~ + 125 ° C , to avoid dust, it is best to use the original packaging.

Subdivision setting table:

Arduino Stepper Motor/Servo/DC Motor Shield
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Arduino is a great starting point for electronics, and with a motor shield it can also be a nice tidy platform for robotics and mechatronics. Here is a design for a full-featured motor shield that will be able to power many simple to medium-complexity projects.

  • 2 connections for 5V 'hobby' servos connected to the Arduino's high-resolution dedicated timer - no jitter!
  • Up to 4 bi-directional DC motors with individual 8-bit speed selection (so, about 0.5% resolution)
  • Up to 2 stepper motors (unipolar or bipolar) with single coil, double coil, interleaved or micro-stepping.
  • 4 H-Bridges: L293D chipset provides 0.6A per bridge (1.2A peak) with thermal shutdown protection, 4.5V to 25V
  • Pull down resistors keep motors disabled during power-up
  • Big terminal block connectors to easily hook up wires (10-22AWG) and power
  • Arduino reset button brought up top
  • 2-pin terminal block to connect external power, for seperate logic/motor supplies
  • Tested compatible with UNO, Mega, Diecimila, & Duemilanove
    2237992158_d1be17779d_b.jpg

Schematics & Layout

You can grab the latest Schematic, Layout files (EagleCAD format from github. Click the ZIP download button at top middle to download the entire zip.

Firmware

  • Arduino Stepper/Servo software library with microstepping support.
    To install, click on Downloads in the middle of the page, select Download as zip and uncompress the folder. 
     
    Rename the folder to AFmotor (check that the renamed folder contains the .cpp and .h files) and install into the Arduinosketches/libraries folder. For information how to use and install libraries, see our tutorial! This version now works with with the Mega. Public domain!
  • AccelStepper library with AFMotor support. This library allows for advanced stepper control including accelleration and decelleration, and concurrent stepper control! You still need AFmotor above!
    To install, click on Download in the middle of the page, select Download as zip and uncompress the folder. 
    Rename the folder to AccelStepper (check that the renamed folder contains the .cpp and .h files) and install into the Arduinosketches/libraries folder. For information how to use and install libraries, see our tutorial!

4 Axis CNC Controller TA8435H Stepper Motor Driver Board Mach 2 3 For CNC Machine
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  • Toshiba TA8435H chip - maximum 2.5A drive current !
  • 1 - 1/8 microstep setting
  • Chip 555 adapts the SOP( SURFACE MOUNT)
  • In application of the SMT solder-reflow technic.
  • Add the 24V and 5V indication LED light
  • Use the DCDC as the isolation of the front and the en

Document Download: https://drive.google.com/drive/folders/0B4FTB8_CQRXMaDQtTXItdE9MdVk?usp=sharing

 

The new design for the T8435: the 4 axis T8435 stepper motor driver . In adaption of the prono position 8435 chip , we install the larger thermal sink in the bottom, and adapt the FR307 heavy current diode. The new design of the wire-connection and the pin-insert, this two-way input design makes the connection more convenient.The semi-flow uses the 555 chip.

Features:

  • Toshiba TA8435H chip - maximum 2.5A drive current !
  • 1 - 1/8 microstep setting
  • Chip 555 adapts the SOP( SURFACE MOUNT)
  • In application of the SMT solder-reflow technic.
  • Add the 24V and 5V indication LED light
  • Use the DCDC as the isolation of the front and the end power supplys, in order to protect the parallel ports
  • The manual control connector and the limit connector use the DB15 and DB9 connection port support the relay extension
  • Can extend the 5th axis

Toturials : http://reprap.org/wiki/4_Axis_TB6560_CNC_Stepper_Motor_Driver_Board_Controller

CNC Router Single 1 Axis Controller Stepper Motor Driver TB6560 3A Driver Board
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Description:
Size:75*50*35(mm)(LxWxH) / 2.95''x1.96''x1.37'' (approx)
Rated maximum output: ± 3A, peak 3.5A.
Working voltage DC 10V-35V. Recommended to use a switching power supply DC24V power supply.
Using the Toshiba TB6560AHQ new original chip with low voltage shutdown, overheating stop and over current protection circuit to ensure optimal performance.

Description:
Size:75*50*35(mm)(LxWxH) / 2.95''x1.96''x1.37'' (approx)
Rated maximum output: ± 3A, peak 3.5A.
Working voltage DC 10V-35V. Recommended to use a switching power supply DC24V power supply.
Using the Toshiba TB6560AHQ new original chip with low voltage shutdown, overheating stop and over current protection circuit to ensure optimal performance.
For two-phase within 42,57 stepping 3A / four-phase / of line four / six-wire stepper motor, and is not suitable for more than 3A stepper motor. Automatic half current function.
6N137 high-speed optical coupling, guarantee high speed without losing step.
Subdivision: whole step, half-step, step 1/8, 1/16 step, a maximum of 16 Subdivisions.
With good heat sink


Package Included:
1 X Stepper Motor Driver TB6560