I am text block. Click edit button to change this text. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elit tellus, luctus nec ullamcorper mattis, pulvinar dapibus leo.
L9110 DC Stepper Motor Driver Board H-Bridge
₹350.00 Original price was: ₹350.00.₹300.00Current price is: ₹300.00. inc. GST
- Low static work current
- Power supply voltage: DC2.5-12V
- Each channel has 800mA continuous current output
- Low saturation pressure drop
- TTL/CMOS output level compatible can be connected directly to the CPU
- Output built-in clamping diode, apply to the perceptual load
- Control and drive integrated into IC
- Have pin high-pressure protection function
- Working temperature: 0-80 °C
The L9110S dual-channel h-bridge motor driver module designed as a compact board used to drive small robots. This module based on the L9110 Motor Driver IC. This L9110S dual-channel H-bridge motor driver consists of two independent motor driver chips in which each capable of driving a continuous current up to 800mA. The boards operate at a voltage range from 2.5 V to 12 V enabling this module to used with both 3.3 Volts and 5 Volts microcontrollers. A set of female header pins provided to connect this module to a microcontroller. The motors easily attached via two sets of screw terminals.
The speed of the motor is controlled by a PWM Pulse Width Modulation signal and a digital output is used to change its direction. This module also used to drive a single four-line two-phase stepper motor. This module can be easily mounted onto your robot or other projects via four holes provided on the board.
Instructions:
- VCC external 2. 5V-12V voltage, GND external GND
- IA1 external MCU 10 port
- IB1 external MCU 10 port
- IA2 external MCU 10 port
- IB2 external MCU 10 port
- 0A1, 0B1Â connected to 2 pins of DC motor, no direction
- 0A2, 0B2 connected to 2 pins of DC motor, no direction
- Turn on VCC, the GND module power indicator is on.
- IA1 input high level, IB1 input low level, [0A1 0B1] motor forward
- IA1 input low level, IB1 input high level, [0A1 0B1] motor reverse
- IA2 input high level, IB2 input low level, [0A2 0B2] motor forward
- IA2 input low level, IB2 input high level, [0A2 0B2] motor reverse

Related products
A3967 STEPPER MOTOR DRIVER
- A3967 precision micro-stepping driver
- Power supply: 7v to 30v
- Logic voltage: 5v to 3.3v
- Higher the voltage higher the torque at high speed
- Adjustable current control from 150Ma/ phase to 750ma phase
- Automatic current decay mode detection/selection
- Fast, slow, and mixed current decay modes
- Internal UVLO and thermal shutdown circuitry
- Crossover current protection
- Micro stepping resolution to full, half, quarter, and eighth steps by broken out MS1 and MS2 pins.
- Compatible with Arduino, GRBL G-Code interpreter for driving3-axis CNC machines
- Salington sink drivers used
- Compactible with 4, 6,8 wire stepper motor of any voltage
A4988 STEPPER MOTOR DRIVE CONTROLLER BOARD
- Operating voltage supply: 8 V to 35 V
- Continuous current per phase: 1 Amp
- Maximum current per phase: 2 Amp
- Minimum logic voltage: 3V
- Maximum logic voltage: 5.5V
- Microstep resolutions: Full, 1/2, 1/4, 1/8, and 1/16
- Compact size, easy to install and use.
- All jumpers hit the ON position to indicate 16 subdivisions (4988) or 32 subdivisions (8825).
- Jm connection motor; Jv Connects 5V and 12V-24V Power Supply.
- E /S /D /G of Jc corresponds to Enable /Step /Dir /Gnd driving signal output on the connection respectively.
Controller for BM1418ZXF 48V 350W for Brushless DC Motor
L298N MOTOR DRIVER
- Driver model: L298N 2A
- Driver chip: Double H bridge L298N
- Motor supply voltage: 46V(maximum)
- Motor supply current: 2A(maximum)
- Logic voltage: 5v
- Driver voltage: 5V-35V
- Driver current: 2A
- Logical current: 0-36mA
- Maximum power: 25W
- Current sensor for each motor
- LED indication for power status
- Heat sink for better performance
- Operating temperature: -25 degrees to 135 degrees Celsius
- Can be interfaced with simple manual switches, TTL logic gates, relays, etc.
- Dimension: 55*60*30mm
- Weight: 33gm
Leadshine DM542
- Good high-speed performance
- Supply voltage up to +50VDC
- Output current up to 4.2A
- Pulse frequency up to 300 KHz
- Extremely cost-effective
- Automatic idle-current reduction
- 3-state current control technology
- Self-adjustment technology
- Pure-sinusoidal current control technology
- TTL compatible and optically isolated input
- 15 selectable resolutions in decimal and binary, up to 25,600 steps/rev
- Suitable for 2-phase and 4-phase motors
- DIP switch current setting with 8 different values
- Support PUL/DIR and CW/CCW modes
- Short-voltage, over-voltage, over-current protection
Leadshine DMA860H
- Input voltage: Up to +80VAC or +110VDC.
- Output current Up to 7.2A.
- Pulse input frequency up to 300 KHz.
- Automatic idle-current reduction.
- Over-voltage, over-current protection.
- Suitable for 2-phase and 4-phase motors.
- Support PUL/DIR and CW/CCW modes.
- Operating Temperature : 70 C.
- High performance, cost-effective
- Self-adjustment technology
- Pure-sinusoidal current control technology
- TTL compatible and optically isolated input
- 16 selectable resolutions in decimal and binary, up to 51,200 steps/rev
TB6560 CNC 3 Axis Stepper Motor Driver Controller Board
TB6560 Driver Board 3A CNC Router Single 1 Axis Controller Stepper Motor
- Supply voltage up to +32 VDC
- Output current up to 3.0A
- Pulse frequency up to 20 KHz
- Suitable for 2-phase and 4-phase motors
- Over-voltage and short-circuit protection
- 7 output current choices, max 3200 steps/rev
- Automatic idle-current reduction
- Single-chip motor driver for sinusoidal micro-step control of stepping motors
- High output withstands voltage due to the use of BiCD process:
- Forward and reverse rotation
- Selectable phase excitation modes (2, 1-2, 2W1-2, and 4W1-2)
- High output withstand voltage: VDSS = 40 V
- High output current: IOUT = TB6560AHQ: 3.5 A (peak)
- Internal pull-down resistors on inputs: 100 kΩ
- Output monitor pin: MO current (IMO (max) = 1 mA)
- Reset and enable pins

Reviews
There are no reviews yet.