TMC260 Stepper Motor Driver - module with stepper motor driver for Arduino
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  • TMC260 Stepper Motor Driver - module with stepper motor driver for Arduino
  • TMC260 Stepper Motor Driver - module with stepper motor driver for Arduino
  • TMC260 Stepper Motor Driver - module with stepper motor driver for Arduino
  • TMC260 Stepper Motor Driver - module with stepper motor driver for Arduino
ID: 561331
zł149.90
Tax included

zł121.87 tax excl.

Extension module (shield) with a stepper motor driver for Arduino. It allows you to control drives operating with a voltage of up to 40 V and a current consumption of up to 2 A per coil. DFRobot DRI0035

4 weeks
On request
Kamami is the official distributor of DFRobot modules and development kits. All boards of this brand in our offer are original and come directly from the manufacturer.

 

Free shipping

free shipping in Poland for all orders over 500 PLN

 

Same day shipping

If your payment will be credited to our account by 11:00

 

14 days for return

Each consumer can return the purchased goods within 14 days

Description

Extension module (shield) with a stepper motor driver dedicated to Arduino boards. It allows you to control the movement of drives with a current consumption of up to 2 A per coil and an operating voltage of up to 40 V. It is based on the TMC260, which is an energy-saving system designed for bipolar stepper motors. It uses the sensorless load detection algorithm (stallGuard2) and has a built-in load dependent current control (coolStep). TMC260 can be controlled by STEP and DIR signals or via the serial interface SPI. The use of the microPlyer algorithm allows the motor to run smoothly, and the set of protections (against overheating, short circuit and overload) makes the module very durable. Full documentation and examples of use are available on the product page.

Features

  • Dedicated to bipolar stepper motors
  • Voltage: up to 40 V DC
  • Current consumption: up to 2 A per coil
  • SPI and STEP / DIR interfaces
  • Resolution up to 256 microsteps per full step
  • Overload, overheating and short circuit protection
  • StallGuard2 algorithm for sensorless motor load detection
  • Load-dependent coolStep current control for energy savings of up to 75%
  • MicroPlyer algorithm: Microstep to obtain increased smoothness of microsteps through the STEP/DIR interface
  • Precision SpreadCycle algorithm available as an alternative to the traditional fixed off time algorithm
561331

Data sheet

Output current
2A
Number of channels
1
Supply voltage min
0 V
Supply voltages max
40 V

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