TB6600 Stepper Motor Driver Controller 8~50V 4.5A - Buy Online in India

TB6600 Stepper Motor Driver Controller 8~50V 4.5A

TB6600 stepper motor Driver Controller 4.5A 8~50V TTL 16 Micro-Step CNC Single-Axis Based on the TB6600HG chip, the new BL-TB6600-V1.2 driver model replaces the popular BL-TB6560-V2.0 driver.

This driver controller is suitable for building not only amateur CNC systems but also professional ones based on high-power engines. Compared to the previous generation of the TB6560AHG, the output of the TB6600HG has increased to 200W (as we see a practical doubling in power value), the operating voltage is raised from 35V (TB6560AHG) to 50V, the operating current is increased to 4.5A (5A peak value).

The main aspects of this driver include intelligent current control and the use of PWM modulation, which makes it possible to connect stepper motors of any supply voltage and current to the driver – at a fixed level; the chip itself will limit the maximum current.

If you want to control the stepper motor with this motor driver, for that you will need a few essential components like

• Arduino
• jumper wires,
• batteries or power supply.

Features:

• Supply Voltage: 8V – 50V DC (36V recommended)
  
• Output Current: 0.3A – 4.5A (peak value of 5A)
  
• Micro Step Settings: Supports 1, 2, 8, and 16 micro steps
  Maximum PWM Frequency: 200kHz
  
• Current Adjustments: Adjustable for maximum current settings of 1A, 2.2A, 3.3A, and 4.5A
  
• High-Speed Optocoupler Isolation: For signal terminals, enhancing anti-high-frequency interference ability
  
• Protection Features: Overheat, overcurrent, and short circuit protection
  
• Heat Dissipation: Large area heat sink for better heat dissipation
  
• Control Type: Supports speed and direction control
  
• Operating Temperature: -10 to +45 °C

Applications:

• CNC Machines: Used in controlling stepper motors for precise movements in CNC milling, engraving, and cutting machines.
  
• 3D Printers: Essential for driving stepper motors in 3D printers, ensuring accurate layer deposition and movement.
  
• Robotics: Ideal for robotics projects requiring precise motor control, such as robotic arms and automated guided vehicles (AGVs).
  
• X-Y Tables: Used in X-Y tables for accurate positioning and movement in various industrial applications.
  
• Laser Cutters: Controls stepper motors in laser cutting machines for precise cutting and engraving.
  
• Pick-and-Place Devices: Employed in pick-and-place machines for accurate component placement in electronics manufacturing.
  
• Labeling Machines: Used in labeling machines for precise label application.