Different Types of Voltage Regulators with Working Principle.

Slides:



Advertisements
Similar presentations
Basic Electronics Part 2: Power Supply Design
Advertisements

DC Choppers 1 Prof. T.K. Anantha Kumar, E&E Dept., MSRIT
DC Choppers 1 Prof. T.K. Anantha Kumar, E&E Dept., MSRIT
9/29/2004EE 42 fall 2004 lecture 131 Lecture #13 Power supplies, dependent sources, summary of ideal components Reading: Malvino chapter 3, Next:
Presented By: Er. Ram Singh (Asstt. Prof.) Deptt. Of EE
Copyright by UNIT III DC Choppers 4/17/2017 Copyright by
Understanding Power Supply Basics and Terminology
Instrumentation & Power Electronics
DC-DC Fundamentals 1.1 An Introduction
EKT214 - ANALOG ELECTRONIC CIRCUIT II
© 2012 Pearson Education. Upper Saddle River, NJ, All rights reserved. Electronic Devices, 9th edition Thomas L. Floyd Electronic Devices Ninth.
Principles & Applications
McGraw-Hill © 2008 The McGraw-Hill Companies Inc. All rights reserved. Electronics Principles & Applications Seventh Edition Chapter 15 Regulated Power.
DC-DC Fundamentals 1.3 Switching Regulator
DC-DC Fundamentals 1.2 Linear Regulator. What is a Linear Regulator? The linear regulator is a DC-DC converter to provide a constant voltage output without.
© 2012 Pearson Education. Upper Saddle River, NJ, All rights reserved. Electronic Devices, 9th edition Thomas L. Floyd Lecture 9: Power Supplies.
Chapter 6 Voltage Regulators - Part 2-.
Electrical Fundamentals
CHAPTER 6 VOLTAGE REGULATOR POWER SUPPLIES (VOLTAGE REGULATORS) Fig. 6.1 Block diagram showing parts of a power supply. Power supply Power supply: a.
Speed Control of D.C. Motors
1 Fly-back Converter fall Basic Topology of a Fly-back Converter.
Power Electronics and Drives (Version ) Dr. Zainal Salam, UTM-JB 1 Chapter 3 DC to DC CONVERTER (CHOPPER) General Buck converter Boost converter.
Switching Power Supplies Week 6
Power Supply Design J.SHANMUGAPRIYAN.
CHAPTER 18 Power Supplies. Objectives Describe and Analyze: Power Supply Systems Regulation Buck & Boost Regulators Flyback Regulators Off-Line Power.
Voltage Regulators Used to regulate input voltage from a power source
Lecture # 12&13 SWITCHING-MODE POWER SUPPLIES
ANALOG CIRCUIT AND DEVICES 10/7/ Semester I 2013/2014 Course Code: EEE 3123.
© 2013 The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill 15-1 Electronics Principles & Applications Eighth Edition Chapter 15 Regulated.
Chapter 6 Voltage Regulators By En. Rosemizi Bin Abd Rahim EMT212 – Analog Electronic II.
Chapter 6 Voltage Regulators - Part 2-.
EMT212 Analog Electronic II
EMT212 – Analog Electronic II
1.0 LINEAR DC POWER SUPPLY The importance of DC Power Supply Circuit For electronic circuits made up of transistors and/or ICs, this power source.
NATCAR SUMMER CLASS II 6 July 2004 Chung Hsieh. Topic of Discussion Power Supply Motor Drive Circuits Braking.
SMV Electric Tutorials
Self Switching Power Supply. Introduction Self Switching Power Supply  Embedded system requires a regulated power supply.
Single Phase Induction Motor Speed Control. Introduction Single Phase Induction Motor Speed Control  Induction motors are.
Switch Mode Power Supply(SMPS) BY: Arijit Acharya NETAJI SUBHASH ENGINEERING COLLEGE M.tech(P.S.) Roll No - 1.
Power Electronics and Switch Mode Power Supply
CLOSED LOOP SPEED CONTROL OF DC MOTOR WITH PWM TECHNIQUE
Chapter 6: Voltage Regulator
UNIT- II Rectifiers and Filters. Basic Rectifier setup, half wave rectifier, full wave rectifier, bridge rectifier, derivations of characteristics of.
Electronics Technology Fundamentals Chapter 25 Discrete and Integrated Voltage Regulators.
Hartley Oscillator Circuit Theory Working and Application
UNIT III DC Choppers.
SOFT START OF 3 PHASE INDUCTION MOTOR BY USING 2 NUMBERS BACK TO BACK SCRS IN EACH PHASE Submitted by:
SMPS.
RECTIFIERS, FILTERS AND REGULATORS :Half wave rectifier, ripple factor, full wave rectifier, Harmonic components in a rectifier circuit, Inductor filter,
CHAPTER 6 VOLTAGE REGULATOR Tulus Ikhsan Nasution.
Subject Name: LINEAR INTEGRATED CIRCUITS Subject Code: 10EC46
Electronic Devices Ninth Edition Floyd Chapter 17.
Rectifiers and Filters
IMPEDENCE - SOURCE INVERTER FOR MOTOR DRIVES
DC-DC PWM Converters Lecture Note 5.
Fault detection Lecture (3).
DC MOTOR SPEED CONTROL 1. Introduction
6.0 Voltage Regulators.
Principles & Applications
DC Choppers 1 MH1032/brsr/A.Y /pe/DC CHOPPERS
Chapter 6: Voltage Regulator
Reading: Malvino chapter 3, Next: 4.10, 5.1, 5.8
RECTIFIERS, FILTERS AND REGULATORS :Half wave rectifier, ripple factor, full wave rectifier, Harmonic components in a rectifier circuit, Inductor filter,
DC-DC Switch-Mode Converters
Induction Motor Drives
More Circuit Components: Capacitors, Inductors, and Diodes
Voltage Regulators BY: Wisdom Mahami| Mary Evenunye Gaewu.
POWER ELECTRONICS DC-DC CONVERTERS (CHOPPERS) PART 2
POWER ELECTRONICS DC-DC CONVERTERS (CHOPPERS) PART 1
Rectifiers. Introductions of rectifiers: IN PARTICLE ACCELERATORS, ELECTRONS OR OTHER CHARGED PARTICLES ARE FORCED TO MOVE ALONG ORBITS OR TRAJECTORIES.
Presentation transcript:

Different Types of Voltage Regulators with Working Principle

Different Types of Voltage Regulators with Working Principle Introduction:  A voltage regulator is used to regulate voltage level. When a steady, reliable voltage is needed, then voltage regulator is the preferred device. It generates a fixed output voltage that remains constant for any changes in an input voltage or load conditions. It acts as a buffer for protecting components from damages. A voltage regulator is a device with a simple feed- forward design and it uses negative feedback control loops.

Different Types of Voltage Regulators with Working Principle Voltage Regulator

Different Types of Voltage Regulators with Working Principle Different Types Of Voltage Regulators and Working Principle  There are two types of Voltage regulators 1.Linear Voltage Regulator 2.Switching voltage regulator.

Different Types of Voltage Regulators with Working Principle Types of Linear Voltage Regulators  There are two types of Linear voltage regulators: 1.Series Voltage Regulator. 2.Shunt Voltage Regulator.

Different Types of Voltage Regulators with Working Principle Types of Switching Voltage Regulator  There are three types of Switching voltage regulators: 1.Step Up. 2.Step Down. 3.Inverter Voltage Regulator.

Different Types of Voltage Regulators with Working Principle Linear Voltage Regulators  Linear regulator acts like a voltage divider. In Ohmic region, it uses FET. The resistance of the voltage regulator varies with load resulting in constant output voltage.

Different Types of Voltage Regulators with Working Principle Advantages Of Linear Voltage Regulator  Gives a low output ripple voltage  Fast response time to load or line changes  Low electromagnetic interference and less noise

Different Types of Voltage Regulators with Working Principle Disadvantages Of Linear Voltage Regulator  Efficiency is very low.  Requires large space – heat sink is needed.  Voltage above the input cannot be increased.

Different Types of Voltage Regulators with Working Principle Series Voltage Regulator

Different Types of Voltage Regulators with Working Principle  A series voltage regulator uses a variable element placed in series with the load.  By changing the resistance of that series element, the voltage dropped across it can be changed.  The voltage across the load remains constant.  The amount of current drawn is effectively used by the load.  This is the main advantage of the series voltage regulator. Series Voltage Regulator

Different Types of Voltage Regulators with Working Principle Series Voltage Regulator  Even when the load does not require any current.  The series regulator does not draw full current.  Therefore, a series regulator is considerably more efficient than shunt voltage regulator.

Different Types of Voltage Regulators with Working Principle Series Voltage Regulator Circuit

Different Types of Voltage Regulators with Working Principle Shunt Voltage Regulator  A shunt voltage regulator works by providing a path from the supply voltage to ground through a variable resistance.  The current through the shunt regulator is diverted away from the load.  It flows uselessly to the ground, making this form usually less efficient than the series regulator.  It is, simpler, sometimes consisting of just a voltage-reference diode.

Different Types of Voltage Regulators with Working Principle Shunt Voltage Regulator  It is used in very low-powered circuits wherein the wasted current is too small to be of concern.  This form is very common for voltage reference circuits.  A shunt regulator can usually only sink (absorb) current.

Different Types of Voltage Regulators with Working Principle Shunt Voltage Regulator

Different Types of Voltage Regulators with Working Principle Applications of Shunt Regulators  Shunt regulators are used in: Low Output Voltage Switching Power Supplies. Current Source and Sink Circuits. Error Amplifiers. Adjustable Voltage or Current Linear and Switching Power Supplies. Voltage Monitoring. Analog and Digital Circuits that require precision references. Precision current limiters.

Different Types of Voltage Regulators with Working Principle Switching Voltage Regulator  A switching regulator rapidly switches a series device on and off.  The switch’s duty cycle sets the amount of charge transferred to the load.  This is controlled by a feedback mechanism similar to that of a linear regulator.  Switching regulators are efficient because the series element is either fully conducting or switched off because it dissipates almost no power.  Switching regulators are able to generate output voltages that are higher than the input voltage or of opposite polarity, unlike linear regulators.

Different Types of Voltage Regulators with Working Principle Switching Voltage Regulator

Different Types of Voltage Regulators with Working Principle Switching Voltage Regulator  Switching voltage regulator switches on and off rapidly to alter the output.  It requires a control oscillator and also charges storage components.  It is more difficult to filter out that noise, in a switching regulator with Pulse Rate Modulation varying frequency, constant duty cycle and noise spectrum imposed by PRM vary.

Different Types of Voltage Regulators with Working Principle Switching Voltage Regulator  A switching regulator with Pulse Width Modulation, constant frequency, varying duty cycle, is efficient and easy to filter out noise.  In a switching regulator, continuous mode current through an inductor never drops to zero. It allows highest output power. It gives better performance.  In a switching regulator, discontinuous mode current through the inductor drops to zero. It gives better performance when the output current is low.

Different Types of Voltage Regulators with Working Principle Switching Topologies  It has two types of topologies:  Dielectric isolation.  Non- isolation.

Different Types of Voltage Regulators with Working Principle Switching Topologies 1. Non –Isolation:  It is based on small changes in Vout/ Vin.  Examples are Step Up voltage regulator (Boost) – Raises input voltage; Step Down (Buck) – lowers input voltage.  Step up/ Step Down (boost/ buck) Voltage regulator – Lowers or raises or inverts the input voltage depending on the controller.  Charge pump – It provides multiples of input without using inductor.

Different Types of Voltage Regulators with Working Principle Switching Topologies 2. Dielectric – Isolation:  It is based on radiation and intense environments.

Different Types of Voltage Regulators with Working Principle Advantages of Switching Topologies  The main advantages of a switching power supply are efficiency, size, and weight.  It is also a more complex design, which is capable of handling higher power efficiency.  Switching voltage regulator can provide output, which is greater than or less than or that inverts the input voltage.

Different Types of Voltage Regulators with Working Principle Disadvantages of Switching Topologies  Higher output ripple voltage.  Slower transient recovery time.  EMI produces very noisy output.  Very expensive.

Different Types of Voltage Regulators with Working Principle Step Up Voltage Regulator

Different Types of Voltage Regulators with Working Principle Step Up Voltage Regulator  Step-up switching converters, also called boost switching regulators.  It provides a higher voltage output by raising the input voltage.  The output voltage is regulated, as long as the power drawn is within the output power specification of the circuit.  For driving strings of LEDS, Step up Switching voltage regulator is used.

Different Types of Voltage Regulators with Working Principle Step Up Voltage Regulator  Assume Lossless circuit Pin= Pout (input and output powers are same) Then V in I in = V out I out, I out / I in = (1-D) From this, it is inferred that in this circuit o Powers remain same o Voltage increases o Current decreases o Equivalent to DC transformer

Different Types of Voltage Regulators with Working Principle Step Down (Buck) Voltage Regulator

Different Types of Voltage Regulators with Working Principle Step Down (Buck) Voltage Regulator  It lowers the input voltage.  If input power is equal to output power, then  P in = P out ; V in I in = V out I out,  I out / I in = V in /V out = 1/D  Step down converter is equivalent to DC transformer wherein the turns ratio is in the range of 0-1.

Different Types of Voltage Regulators with Working Principle Step Up/Step Down (Boost/Buck)

Different Types of Voltage Regulators with Working Principle Step Up/Step Down (Boost/Buck)  It is also called Voltage inverter. By using this configuration, it is possible to raise, lower or invert the voltage as per the requirement. o Output voltage is of opposite polarity of the input. o This is achieved by VL forward- biasing reverse biased diode during the off times. o producing current and charging the capacitor for voltage production during the off times. o By using this type of switching regulator, 90% efficiency can be achieved.

Different Types of Voltage Regulators with Working Principle Alternator Voltage Regulator  Alternators produce the current that is required to meet a vehicle’s electrical demands when the engine runs.  It also replenishes the energy which is used to start the vehicle.

Different Types of Voltage Regulators with Working Principle Alternator Voltage Regulator  An alternator has the ability to produce more current at lower speeds than the DC generators that were once used by most of the vehicles.  Alternator has two parts: 1. Stator  This is a stationary component, which does not move.  It contains a set of electrical conductors wound in coils over an iron core.

Different Types of Voltage Regulators with Working Principle Alternator Voltage Regulator  This is the moving component that produces a rotating magnetic field by any one of the following three ways: (i)induction (ii)permanent magnets (iii) using an exciter. 2. Rotor / Armature

Different Types of Voltage Regulators with Working Principle Electronic Voltage Regulator  A simple voltage regulator can be made from a resistor in series with a diode (or series of diodes).  Due to the logarithmic shape of diode V-I curves.  The voltage across the diode changes only slightly due to changes in current drawn or changes in the input.  When precise voltage control and efficiency are not important, this design may work fine.

Different Types of Voltage Regulators with Working Principle Transistor Voltage Regulator

Different Types of Voltage Regulators with Working Principle Transistor Voltage Regulator  Electronic voltage regulators have astable voltage reference source that is provided by the Zener diode,Zener diode  It is also known as reverse breakdown voltage operating diode.  It maintains a constant DC output voltage.  The AC ripple voltage is blocked, but filter cannot be blocked.  Voltage regulator also has an extra circuit for short circuit protection, and current limiting circuit, over voltage protection, and thermal shutdown.

Different Types of Voltage Regulators with Working Principle Conclusion  This is all about different types of voltage regulators and their working principle, advantage and disadvantages of different types of voltage regulator and its applications.different types of voltage regulators and their working principle