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Category: MOTOR DRIVERS

MOTOR DRIVERS

Showing 1–16 of 17 results

  • Sale!

    This is an Arduino compatible break out board for the A4988 microstepping stepper motor driver. It can drive a bipolar stepper motor with an output current of up to up to 2 A per coil. It works with a wide range of power supply voltages, from 8V to 35V.

    This is a break out board for the A4988 microstepping bipolar stepper motor driver. It can drive a bipolar stepper motor with an output current of up to 2 A per coil. It is suitable for driving a stepper motor from 8 V to 35 V which makes it ideal for 3D printers.

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  • Sale!

    The A3967 is a complete microstepping motor driver with a built-in translator. It is a simple to use and controllable stepper motor driver. This version is more flexible than the older versions. They also have a current regulator that has the ability to operate in slow, fast, or mixed current-decay modes, which helps in increasing accuracy and reduced power dissipation.

    It is compatible with 4, 6, and 8 wire stepper motors of any voltage and  Can be used with most microcontrollers that can output a digital 0 to 5V pulse.
    The microstep select (MS1 and MS2) pins of the A3967 are broken out allowing adjustments to the microstepping resolution.
    Easy to interface with Arduino, Male header pins are supplied to use with a breadboard, Male header pins are supplied to use with breadboard There are no phase-sequence tables, high-frequency control lines, or complex interfaces to program. The A3967 interface is an ideal fit for complex applications.

    Note: Do not join or detach the motor when the driver is energized. This will cause harm to the IC.

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  • Sale!

    It is a 2 channel PWM/Pulse generator with variable Frequency: 1hz to 150Khz and Duty cycle 1% to 100% alterations. The frequency and duty cycle can be controlled using switches provided on board. It can also be controlled using serial communication protocol. This module provides an easy solution for driving stepper motors using variable frequency pulse input and DC motor with variable PWM duty cycle.

    It is compatible with RMCS-1110, RMCS-1101, RMCS-1102, RMCS-1106 and RMCS-2301 motor drivers requiring pulse input. Also compatible with RMCS-2302, RKI-1341, RKI-1340 and all the motor drivers requiring PWM input with variable duty cycle for speed control.

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    Pulse Width Modulation (PWM) is a commonly used technique for generally controlling DC power to an electrical device, made practical by modern electronic power switches. However it also finds its place in AC choppers. The average value of current supplied to the load is controlled by the switch position and duration of its state. If the On period of the switch is longer compared to its off period, the load receives comparatively higher power. Thus the PWM switching frequency has to be faster.

    This DC Motor Speed Controller allows controlling the speed of a DC motor using Pulse Width Modulated (PWM) DC voltage with a Duty Cycle that can be adjusted from 0-100%. The module is capable of providing a continuous current of 3 A to your DC motor or similar loads.

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  • Sale!

    The DRV8825 stepper motor driver carrier is a breakout board for TI’s DRV8825 microstepping bipolar stepper motor driver. The module has a pinout and interface that are nearly identical to those of the A4988 stepper  motor driver carriers, so it can be used as a higher-performance drop-in replacement for those boards in many applications. The DRV8825 features adjustable current limiting, overcurrent and overtemperature protection, and six microstep resolutions (down to 1/32-step). 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.

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  • Sale!
    Ideally suited for interfacing between low-level logic circuitry and multiple peripheral power loads, the Series ULN20xxA/L high-voltage, high-current Darlington arrays feature continuous load current ratings to 500 mA for each of the seven drivers.  At an appropriate duty cycle depending on ambient temperature and number of drivers turned ON simultaneously, typical power loads totaling over 230 W (350 mA x 7, 95 V) can be controlled.  Typical loads include relays, solenoids, stepping motors, magnetic print hammers, multiplexed LED and incandescent displays, and heaters.  All devices feature open-collector outputs with integral clamp diodes.
    The ULN2003A/L and ULN2023A/L have series input resistors selected for operation directly with 5 V TTL or CMOS.  These devices will handle numerous interface needs — particularly those beyond the capabilities of standard logic buffers.
    The  ULN2003A/L is the standard Darlington arrays.  The outputs are capable of sinking 500 mA and will withstand at least 50 V in the OFF state.  Outputs may be paralleled for higher load current capability.  The ULN2023A/L will withstand 95 V in the OFF state.
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  • Sale!

    This little module (HCMODU0083) is a breakout board for the IFR520 MOSFET transistor. The module is designed to switch heavy DC loads from a single digital pin of your microcontroller. Its main purpose is to provide a low cost way to drive a DC motor for robotics applications, but the module can be used to control most high current DC loads. Screw terminals are provided to interface to your load and external power source. An LED indicator provides a visual indication of when your load is being switched.

    IRF520 MOSFET Driver Module is a little module (HCMODU0083) is a breakout board for the IFR520 MOSFET transistor. The module is designed to switch heavy DC loads from a single digital pin of your microcontroller. Its main purpose is to provide a low-cost way to drive a DC motor for robotics applications, but the module can be used to control most high current DC loads. Screw terminals are provided to interface with your load an external power source. An LED indicator provides a visual indication of when your load is being switched.

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  • Sale!

    Designed with the most popular L293 motor driver IC, module is the most suited for robotics and mechatronic applications like driving a motor using an Arduino, Raspberry Pi, switches or relays. The module can be used to control both DC and Stepper motors and is commonly used in DIY kits like Line Followers, Micro mouse, robotic arms etc. It can be used to drive motors up to 36 V with a continuous DC current up to 600mA. Two modules can be paralleled to double the maximum current or connected in series to increase the maximum input voltage.

    This motor driver uses screw terminals for easy connections, mounting holes for easy mounting, back EMF protection circuit, you may use our Jumper Wires to make the connections.The project designed around L293D IC. The L293D device is quadruple high-current half-H driver. The 293D is designed to provide bidirectional drive current up to 600mA a voltage from 5V to 36V. L293D Adapter Board can be used as dual DC motor driver or bipolar stepper motor driver.  Useful in robotics application, bidirectional DC motor controller and stepper motor driver.  Separate logic supply to reduce dissipation.  L293D includes the output clamping diodes for protections.

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  • Sale!

    L298 Motor driver based module. Small module which can be used with any circuit very easily. Controls 2 DC motors/ 1 Stepper motor in both direction. PWM/NON PWM control using jumpers. Diodes provided for back EMF protection .

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  • Sale!
    • Operating Voltage :5V to 12V.
    • Motor controller: L293D, Drives 2 DC motors or 1 stepper motor.
    • Max current: 600mA per channel.
    • Peak Output Current :1.2 Amp

    APPLICATIONS

    • It is used by arduino users.
    • Multiple DIY Projects.
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  • Sale!

    This Monster Motor Shield has the 2 nos VNH3SP30 chip which enables it to drive two DC motors or a single bipolar stepper motor. It has an extremely high current capacity of 14A per channel (peak of 30A for few seconds). The thermal heating is minimal uptill 4 to 5 amps. However it would need thermal dissipation device like heat sink or cooling fan for higher currents.

    Also the difference in the standard Arduino Motor shield and Monster Motor shield is the change in the driving IC. In the standard Arduino Motor shield the IC used is L298 H bridge IC which has a current capacity of 1 A which is replaced by the VNH3DP30 chip with a 14A conitnuous current capacity with heat dissipation devices installed. This motor driver also has a thermal shutdown function possible as the thermal output is provided on the analog pin of arduino.

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  • Sale!

    BTS7960 High Power driver module provides 5V power indicator on board. BTS7960 High Power driver module comes with output Voltage indication of motor driver output end with heat sink solder. Output current is infinitely adjustable to meet various applications. BTS7960 Power driver large current (43 A) H bridge driver and 5V isolate with MCU, and effectively protect MCU.

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  • Sale!

    Servo Motor Tester ESC Consistency CCPM Controller can be used as a signal generator for electric speed controller (ESC), then you can test your motor system without using a transmitter and receiver. There are 3 modes to check servos or ESC: —Manual mode: turn the knob with different speed, check the reaction time. —Neutral mode: make the servo go back to the neutral point. —Automatic / window wiper/ mode: make the servo swing like a window wipers in the biggest angle. 

    It can connect 1-3 servos simultaneously and test such as 1-3 servos consistency and so on.You can also connect 1-3 ESC to test and compare their reaction time respectively. It can connect 3 servos of the CCPM helicopters and select servos. It can also connect the servo of airplanes install the steering-box and adjust planes by using such as the neutral mode and so on.

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  • Sale!
    Input Supply Voltage (VDC) 9 ~ 42
    Supply Current (A) 0 to 5
    Max. Output Current (Amp) 3.3 to 24
    Control Signal 3.3 to 24
    Max Power Output (W) 160
    Micro Step 1, 2A, 2B, 8, 16, 32
    Operating Temperature (°C) -10 to 50
    Length (mm) 100
    Width (mm) 70
    Height (mm) 40
    Weight (gm) 150
    Shipment Weight 0.275 kg
    Shipment Dimensions 13 × 8 × 5 cm
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