Robotics@Techweek’07.

Slides:



Advertisements
Similar presentations
Basic Electronics Part 7: Actuators
Advertisements

Mobile Robot Locomotion
MOTION CONTROL ECE 105 Industrial Electronics Engr. Jeffrey T. Dellosa College of Engineering and Information Technology Caraga State University Ampayon,
CONTROL SYSTEMS: WHAT THEY ARE
Traction Control of Electric Locomotives
 Actuator is the component of the bot that is converting our signals into motion.  Form of instruction to bots:Electrical signals.  Actuator converts.
EEEB2833 Electrical Machines & Drives
One of the most common types of drivetrain is known as a skid steer drivetrain, which may also be referred to as a tank drive. A skid steer drivetrain.
Lecture Outline  DC motors  inefficiencies, operating voltage and current, stall voltage and current and torque  current and work of a motor  Gearing.
Stepper Motors. Motors coils of conductive wire magnetic fields rotational motion –except for linear induction motor everywhere from the very large (LRT)
Deon Blaauw Modular Robot Design University of Stellenbosch Department of Electric and Electronic Engineering.
DC Motors, Stepper Motors, H-bridges DC Motors Stepper Motors Motor Control Circuits – Relays – H-bridges.
Proto-pic.co.uk.  Simply speaking, a stepper-motor is a brushless motor running on a DC current, which is able to split one full rotation of a gear cog.
Sensors and Actuators John Errington MSc. Sensors and Actuators Sensors produce a signal in response to a change in their surroundings e.g. Thermostat.
Introduction to Robotics Electronics and Robotics Club.
DC Motors Taken from a variety of sources including: and ty/generators/index.html.
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.
PPT ON ROBOTICS AEROBOTICSINDIA.COM. ROBOTICS WHAT IS ROBOTICS THE WORD ROBOTICS IS USED TO COLLECTIVILY DEFINE A FIELD IN ENGINEERING THAT COVERS THE.
Introduction to Robotics Principles of Robotics. What is a robot? The word robot comes from the Czech word for forced labor, or serf. It was introduced.
Electric Motors and Motion Control Ara Knaian. Motors Motors convert electrical energy to mechanical energy Motors make things move LINEAR ELECTROSTATIC.
Athletic Field Marking Device Anthony Cortese, Ryan Crump, Matthew Lawler, Patrick Shaughnessy (Team Leader), John Sudia.
Microcontroller Hands-on Workshop #3 Ahmad Manshad New Mexico State University Institute of Electrical and Electronics Engineers November 7, 2009.
TRACTION MOTOR : CONTROL AND APPLICATIONS
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  Actuators are used in order to produce mechanical movement in robots.
System & Control Control theory is an interdisciplinary branch of engineering and mathematics, that deals with the behavior of dynamical systems. The desired.
Staircase Climber Project submitted by: Shraddha Joshi Soham Mohidekar
Mobile controlling robot. What is a Robot ? “A re-programmable, multifunctional manipulator designed to move material, parts, tools, or specialized devices.
Servo Motor Control. EML 2023 Department of Mechanical and Aerospace Engineering Design Problem You are to design an automated goalie for an air hockey.
HL Sample Question Applied Control Systems Underlying Principles.
THE MECHANICAL ASPECTS OF ROBOTICS
GAMEPLAN STAGE 1: FILL THE BUNKERS: A Test of Speed STAGE 2: ROBO COMBAT: A Show of Power.
Control systems KON-C2004 Mechatronics Basics Tapio Lantela, Nov 5th, 2015.
AUTOMATIC RAILWAY GATE CONTROLLING AND TRACK SWITCHING
Servo Motor Control.
Project Overview  Introduction  Frame Build  Motion  Power  Control  Sensors  Advanced Sensors  Open design challenges  Project evaluation.
EMBEDDED SYSTEM & ROBOTICS. Introduction to robotics Robots are machines capable of carrying out a complex series of actions automatically. Robotics is.
Actuators and Control, Part 5 Grant Agreement No LLP UK-LEONARDO-LMP Project acronym: CLEM Project title: Cloud services for E-Learning.
BLDC Motor Speed Control with RPM Display. Introduction BLDC Motor Speed Control with RPM Display  The main objective of this.
INTRODUCTION TO ROBOTICS Part 3: Propulsion System Robotics and Automation Copyright © Texas Education Agency, All rights reserved. 1.
Different cable reel has a different role. Hysteresis type cable reel working principle and scope The working principle of A. Power control system is.
CLOSED LOOP SPEED CONTROL OF DC MOTOR WITH PWM TECHNIQUE
Components of Mechatronic Systems AUE 425 Week 2 Kerem ALTUN October 3, 2016.
CNC FEED DRIVES Akhil Krishnan G M.Tech 1. CONTENTS 1.Introduction 2.Requirements of CNC feed drives 3.Servo motor 3.1 Servo drive control 3.2 Components.
Internal Combustion Engines
CNC FEED DRIVES.
Motors & Motor Controllers
Engineering Notebook - Part 4 Tumbler Research Section Overview of Build Lesson 1 Basic Vocabulary Motors / Batteries Name: Per #:
A SEMINAR ON ROBOTICS AT OMEGA ELECTRONICS, JAIPUR
Motors and Actuators -by vvk lalithej.
Introduction to Motors, servos and steppers
Under the Guidance of Submitted by
TRACK SENSING ROBOTIC VEHICLE MOVEMENT
PRESENTATION ON Line follower robot.
Speed, Power, Torque & DC Motors
MOTORS.
Presentation on Actuators.
Chapter Electromechanical Systems 6. Chapter Electromechanical Systems 6.
Group members MUHAMAAD DANISH 2015MC05 USMAN ALI JAT 2015MC14 MUREED SULTAN 2015MC18 AZAN ASHRAF 2015MC19 AYMEN.
ARDUINO LINE FOLLOWER ROBOT
Electric Motors.
Motor Drive Prof. Ali Keyhani. Modern Variable Speed System A modern variable speed system has four components: 1. Electric Motor 2. Power Converter -
Applied Control Systems Underlying Principles
IENG 475: Computer-Controlled Manufacturing Systems
Induction Motor Drives
Under the Guidance of Submitted by
Introduction to Motors
IENG 475: Computer-Controlled Manufacturing Systems
Introduction to Motor Drives
Presentation transcript:

Robotics@Techweek’07

What is a Robot? Electro-mechanical device. Performs Various tasks. May be human controlled or automated. It finds it’s uses in all aspects of our life.

How a Robot Can Help ? An automatic industrial machine replacing the human in hazardous work environment. An automatic mobile sweeper machine at a modern home. An automatic toy car for a child to play with. A machine removing mines in a war field all by itself and many more…

Basic Parts of a Robot Mechanical system Power supply system Actuators Sensory devices for feedback Sensor Data processing unit Control system

Mechanical Systems

Mechanical System The most basic and important part of the robot. It comprises of chassis, motors, wheels and their placement. This system decides the locomotion of the robot.

Wheeled Locomotion Systems Differential drive Car type drive Skid steer drive Synchronous drive Pivot drive

Differential Drive This is the most commonly used form of locomotion system used in robots as it’s the simplest and easiest to implement. It has free moving wheel(s) in the front accompanied with a left and right wheel. The two wheels are driven by different motors.

Differential Drive Cont…

Differential Drive: An Analysis Simplicity and ease of use makes it the most preferred system by beginners Independent drives makes it difficult for straight line motion. The differences in motors and frictional profile of the two wheels cause them to move with slight turning effect The above drawback must be countered with appropriate feedback system. Suitable for human controlled remote robots

Car Type Drive It is characterized by a pair of driving wheels and a separate pair of steering wheels. The translation and rotation are interlinked, hence this system faces severe path planning problem.

Car Type Drive Cont…

Skid Steer Drive A close relative of the differential drive system. It is mostly used in tracked machines e.g. tanks. Also finds application in some four / six wheeled robots The left and right wheels are driven independently. Steering is accomplished by actuating each side at a different rate or in a different direction, causing the wheels or tracks to slip, or skid, on the ground.

Skid Steer Drive Cont…

Synchronous Drive As the name suggests, it uses synchronous rotation of its wheels to achieve motion & turns It is made up of a system of motors. One set of which drive the wheels and the other set turns the wheels in a synchronous fashion The two sets can be directly mechanically coupled as they always move in the same direction with same speed

Synchronous Drive Cont…

Pivot Drive The most unique type of Locomotion system It is composed of a four wheeled chassis and a platform that can be raised or lowered

Pivot Drive Cont… The wheels are driven by a motor for translation motion in a straight line For rotation one motor is needed to lower/raise the platform & another to rotate the chassis around the platform This system can guarantee perfect straight line motion as well as accurate in – place turns to a desired heading

Power Systems

Power Supply System Suitable power source is needed to run the robots. Robots are most suitably powered by batteries. The weight and energy capacity of the batteries may become the determinative factor of its performance.

Actuators

Actuators They convert the electrical energy into meaningful mechanical work Mechanical output can be rotational or linear (straight line) Motors provide rotational motion Electromagnets provide linear motion

Motors are of various kinds AC Motors : Not used much in robotics Stepper Motors : For controlled rotation DC Motors : Finds extensive general use Servo Motors : DC motor with in built feedback & error compensation

Stepper Motors Used for measured rotation. Can be held at a particular position of the shaft. Ideal for many autonomous robots requiring higher precision.

Stepper Motor Working 1000 0100 0010 0001 Stepping Sequences for Single Coil Excitation Only one coil is active at a given instant of time

Single Coil Excitation

Stepper Motor Working Cont… 1100 0110 0011 1001 Stepping Sequences for Double Coil Excitation Two coils active at any given instant of time

Double Coil Excitation

Problems with Stepper Motors Very low torque to weight ratio Torque decreases with increase in the stepping frequency For sufficiently high stepping speed the stepper motor may skip steps due to overshoot

DC Motors As the name suggests, a motor which uses a DC (Direct Current) power Can run in both directions Speed Controllable

DC Motor Characteristics DC Motors are high–speed, low-torque devices. Using gears, the high speed of the motor is traded off into torque

DC Motor Drivers These are current amplifying circuits. A low current control signal is converted into a proportionally higher current signal that can drive the motor

DC Motor Direction Control Power Transistor Switches VCC S1 S2 M 1 2 S3 S4 H – Bridge Circuit Diagram

H – Bridge Working S1 S2 S3 S4 Current Direction Effect 1 1 to 2 1 to 2 Motor spins forward 2 to 1 Motor spins backward - Braking Occurs

Electronic Direction Control H – Bridge Circuit Diagram

Control Systems

Open Loop Control System Desired Action Controller Controller Actuator Actuator There is no error correction. No way to check if the actuator was able to take the desired action Simple system to design, not very reliable Requires regular calibration of the system

Closed Loop Control System Desired Action Controller Actuator Feedback

Example : An Air conditioner Room Temp Cooling Device Desired Temp. Controller Temperature Sensor

Sensors

Sensors Analogous to human sensory organs Eyes, ears, nose, tongue, skin Sensors help the robot knowing its surroundings better Improves its actions and decision making ability Provides feedback control

Examples Light Dependent Resistor Thermistor IR Photo Sensor

Line Follower

Line Follower A line follower is a robot capable of tracking a line drawn on a surface Optical sensors capture the line position at the front end of the robot The robot is steered to keep it always over the line Click to view

Optical Reflectors

Sensor Interfacing

Project DCE AUV

Delhi College of Engineering

Description Tasks and Arena

CONSTITUTION Mechanical Design Power 50 Embedded Control Systems Electronics Programming Power Mechanical Design Power Embedded Control Systems 50

The Vehicle

Test and Performance

Thank You