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10/13/20151 University of North Carolina-Charlotte INTRODUCTION TO DIGITAL ACTUATORS (Stepper and Servo Motors) Gurunath Athalye.

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Presentation on theme: "10/13/20151 University of North Carolina-Charlotte INTRODUCTION TO DIGITAL ACTUATORS (Stepper and Servo Motors) Gurunath Athalye."— Presentation transcript:

1 10/13/20151 University of North Carolina-Charlotte INTRODUCTION TO DIGITAL ACTUATORS (Stepper and Servo Motors) Gurunath Athalye

2 10/13/20152 Classification: -  Variable Reluctance  Permanent Magnet  Hybrid  Unifilar  Bifilar  Full Step  Half Step  Micro Step Construction Winding Configurations Drive Mode

3 10/13/20153 Variable Reluctance:  Salient pole stator  No windings on the rotor  Stator and rotor pole numbers are different  Torque is developed by the tendency for the magnetic circuit to adopt the configuration of minimum reluctance

4 10/13/20154 Permanent Magnet:-  Permanent magnet in the rotor  Stator is similar to single stack variable reluctance  High inertia and lower torque to inertia ratio  Restricted to large step size

5 10/13/20155 Hybrid Motor:-  Operated with the combined principles of the PM and VR motors  Small step angle and a high torque from a small size

6 10/13/20156 Unifilar Motor:-  Only one winding per stator pole  To change direction requires reversing the current in the same winding.

7 10/13/20157 Bifilar Winding:-  Two identical sets of windings on each stator pole  Winding configuration simplifies the drive circuitry

8 10/13/20158 Unipolar Motor:-  Current flow is limited in one direction  To rotate the motor, just apply power to the two windings in sequence

9 10/13/20159 Modes of Stepper Motor:  Full Step  Half Step  Micro Step

10 10/13/201510 Conceptual Model of Unipolar Stepper Motor: Full Step  The center taps of the windings are wired to the positive supply  The two ends of each winding are alternately grounded to reverse the direction of the field provided by that winding

11 10/13/201511 Full Step Mode:-  Full step sequence showing how binary numbers can control the motor

12 10/13/201512 Conceptual Model of Unipolar Stepper Motor: Half Step  Same circuitry with different winding sequence  Two windings are energized at the same instance

13 10/13/201513 Half Step Mode:-  Half step sequence showing how binary numbers can control the motor

14 10/13/201514 Micro Stepping Mode:-  Positional resolution is limited because of the mechanical design of the unit  It allows a stepping motor to stop and hold a position between the full or half-step positions  The jerky character of low speed stepping motor operation and the noise at intermediate speeds

15 10/13/201515 Principle of Micro Stepping (contd)  Two sine waves in 'quadrture' (90 degrees out of phase) form the ideal current drive.

16 10/13/201516 Principle of Micro Stepping: Phasor

17 10/13/201517 Identifying a stepper motor:- Identifying Stepper Motors

18 10/13/201518 Identifying a stepper motor:-  Stepper motors have numerous wires, 4, 5, 6, or 8. When you turn the shaft you will usually feel a "notched" movement. Motors with 4 wires are probably Bipolar motors and will not work with a Unipolar control circuit. The most common configurations are pictured above. You can use an ohm-meter to find the center tap - the resistance between the center and a leg is 1/2 that from leg to leg. Measuring from one coil to the other will show an open circuit, since the 2 coils are not connected. (Notice that if you touch all the wires together, with power off, the shaft is difficult to turn!) Shortcut for finding the proper wiring sequence Connect the center tap(s) to the power source (or current-Limiting resistor.) Connect the remaining 4 wires in any pattern. If it doesn't work, you only need try these 2 swaps... 1 2 4 8 - (arbitrary first wiring order) 1 2 8 4 - switch end pair 1 8 2 4 - switch middle pair You're finished when the motor turns smoothly in either direction. If the motor turns in the opposite direction from desired, reverse the wires so that ABCD would become DCBA.

19 10/13/201519 References:-  Dr. James M. Conrad http://www.coe.uncc.edu/~jmconrad accessed : February 2006  Douglas W. Jones, Control of Stepping Motors – A Tutorial, http://www.cs.uiowa.edu/~jones/step/ http://www.cs.uiowa.edu/~jones/step/ accessed : February 2006  http://www.stepperworld.com http://www.stepperworld.com accessed : February 2006  http://hibp.ecse.rpi.edu/~connor/education/IEE/IEE-Lec8.ppt http://hibp.ecse.rpi.edu/~connor/education/IEE/IEE-Lec8.ppt accessed : February 2006  http://www.tpub.com/content/neets/14187/css/14187_95.htm http://www.tpub.com/content/neets/14187/css/14187_95.htm accessed : February 2006

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