Switching Power Supply Component Selection 7.2a Inductor Selection – Terminology.

Slides:

Advertisements

Similar presentations

Chapter 11 Inductors.

Advertisements

Electrical Machines LSEGG216A 9080V.

Heat Generation in Electronics Thermal Management of Electronics Reference: San José State University Mechanical Engineering Department.

Inductance and RL Circuits

High Frequency Saturable Reactor

Inductors and Chokes In Switch mode Supplies

SWITCH-MODE POWER SUPPLIES AND SYSTEMS Silesian University of Technology Faculty of Automatic Control, Electronics and Computer Sciences Ryszard Siurek.

T. YOSHIDA, J. OYAMA, T. HIGUCHI, T. ABE and T. HIRAYAMA Department of Electrical and Electronic Engineering, Nagasaki University, Japan ON THE CHARACTERISTICS.

Power System Fundamentals

Magnetics Design Primary Constraints: Peak Flux Density (B field) in the core : B max (T or Wb/m 2 ) Core losses Saturation Peal Current density in the.

Chapter 12 Electromagnetic Induction Permission granted to reproduce for educational use only. © Goodheart-Willcox Co., Inc. Objectives  Demonstrate.

Al Penney VO1NO Inductance.

ECE 201 Circuit Theory I1 Physical Characteristics of Inductors.

Department of Electrical & Electronics Engineering ELE 1001: Basic Electrical Technology Lecture 5 Inductor.

How Coils Work A basic introduction into Coil technology.

Transformers and Coupled Circuits

Inductors. Inductance Electrons in motion create electromagnetic fields – Recall from previous section that electrons in motion also create an electrostatic.

Switching Power Supply Component Selection 7.2b Inductor Selection – Application.

Chapter 22 Alternating-Current Circuits and Machines.

AP Physics C Montwood High School R. Casao

CHAPTER 6: TRANSFORMER BAKISS HIYANA ABU BAKAR

Chapter 2 Transformers.

Chapter 16 DC Generators.

Alternating Current Circuits

Chapter 1 MAGNETIC CIRCUIT.

Electromagnetism Topic 12.2 Alternating Current. Rotating Coils Most of our electricity comes from huge generators in power stations. Most of our electricity.

Electricity and Magnetism 29 Alternating Currents and Power Transmission Chapter 29 Alternating Currents and Power Transmission.

PET-PHD project Project title: Design and Optimization of RFI Filter for DC to DC Converters.

Chapter 13 Principles of Electric Circuits, Conventional Flow, 9 th ed. Floyd © 2010 Pearson Higher Education, Upper Saddle River, NJ All Rights.

Application of the Electrothermal Average Inductor Model for Analyses of Boost Converters Krzysztof Górecki, Janusz Zarębski, Kalina Detka Gdynia Maritime.

Intro to AC. AC Alternating Current Flows in two directions. It can reverse many times per second. Intro to AC.

ELECTROMAGNETICS PREPARED BY: Patel Bhavik V Patel Nirav A. BE First Semester Electrical Engineering ACTIVE LEARNING ASSIGNMENTS.

Chapter 13 Principles of Electric Circuits, Conventional Flow, 9 th ed. Floyd © 2010 Pearson Higher Education, Upper Saddle River, NJ All Rights.

Today Course overview and information 09/16/2010 © 2010 NTUST.

Production and Control of High Voltage

Inductance and Inductive Reactance Inductance - the characteristic of an electrical ckt that oppose any change in current Symbol is “L” measured in a Henry.

Electromagnetic Induction

Chapter 31 Lecture 33: Alternating Current Circuits: II HW 11 (problems): 30.58, 30.65, 30.76, 31.12, 31.26, 31.46, 31.56, Due Friday, Dec 11. Final.

Chapter 8 Alternating Current Circuits. AC Circuit An AC circuit consists of a combination of circuit elements and an AC generator or source An AC circuit.

3/17/2014 PHYS , Dr. Andrew Brandt 1 PHYS 1442 – Section 004 Lecture #15 Monday March 17, 2014 Dr. Andrew Brandt Chapter 21 Generator Transformer.

Electromagnetic Induction. Motion of a magnet in a coil or loop creates (induces) voltage If coil is connected to complete circuit, current flows Relative.

Mutual Inductance As in a transformer, changing the current in the primary coil causes an induced voltage in the secondary coil i.e. mutual induction has.

Transformer The working principle of a transformer

ELECTRICAL MACHINE DET 204/3 JIMIRAFIZI BIN JAMIL Transformer CHAPTER 1.

POWER CIRCUIT & ELECTROMAGNETICS EET 221 Transformer.

The Different Types of Inductors and Their Affecting Factors

Practice Problems A horizontal wire is moving vertically upwards in a horizontal magnetic field of strength tesla which is perpendicular to the.

 Electromagnetic Induction – The production of an emf (the energy per unit charge supplied by a source of electric current) in a conducting circuit by.

Halliday/Resnick/Walker Fundamentals of Physics 8th edition

CCM Power Factor Correction Inductor Design with Powder Core

AQA Physics Magnetic Fields Section 7 Transformers.

Construction and working of TRANSFORMERs

Magnetic Circuits and Magnetic Materials

True-False Questions. A magnetic core material may exhibit hysteresis or saturation but not both.

1 ELECTRICAL TECHNOLOGY ERT 105/3 Define and analyze the principle of transformer, its parameters and structure. Describe and analyze Ideal transformer,

Electronics Technology Fundamentals Chapter 10 Inductors.

Electromagnetism Notes-3

EET 423 POWER ELECTRONICS -2

CHAPTER 4 SINGLE-PHASE TRANSFORMER

True-False Questions.

Electromagnetism Notes-3

PExprt Modeling Procedure

Electric Machine Transformers

Current flowing out Current flowing in 14-1

Krzysztof Górecki and Kalina Detka

Electric Circuits Fundamentals

Alternating Current Circuits

Unit-1 Transformer.

Presentation transcript:

Switching Power Supply Component Selection 7.2a Inductor Selection – Terminology

Inductor Overview Inductors are formed by a wire wound around a ferromagnetic core The type of core and the number of turns determines the inductance value Other characteristics are also determined by how the turns are wound, the thickness (gauge) of the wire used, the physical size of the inductor etc. 2

Inductor Overview – Specifications 3

Inductor Overview – Terminology L – Inductance –The property of an electric circuit by which an electromotive force is induced in it as the result of a changing magnetic flux. –This is the value that is calculated by converter design equations to determine the inductors ability to handle the desired output power and control ripple current. 4

Inductor Overview – Terminology DCR – DC Resistance –The resistance in a component due to the length and diameter of the winding wire used. Effects the efficiency of a power supple design. ACR – AC Resistance –The AC resistance of the wire due to the skin effect is not usually the primary AC loss but can be important at very high frequencies. The primary AC loss comes from losses in the core as the magnetic field transitions. This includes hysteresis and eddie current losses. 5

Inductor Overview – Terminology SRF – Self Resonant Frequency –The frequency at which the inductance of an inductor winding resonates naturally with the distributed capacitance characteristic of that winding. I sat – Saturation Current –The amount of current flowing through an inductor that causes the inductance to drop due to core saturation. 6

Inductor Overview – Terminology I rms – RMS Current –The amount of continuous current flowing through an inductor that causes the maximum allowable temperature to rise 7

Inductor Terminology - Shielding The picture shows the difference between the construction of a shielded and unshielded inductor Unshielded Inductor Flux: Shielded Inductor Flux: 8

Inductor Terminology – Core Material 1)Ferrite cores a)Come in a variety of shapes b)Operate at high switching frequencies c)Have fairly steep saturation of inductance. 2)Iron Powder cores a)Molded into a standard slug shape b)Higher core losses make it unsuitable for high switching frequencies c)Shallow saturation of inductance makes it very useful for high current low ripple designs. Typical Saturation Curve for Iron Powder Typical Saturation Curve for Ferrite 9

Thank you! 10