MOTORS.  Need a Motor That is Capable of Moving the Mirrors to a Fairly Precise Angle.

Slides:

Advertisements

Similar presentations

Sensing and Control.

Advertisements

Servo Background Servos provide control of rotary position Servos are used extensively in the remote control hobby world for: Aircraft (flaps, ailerons,

Electric Motors Ara Knaian. Human Power Line Shaft.

Controlling Motors OBEY ME!. On-Off Control 1. Switch control.

Servos The material presented is taken from a variety of sources including:

Power, Torque and Robot arms An intro. VEX Arms Robert’s ARL robot in 2006.

EET 2261 Unit 13 Controlling Stepper Motors and Servos  Read Almy, Chapter 21.  Lab #13 due next week.  Final Exam next week.

1 EECS 373 Design of Microprocessor-Based Systems Student Presentations Tianhua Zheng and Jason Shintani Motor control November 27 th, 2012.

A TECHNICAL PRESENTATION BY: ERIC BABSKI Controlling Electric Motors.

Design Realization lecture 20 John Canny 10/30/03.

12/3/2002BAE Electric Motors Classification / types –DC Motors –AC Motors –Stepper Motors –Linear motors Function –Power conversion - electrical.

2/8/10. Light Bulbs are Being Used in Homes During Daylight Hours While Sunlight is “Wasted” On the Floor An Economical, User Friendly Way to Use This.

Sheng Peng Motion Control in 3/12/ Motion Control in LCLS Sheng Peng EPICS Meeting 2008, Shanghai.

DC MOTOR CONTROL Kevin Chung [EE496] Brent Hashimoto [EE496] Brent Uyehara.

SERVO MOTORS Tech Topic By Ryan Bidlack. Background A servo motor is composed of a DC, AC, or an AC induction motor and a feedback control. A servo motor.

SENIOR DESIGN 10/16.

DC Stepper Motor Typical Use: Position Control

Power Electronics DC to AC Converters

1 Motors & Motor Controllers ECE AC or DC Motors AC –Few robots use AC except in factories –Most of those that use AC first convert to DC DC –Dominates.

EML 2023 – Motor Control Lecture 3 – Feedback Sensor Optical Encoder.

Servo Motors # A servo is a motor that you can position at any angle very accurately. # Servos have a limited servo range; most servos have a range of.

1 Servo Motor. 2 Overview A servo motor is a motor that is only capable of rotating 180 degrees A servo motor is controlled by giving it an angle to proceed.

L.C. Technology Servo Motor Control / Genie Software

Applied Control Systems Robotics & Robotic Control

Electric Motors and Motion Control Ara Knaian. Motors Motors convert electrical energy to mechanical energy Motors make things move LINEAR ELECTROSTATIC.

Microcontroller Hands-on Workshop #3 Ahmad Manshad New Mexico State University Institute of Electrical and Electronics Engineers November 7, 2009.

Servo Motor Control. EML 2023 Department of Mechanical and Aerospace Engineering Design Project You are to design a mechanical device that can tilt a.

1 L Fall 2003 – Introductory Digital Systems Laboratory Motors and Position Determination.

University of Tehran 1 Microprocessor System Design IO Applications Omid Fatemi

STEPPER MOTORS Name: Mr.R.Anandaraj Designation: Associate. Professor Department: Electrical and Electronics Engineering Subject code :EC 6252 Year: II.

Servos The material presented is taken from a variety of sources including:

SOLAR POWERED SMART BLIND (SPSB) SYSTEM Smart Home Automation

ARTICULATION. What is articulation? It’s the way a robot interacts with the field and game objects Articulation systems usually have manipulators (mechanisms.

Motor Tutorial Kevin M. Lynch Laboratory for Intelligent Mechanical Systems Northwestern University Evanston, IL USA.

PIC18F4431. PIC18F1330 Infrared Encoder/Decoder.

PWM: Pulse Width Modulation © 2014 Project Lead The Way, Inc.Digital Electronics.

STEPPERS AND SERVOS. Types of stepper motors Based on construction Based on construction Variable reluctance Variable reluctance Permanent magnet Permanent.

Throttle Arduino RC Receiver Stock Golf Cart Motor Controller Motor 1 PWM signal: Voltage: 0 – 5V Period = 22ms Positive Pulse Width: 1ms – 2ms Digital.

Special-Purpose Electric Machines The machines introduced in this lecture are used in many applications requiring fractional horsepower, or the ability.

Sitarambhai Naranjibhai Patel Institute Of Technology & R.C.

DC motor principles Speed control Direction Stepper motor principles

Introduction to VEX® components

Microcontroller basics Embedded systems for mortals.

Components of Mechatronic Systems AUE 425 Week 2 Kerem ALTUN October 3, 2016.

CNC FEED DRIVES.

Motors & Motor Controllers

Introduction to Motors, servos and steppers

Servo’s and Motor’s with Arduino

Speed control of three phase induction motor

Servo Systems Servo is mechanism based on feedback control.

Group members MUHAMAAD DANISH 2015MC05 USMAN ALI JAT 2015MC14 MUREED SULTAN 2015MC18 AZAN ASHRAF 2015MC19 AYMEN.

Electric Rotary Actuators (motors)

Servos The material presented is taken from a variety of sources including:

Control a motors angular position with a flex sensor

Electric Motors.

Servo Systems Servo is mechanism based on feedback control.

Servos The material presented is taken from a variety of sources including:

Precision Linear Motorized Stages

Servos The material presented is taken from a variety of sources including:

Autonomous Refrigerator

مکاترونیک AC Servo motor & AC Servo Driver

DC Stepper Motor Typical Use: Position Control Relative position (without feedback) Easy to control: # Steps moved = number of pulses in Desired Velocity.

Electric Rotary Actuators (motors)

EET 2261 Unit 12 Controlling Stepper Motors and Servos

Hitec HS 303: Robotic Servo Motor

Introduction to Motors

UNIT 11: RC-SERVOMOTOR CONTROL

05 | Integrating Advanced Sensors and Shields

Presentation transcript:

MOTORS

 Need a Motor That is Capable of Moving the Mirrors to a Fairly Precise Angle

 DC Motor  Servo Motor (DC)  Stepper  AC Motor

Price Range  $1.50 Thru -- Ease of Interface  Need an Encoder or Potentiometer to Ensure Correct Angle  An H-Bridge is Needed to Run This

Price Range  $10 Thru -- Performance  Low Torque = Low Current = Efficient  Fairly Precise Angle Choice Ease of Interface  Do Not Need an Encoder or Potentiometer to Ensure Correct Angle. Pulse Width Determines Angle (All Inclusive)  Need PWM

Price Range  $20 Thru -- Performance  Very Precise Angles, Must be Monitored Externally (Unless Intelligent Stepper Used)  Very Low Torque Ease of Interface  Similar to Servo, If Encoder or Potentiometer Used  Requires Building or Buying a Motor Driver That “Knows” What Angle It Is At

Price Range  $20 Thru -- Performance  Usually Large and Heavy  Last A Very Long Time  Generally Made For One Speed Ease of Interface  Encoder or Potentiometer Required  Requires Building or Buying a Variable Frequency Controller (Not as common)

 Torque  Precision  Ease of Controlling  Price/Performance

MotorTorque.5 Precision 1.0 Controlling 2.0 Price 2.0 Overall Rating Stepper DC Servo AC RatingsEach Property Weighting is Listed Below it

Motor Choice DC Servo Motor Reasons  Simplicity (Already a “Smart” Device)  More Than Enough Torque  Small Sized and Only Three Wires (Saves Space)  Initially More Expensive But Do Not Need Additional Sensors