Electromagnetic Relays

Slides:

Advertisements

Similar presentations

Starting System Principles

Advertisements

ELECTRICAL POWER AC MOTOR & DC MOTOR.

ELECTRICAL POWER AC MOTOR & DC MOTOR.

The Direct Current (DC) Electric Motor

PERTEMUAN 14 PENGUKURAN ENERGI. Measurement of Energy Energy is measured by means of the energy meter (watt-hour- meter) Energy meter is an integrating.

Electricity How do motors work?. Motors A motor takes advantage of electromagnetism If you have two magnets the north end of one will attract the south.

Modern Automotive Technology PowerPoint for by Russell Krick

ECE 201 Circuit Theory I1 Electromagnetic Devices.

Basic Electronics Ninth Edition Basic Electronics Ninth Edition ©2002 The McGraw-Hill Companies Grob Schultz.

Power System Analysis/ Power System 1 EEE 4113/ EEE 3131

Electric DC Motor Vigyan Ashram, Pabal.

Physics 12 Direct Current Motors. Joke of the day: An object at rest stays at rest and an object in motion stays in motion with the same speed and in.

Rotating Magnetic Field

Induction Motor Action. Look at the magnetic fields established by the three phases.

Three-Phase Induction Motor Stator. Three-Phase Alternating Current.

Magnetism Any time electrical power is moving through a wire magnetism is created Any time magnetism moves past a wire electrical power is created.

Electric Motor By Princess Barcega APG School Powerpoint hosted on Please visit for 100’s more free powerpoints.

UNIT FIVE: Electricity and Magnetism

Electric AC Motor Vigyan Ashram, Pabal.

DC Motors Taken from a variety of sources including: and ty/generators/index.html.

AC MOTOR INDUCTION MOTOR.

Single-phase Motor Stator

A topic (in two parts) about the interaction between magnetic fields

Electricity and Magnetism

Reciprocating Saw Dissection: Motor Description Thomas Snowdon.

Electromagnetic Induction

BEX – Basic Electricity – Unit 13 Magnetic Motors REF: Delmar’s Standard Textbook of Electricity, Unit 13.

Ohm’s Law + - R E I E = I * R I = E / R R = E / I E = Voltage I = Current R = Resistance.

II. Uses of Magnetic Fields (p ) Electromagnet Speaker Motor

Motors. Torque on a Solenoid N S SN e - Like poles repel, unlike poles attract. The solenoid will rotate counterclockwise.

Starter Basics P 206. Motor Principles n DC motors interaction of magnetic fields to convert electrical energy to mechanical energy n Current is applied.

HVAC214 - Oil Electrical Motors Part 1.

Three-Phase AC machines

Electromagnetic relay

Introduction to AC Motors ChE 462. AC Motors Synchronous motor – constant speed independent of load; compressors Induction motor is a common form of asynchronous.

Motors and Generators.

Introduction to the Electric Motor. Electric Motors are based on Magnets, Electromagnets and The Law of Magnetic Poles.

DC MOTORS Presented By: -Enosh Vishwanathan ( )

Induction motor National Research Tomsk Polytechnic University Student: R.N.Kalimbekov Group 5GM42 Teacher: O.S.Kachin Tomsk 2015.

DC MOTOR. Magnetism Opposites Attract / Likes Repel.

Single phase induction motor

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.

Introduction to Rotating Machines

CNC FEED DRIVES.

THREE-PHASE INDUCTION MOTOR

SINGLE-PHASE INDUCTION MOTOR

PERTEMUAN 14 PENGUKURAN ENERGI.

Electric Motors and Generators

Introduction to Rotating Machines

Current can produce magnetism

Chapter 6: DC & AC Machine

Electric Machine Introduction

Three-Phase AC machines

Electromagnetism.

AC and DC motors.

Synchronous Machine.

UNIT FIVE: Electricity and Magnetism

INDUCTION MOTOR.

Three-Phase AC machines

Electric Motors.

Knowledge Organiser – Magnetism and Electromagnetism

Interaction of Magnetic Fields (Motor Action)

Electric Motor By Saba Junaid

EET 323 – Electrical System Design Lecture 13: Motor Circuits

II. Uses of Magnetic Fields (p ) Electromagnet Speaker Motor

Induction Motors (Lecture 1&2)

LECTURE (10) Moving –Iron meter.

Presentation transcript:

Electromagnetic Relays Attracted Armature Type Induction Disc Type Induction Cup Type Moving Coil Type

Hinged Attracted Armature Type relay

Shaded Pole Induction Disc Relay Robust & reliable Construction Fluxes displaced in space & time Used for over current protection Eddy currents in disc Used for slow speed relays Disc rotation α driving toque Reset/pick up ratio > 95% Brake magnet to avoid over run

Wattmetric type Induction Disc Relay Two electromagnets Upper and lower produce two different flux Energised by two different sources If energised by same source then R and X would be made different to get phased difference between fluxes

Induction Cup Relay

Induction Cup Relay Stationary core inside rotating cup Spindle carries arm - closes relay contacts Spring for resetting torque No brake magnet Principle of Induction motor

Induction Cup Relay Rotor is hollow cylinder (inverted cup) Two pairs of coils produce rotating field Cup has less inertia than disc Interaction of rotating flux with current Less magnetic leakage Torque per VA is 3 times than disc type Operating time 0.01 s High torque/inertia ratio Suitable for higher speeds of operation Used for distance & directional relays Stationary core inside rotating cup Spindle carries arm - closes relay contacts Spring for resetting torque No brake magnet Principle of Induction motor

Moving Coil Relay

Torque Production in Induction Relay

Torque Production in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay

Force Produced in Induction Relay