HG7881 H-Bridge 4CH DC - 2CH Stepper Motor Driver Board This is the HG7881 H-Bridge Stepper Motor Driver Board, which can drive 4 dc motors, or two 4-wire 2-phase stepper motors. This motor drive module comes with its own four hg7881 chips. The module is appropriate for controlling small robots. It has a convenient set of header pins for connecting with a microcontroller and a set of screw terminals for connecting with motors. The motor's speed can be easily controlled using a PWM (pulse width modulation) signal and digital output. If you want to control the stepper motor with Stepper Motor Driver Board, for that you will need a few essential components like Arduino, jumper wires, batteries or power supply.

YS-DIV268N-5A Hybrid Stepper Motor Driver 5A | Single Axis TB6600 0.2-5A Two Phase Hybrid Stepper Motor Driver Controller TB6600 Stepper Motor Driver is an easy-to-use professional stepper motor driver, which can control a two-phase hybrid stepper motor. It is compatible with Arduino and other microcontrollers that can output a 5V digital pulse signal. YS-DIV268N-5A subdivision-type two-phase hybrid stepping motor drive using DC 12 ~ 48V power supply, suitable for drive Two-phase hybrid stepping motor dynamic voltage 12 to 48V, the current is less than 5A outer diameter of 35 to 86 mm. This drive using the drive's current loop subdivision control, the motor torque ripple is very small, low-speed running is very smooth, almost no vibration and noise. High-speed torque is much higher than other two-phase drive, high positioning accuracy. Widely used in the engraving machine, CNC machine tools, packaging machinery, and other high-resolution requirements on the device You can set its output current with a 6 DIP switch. There are 8 kinds of current control (0.2A, 0.6A, 1.2A, 1.8A, 2.5A, 3.3A, 4.2A, 5A) in all. And all signal terminals adopt high-speed optocoupler isolation, enhancing it's anti-high-frequency interference ability. As a professional device, it is able to drive 57, 42-type two-phase,  hybrid stepper motor. Control signal interface: PUL +: step pulse signal is input side or the positive pulse signal input positive terminal PUL-: the negative input of the negative input pulse signal or a positive pulse signal DIR +: stepping direction signal input to the positive terminal or negative pulse signal input to the positive terminal DIR -: stepping direction signal input of the negative side or reverse step pulse signal input negative terminal EN +: offline can reset signal input EN-: offline can reset signal input negative terminal  Note:  VCC is 5V, R short VCC value of 12V, R 1K, more than 1 / 8W resistor VCC value of 24V, R 2K, more than 1 / 8W resistor

28BYJ-48 5V DC Stepper Motor This 5V DC 28BYJ-48 Stepper Motor is small, inexpensive and high-quality geared step motor. The 28BYJ-48 Stepper Motor and ULN2003 Stepper Motor Driver is a widely popular combination of the stepper motor and stepper driver, because of the stability and reliability of the system. The motor has a reduction ratio of 64:1, so it offers a decent torque for its size at speeds of about 15 RPM. It is a unipolar stepper motor which has 5-wires. As stated before the pack contains ULN2003 Stepper motor driver which is a Mini Stepper Motor Driver.The main purpose of ULN2003 is to amplify the control signals from the Arduino, so as to drive the 28BYJ-48 Stepper Motor. If you will give the ULN2003 Stepper motor driver a certain pulse signal, it will drive step motor to a certain angle.The control of Stepper motor movement angle is done by controlling the number of stepper motor driver pulses. The speed of the stepper motor rotation is also controllable by controlling the frequency of the pulses. Connect the 28BYJ-48 motor with the ULN2003 motor driver then interface this combination of motor and driver with Arduino, do some coding and your 28BYJ-48 Stepper Motor is ready to listen to your commands

MKS OSC V1.0 Stepper Motor Drive Simple Controller Pulse PWM Signal Generator Module Speed Control 8-24V This MKS OSC Stepper Motor Controller Pulse PWM Speed Reversing Module generates pulses that are used as a signal for stepper drivers. The stepper motor must be equipped with a driver in order to be controlled. The module can be used to create a simple control platform by combining an Easy controller, stepper driver ,stepper motor and DC power. This controller has three frequency modes; High mode goes from 5.4KHz to 160KHz, Medium mode goes from 540Hz to 16.6KHz and Low mode goes from 80Hz to 2.4KHz. It also has three PWM modes; High mode goes from 7.4 KHz to 11KHz, Medium mode goes from 780Hz to 1.2KHz and Low mode goes from 100Hz to 160KHz. Different stepping motor driver different port sign, but same function EN=ENA=FREE   Enable PUL=PULS=CLK  Pulse DIR=CW=CWW    Direction Common anode connection (connect with B) EN+  PUL+   DIR+  all link together  to common  anode port EN- connect to    EN PUL- connect to  CLK DIR- connect to   DIR Common cathode connection (connect with B) EN-  PUL-   DIR- all link together  to  common cathode port EN+  connect to    EN PUL+ connect to  CLK DIR+ connect to   DIR  Package Includes: 1 x MKS OSC V1.0 Stepper Motor Drive Simple Controller Pulse PWM Signal Generator Module Speed Control 8-24V Specifications: Power Input 8-24V Frequency Signals 5.4k-160khz,540-16.6khz,80-2.4khz Package Weight 15g  Dimensions 5.8cm x 3.86cm/2.28" x 1.52" (Approx.)

MACH3 Interface Board CNC 5 Axis with Optocoupler for Stepper Motor Driver with male to male USB Cable MACH3 Interface Board CNC 5 Axis with Optocoupler latest upgrade 5 axis breakout board is specially designed for the CNC single-axis 2-phase stepper driver controller, such as TB6560, M542, M542H, MA860H, 2M542, 2M982, DM542(A), DM860(A), etc. single-axis stepper driver controller series. With this 5-axis breakout board, any 1-5 single-axis stepper driver controllers can be directly controlled by the PC via the MACH3, EMC2, KCAM4, etc. All the way to the relay output port, control spindle switch. Output port P17 mouth. All the way through the optocoupler isolated 0-10V analog voltage output can be controlled with the corresponding analog interface converter to control the spindle speed. Output port P1 port Open all 17 ports, which can be accessed with the optocoupler drive, 5-axis stepper motor can be controlled. P1 as PWM outputs can be controlled with an optocoupler input spindle governor. This can access by a common cathode or common anode input level to a 5V drive. Key

17HS3401S NEMA17 Stepper Motor The 17HS3401S NEMA17 Stepper Motor is known for its high precision and outstanding performance. It is perfect for a wide range of applications due to its 1.8-degree step angle and 18 mN.m detent torque. It's a great option for building CNC machines or 3D printers because of its precision and dependability. This solid build of this motor is meant to withstand the demands of long-term use. Its sophisticated bearing mechanism ensures smooth operation while reducing the danger of failure. Also, the motor's effective heat dissipation mechanism helps to extend its operating life. This NEMA17 Stepper Motor is a versatile motor that can be used in a wide range of applications. It is compatible with a variety of control systems and can be easily adapted to fit your specific needs. Whether you are building a robotics project or a custom automation system, this motor is a perfect choice. With its compact size and powerful performance.   Read more : NEMA 17 - The High Torque Stepper Motor Working Principle

1200W PWM Motor Speed Controller with Potentiometer This is a simple and easy-to-use DC motor speed controller of small size, elegant appearance, and stable performance. It is made with a high-quality circuit board which ensures a longer service life. The DC Motor Speed Controller allows controlling the direction of a DC motor using a Pulse-Width-Modulated (PWM) DC voltage with a Duty Cycle fully adjustable from 10%-100%. The motor speed controller can provide a continuous current of 8A to your DC motor or other DC load. Speed Regulator is an important electronic DIY equipment. Do not touch the heat sink with the wiring. If it touches, it may burn the circuit board. Note that this is not a power module. It must be connected to the motor to speed it up. There is no change in the output of the multimeter without the motor.

TL-Smoother module For 3D printer motor drivers V2.0   A smoother module for stepper driver motor is an add-on module for stepper motors of 3D Printers. It is useful for a softer movement in Delta Style 3D Printer as when using DVR8825 or step and drives and A4988/2 driver unit.  TL smoothers are popular little printed circuit boards (PCBs) that are often used in FDM 3D printers to not surprisingly, smooth out the look of prints. In other words, they reduce surface artifacts caused by irregular stepper motor motion, often dubbed “zebra stripes,” “salmon skin,” etc. These smoothers are often sold as 4- and 8-diode variants, with the 8-diode ones (pictured above) offering a stronger smoothing effect. They plug into any 3D printer between the stepper drivers and the stepper motors, working their electrical “magic” without any other setup needed. Their low cost, plug-and-play functionality, and seemingly magical effect have made them quite beloved, albeit slightly controversial. The board provides flyback diodes (freewheeling diodes) for the motor outputs so that they are also protected against induction voltages in the unpowered state of the driver. You will get smoother movement.

DRV8825 Stepper Motor Driver Module The DRV 8825 stepper motor driver carrier is a breakout board for ti’s DRV 8825 micro-stepping bipolar stepper motor driver. The DRV 8825 features adjustable current limiting, overcurrent and over-temperature protection and six micro-step resolutions (down to 1 or 32step). It operates from 8.2 45 V and can deliver up to approximately 1.5 A per phase without a heat sink or forced air flow (rated for up to 2.2 A per coil with sufficient additional cooling). This product is a carrier board or breakout board for ti’s DRV 8825 stepper motor driver; we, therefore, recommend careful reading of the DRV 8825 datasheet before using this product. This stepper motor driver lets you control one bipolar stepper motor at up to 2.2 A output current per coil (see the power dissipation considerations section below for more information). Here are some of the driver’s key features: simple step and direction control interface six different step resolutions: full-step, half step, 1 or 4step, 1 or 8step, 1 or 16step and 1 or 32step adjustable current control lets you set the maximum current output with a potentiometer, which lets you use voltages above your stepper motor’s rated voltage to achieve higher step rates Intelligent chopping control that automatically selects the correct current decay mode (fast decay or slow decay) 45 v maximum supply voltage built-in regulator (no external logic voltage supply needed) can interface directly with 3.3 V and 5 v systems over-temperature thermal shutdown, overcurrent shutdown and under-voltage lockout short to ground and shorted load protection 4layer, 2 oz. If you want to control the stepper motor with this motor driver, for that you will need a few essential components like Arduino, breadboard, jumper wires, batteries or power supply. Use Aluminum Heatsink for DRV8825 Stepper Motor Driver for better performance and heat dissipation.

TB6612FNG Dual DC Motor Driver The Motor Driver TB6612FNG Module can control up to two DC motors at 1.2A constant current (3.2A peak). The motor can be controlled by two input signals (IN1 and IN2) in one of four function modes: CW, CCW, short-brake, and stop. The two motor outputs (A and B) can be controlled independently, and the speed of each motor is controlled by a PWM input signal with a frequency range of up to 100kHz. To remove the motor from standby mode, pull the STBY pin high. The logic supply voltage (VCC) can range from 2.7 to 5.5VDC, while the motor supply (VM) has a maximum voltage of 15VDC. The maximum output current per channel is 1.2A. (or up to 3.2A for a short, single pulse). All components are installed on the board as shown. On both supply lines, decoupling capacitors are installed. The TB6612FNG has all of its pins broken out to two 0.1′′ pitch headers, with input pins on one side and output pins on the other.

A4988 Stepper Motor Driver Module with Heat Sink For 3D Printer (Red) A4988 Stepper Motor Driver is a complete micro-stepping motor driver with a 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 micros tep. 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. The 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, under-voltage lockout (UVLO) and crossover current protection. Special power-Sort. If you want to control the stepper motor with this motor driver, you will need a few essential components like Arduino, breadboard, jumper wires, batteries, and power supply.

NEMA 23 Stepper Motor Mount Bracket This Mounting Bracket for NEMA23 Stepper Motor is designed to mount it firmly and securely on the application. The NEMA 23 Stepper Motor Bracket is made of high-quality Hardened Mild Steel. The use of MS in this bracket provides them with good strength and durability. As a result, this bracket is ready to hold and support your Stepper Motor. The Bracket for NEMA 23 Stepper Motor is securely and precisely fitted to the NEMA23 Stepper Motor. The bracket has several other holes to allow the motor to be positioned as desired by the user. As a result, using this bracket will provide you with design flexibility and modularity.

A4988 Stepper Motor Driver Module with Heat Sink For 3D Printer (Green) The A4988 driver Stepper Motor Driver is a complete micro-stepping motor driver with a built-in converter, easy to operate. It operates from 8 V to 35 V and can deliver up to approximately 1 A per phase without a heat sink or forced air flow (it is rated for 2 A per coil with sufficient additional cooling). A4988 driver Stepper Motor Driver includes a fixed off-time current regulator, the regulator can be in slow or mixed decay mode. The converter is the key to the easy implementation of the A4988. There are no phase sequence tables, high-frequency control interface programming, etc. The application of the A4988 interface is very suitable for a complex microprocessor is not available or overloaded. In the stepping operation, the chopping control in the A4988 automatically selects the current decay mode (slow or mixed). The mix decay current control scheme can reduce the audible motor noise, increase step accuracy, and reduce power consumption. Provide internal synchronous rectification control circuitry, in order to improve the pulse width modulation (PWM) power consumption during operation. Internal circuit protection includes thermal shutdown with hysteresis, under-voltage lockout (UVLO), and crossover current protection. Don’t need special power-up sequencing. A4988 uses a surface mount QFN package (ES), the size is 5 mm × 5 mm, nominal overall package height is 0.90 mm, with an exposed thermal pad to enhance the heat dissipation function. If you want to control the stepper motor with the stepper motor driver, for that you will need a few essential components like Arduino Breadboard jumper wires batteries or power supply

28BYJ-48 12V Valve DC Gear Stepper Motor This 12V DC 28BYJ-48 Stepper Motor is a small, inexpensive, and high-quality geared stepper motor. This is a widely popular combination of the stepper motors, that provided the stability and reliability of the system.  The control of the Stepper Motor movement angle is done by controlling the number of stepper motor driver pulses. The speed of the stepper motor rotation is also controllable by controlling the frequency of the pulses. If you want to use this stepper motor in your projects, for that you will need a few essential components like Arduino Motor driver jumper wires batteries or power supply

TB6560 Stepper Motor Driver The TB6560 Stepper Motor driver board is for axis control with Input signal high-speed optocoupler isolation, and a large heat sink to ensure good heat dissipation. The Stepper motor driver is Semi-flow mode adjustable, and semi-flow current adjustable, with a variety of semi-flow model and semi-flow current setting functions. It is very easy to use and requires no special instructions. The module features Semi-flow mode adjustable, and semi-flow current adjustable, not the general design on the market, with a variety of semi-flow models and semi-flow current setting functions. This stepper motor driver is featuring a TB6560AHQ new original chip. The TB6560AHQ has a low voltage shutdown, overheating stop, and overcurrent protection circuit to ensure optimal performance. The TB6560 stepper motor control circuit is the most commonly used current circuit, which can control a 2-phase motor (10 35VDC) with a maximum output of 3A. The TB6560 stepper motor control circuit is used for stepper motor control, CNC machine applications, or precision mechanical systems. If you want to use this TB6560 Stepper Motor Driver in your project, for that you will need Arduino, jumper wires, and batteries or a power supply.