Features:
- Brushless DC motors have several advantages over their brushed counterparts: They have longer lifespans, run quieter, and have built-in position control thanks to the hall-effect sensor that tells the controller which coil to activate. Based on this feedback, the controller selects which coil to activate, which causes the rotor to be pulled into place
- The DCC1100 requires a 8-30V DC external power supply and can control one brushless DC motor. The motor must have hall-effect feedback for this controller to function
- This controller connects to a port on your VINT Hub (see the Connection and Compatibility tab for a list of hubs). In software you can either control the motor velocity, acceleration and stall velocity directly, or you can use the PositionController object to set the motor position using our closed-loop PID controller
Details: Brushless DC motors have several advantages over their brushed counterparts: They have longer lifespans, run quieter, and have built-in position control thanks to the hall-effect sensor that tells the controller which coil to activate. Based on this feedback, the controller selects which coil to activate, which causes the rotor to be pulled into place. The DCC1100 requires a 8-30V DC external power supply and can control one brushless DC motor. The motor must have hall-effect feedback for this controller to function. This controller connects to a port on your VINT Hub (see the Connection and Compatibility tab for a list of hubs). In software you can either control the motor velocity, acceleration and stall velocity directly, or you can use the PositionController object to set the motor position using our closed-loop PID controller. For more information on how to use and configure the PositionController, take a look at the technical section of the DCC1100 User Guide.
UPC: 810012583824
EAN: 0810012583824
Model: DCC1100_0
Item Condition: New