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.
TB6560 Driver Board 3A CNC Router Single 1 Axis Controller Stepper Motor
₹1,200.00 Original price was: ₹1,200.00.₹970.00Current price is: ₹970.00. inc. GST
- 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
TB6560 Chip is a high-performance micro-stepping drive based on pure-sinusoidal current control technology. This pure sine and the self-adjustment technology to self-adjust current control parameters offers quick setup while using with different motors. Thus the driven motors can run with smaller noise, lower heating, smoother movement and have better performances at a higher speed than most of the drives in the markets. It is suitable for driving 2-phase and 4-phase hybrid stepping motors. Therefore, in order to improve reliability, the driver features some built-in protection functions. Such as low voltage shutdown, overheating stop, and overcurrent protection circuit.
This TB6560 Driver Board offers a 3A output current with CNC Router Single 1 Axis Controller motor driver’s board. Thus used for axis control with Input signal high-speed optocoupler isolation, with the large heat sink to ensure good heat dissipation. Moreover, these motor drivers are capable of Semi-flow mode adjustable, semi-flow current adjustable, with a variety of semi-flow model and semi-flow current setting functions.
The TB6560 defined as a PWM chopper-type stepping motor driver IC designed for sinusoidal-input micro-step control of bipolar stepping motors. These are widely used in applications that require 2-phase, 1-2-phase, 2W1-2-phase and4W1-2-phase excitation modes. The TB6560 features low-vibration, high-performance forward and reverse driving of a two-phase bipolar stepping motor using only a clock signal. These stepper motor drivers are suitable for a wide range of stepping motors from NEMA size 17 to 23.
APPLICATIONS
- Used in various kinds of machines, such as X-Y-Z tables, labeling machines, laser cutters, engraving machines
- Widely used with low vibration, high speed, and high precision applications

Related products
Leadshine DM320C
- Supply voltage up to +30 VDC
- Output current programmable, from 0.3A to 2.0A
- Pulse input frequency up to 70 kHz
- TTL compatible and optically isolated input
- Automatic idle-current reduction
- Suitable for 2-phase and 4-phase motors
- Support PUL/DIR and CW/CCW modes
- Over-voltage, over-current, phase-error protection
- Anti-Resonance provides optimum torque and nulls mid-range instability
- Self-test and Auto-configuration technology offers optimum responses with different motors
- Microstep resolutions programmable, from full-step to 102,400 steps/rev
- Support PUL/DIR and CW/CCW modes
- Over-voltage, over-current, phase-error protection
- Its unique features make the DM320C an ideal solution for applications that require low-speed smoothness
Leadshine DMA860E Stepper Motor Driver
- Model: DMA860E.
- Control Mode: Step & Direction.
- Max Input Frequency: 200 kHz.
- Input Voltage Range: 18 - 80 VAC / 24 - 110 VDC.
- Suggested Power Supply Voltage Range: 36-90 VDC /24-60 VAC.
- Number of DIP Switch Resolution Configurations: 16.
- 16 selectable micro-step resolutions of 400-51,200 via DIP switches.
- 8 selectable output current settings of 2.4 – 7.2A via DIP switches.
- Logic Current Range: 7-16mA (10mA typical).
- Logic Voltage Range: 4-5 VDC for pulse active high (default), or 0-0.5V for pulse active low.
- Pulse enabled at: Rising edge.
- Idle Current Percentage: 50 %.
- Number of Digital Inputs: 3.
- Step Width: 2,500 ns.
- Minimal Direction Setup Time: 5,000 ns.
- Isolation Resistance: 500M Ohm..
- Ambient Temperature: 0-50°C.
- Humidity: 40–95% RH.
- Operating Temperature: 0-70°C.
- Vibration: 5.9 m/s2 Max.
- Motor auto-identification and parameter auto-configuration for optimal torque from wide-range motors.
- Step & direction (PUL/DIR) and CW/CCW (via internal jumper set) control. Step & direction by default Multi-Stepping for smooth motor movement.
- Opto Isolation for input control signals.
- Soft-start with no “jump” when powered on.
- Protections for over-voltage and over-current.
- Dimension: 5.94 X 3.82 X 2.24 Inches.
- Weight: 1.13 lbs.
MOTOR SHIELD L293
- 2 connections for 5V ‘hobby’ servos connected to the Arduino’s high-resolution dedicated timer
- 4 H-Bridges: L293D chipset provides 0.6A per bridge (1.2A peak) with thermal shutdown protection, internal kickback protection diodes.
- Can run motors on 4.5VDC to 25VDC.
- 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, or interleaved stepping.
NEMA 17 5.5 kgcm
- Step Angle : 1.8°
- Holding Torque : 5.5 KgCm
- Operating Voltage : 12 - 16 volts
- Supply Current (A) :1.5 Ampere
- Number of Leads : 6
- Inductance : 5.5 mH
- Resistance : 2.8 Ohms
- Weight (gm) : 363
- Detent Torque (kg-cm) : 2.6
- Frame Size (mm) : 42 x 42
- Inductance Accuracy : ±20%
- Resistance Accuracy : ±10%
- Step Angle Accuracy : ±5%
- Shaft Diameter (mm) : 5
- Shaft Length (mm) : 22
- Input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
- Provides good starting, stopping and reversing.
- Control of this motor is less costly because of exclusion of complex control circuitry.
- The speed is proportional to the frequency of the input pulses.
NEMA 23 10.1 kg-cm
- Operating Voltage : 2.3 Volts
- Step Angle : 1.8°
- Holding Torque : 10.1 kg-cm
- Supply Current (A) : 2.8 Ampere/Phase
- Number of Leads : 4
- Inductance : 2.2 mH/Phase
- Resistance : 0.83 Ohm
- Rotor Inertia : 275 gm-cm2
- Weight (gm) : 650
- Detent Torque (kg-cm) : 0.36
- Frame Size (mm) : 57 x 57
- Inductance Accuracy : ±20%
- Resistance Accuracy : ±10%
- Shaft Diameter (mm) : 6.35
- Shaft Length (mm) : 20.6
- Step Angle Accuracy : ±5%
- Comparably more powerful than NEMA17 motors.
- The input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
- It provides good starting, stopping, and reversing.
- Control of this motor is less costly because of the exclusion of complex control circuitry.
- The speed is proportional to the frequency of the input pulses.
RB NEMA 17 (42mm) Coupling 5×6.35mm
STEPPER MOTOR NEMA 23 7.2KG
Stepper Motor Nema 23 kg 7.2 kg Dual shaft
- Rated Voltage: 6.6 V
- Current/ phase: 1A
- Resistance/ phase: 6.6ohms
- Inductance/ phase: 8.2 mH
- Holding Torque: 7.2 kg-cm
- of Leads - 6
- Rotor Inertia - 275
- Weight: 0.65kg
- Detent Torque: 0.36 kg-cm
- Step Angle - 1.8°
- Step Angle Accuracy - ±5% (full step, no load)
- Resistance Accuracy - ±10%
- Inductance Accuracy - ±20%
- Frame Size (mm) - 57x57
- Shaft Length (mm) - 20.6
- Shaft Diameter (mm) - 6.35
- Comparably more powerful than NEMA17 motors.
- Input pulse decides the rotation angle of the motor.
- High accuracy of around 3 to 5% a step.
- Provides good starting, stopping and reversing.
- Control of this motor is less costly because of exclusion of complex control circuitry.
- The speed is proportional to the frequency of the input pulses.

Reviews
There are no reviews yet.