Ashraful Haider Chowdhury

Slides:

Advertisements

Similar presentations

Thyristors Why Thyristors?.

Advertisements

Power Semiconductor Systems I

CHAPTER SEVEN (New textbook)

Instructor: Eng.Moayed N. EL Mobaied

Chapter 20: pnpn and Other Devices

Instructor: Eng.Moayed N. EL Mobaied

Unijunction Transistor Circuit Templates

POWER ELECTRONICS Instructor: Eng.Moayed N. EL Mobaied The Islamic University of Gaza Faculty of Engineering Electrical Engineering Department بسم الله.

POWER ELECTRONICS Instructor: Eng. Jalal Al Roumy The Islamic University of Gaza Faculty of Engineering Electrical Engineering Department بسم الله الرحمن.

Electronic Devices Ninth Edition Floyd Chapter 11.

Recall Last Lecture DC Analysis and Load Line

Thyristors Introduction & Characteristics

INSTITUTE OF APPLIED TECHNOLOGY FUJAIRAH

Power Electronics Dr. Imtiaz Hussain Assistant Professor URL :

10/8/2004EE 42 fall 2004 lecture 171 Lecture #17 MOS transistors MIDTERM coming up a week from Monday (October 18 th ) Next Week: Review, examples, circuits.

ECE 442 Power Electronics1 SCR/Thyrisitor pnpn structure with 3 pn junctions.

SCR/Thyrisitor pnpn structure with 3 pn junctions.

PN-Junction Diode Characteristics

Power Electronics Lecture-7 Unijunction Transistor &

Power Electronics Introduction Bipolar Transistor Power Amplifiers

POWER ELECTRONICS EE‐312 Engr.Talha Ahmed Khan. Introduction to Power Electronics Power Electronics = Power + Control + Electronics Control deals with.

Semiconductor Power Switches and Supplementary Components and Systems.

Diode. Introduction A diode is an electrical device allowing current to move through it in one direction with far greater ease than in the other.

Diode :- Clamper Positive Clamper The circuit for a positive clamper is shown in the figure. During the negative half cycle of the input signal, the diode.

Electronic Circuit Analysis and Design Second Edition

Electronic Troubleshooting

Thyristor Devices Silicon Controlled Rectifiers (SCR)

Thyristors and Optical Devices

Thyristors Chapter 15.

© The McGraw-Hill Companies, Inc McGraw-Hill 1 PRINCIPLES AND APPLICATIONS OF ELECTRICAL ENGINEERING THIRD EDITION G I O R G I O R I Z Z O N I 11.

Chapter 24 Thyristors. 2 Objectives –After completing this chapter, the student should be able to: Identify common types of thyristors. Describe how an.

SEMICONDUCTORS Thyristor.

COMSATS Institute of Information Technology Virtual campus Islamabad

Gate Turn-Off Thyristor

SEMICONDUCTORS Triacs and Diacs.

Diode: Application Half-Wave Rectifier

Ashraful Haider Chowdhury

Chapter 17 pnpn and Other Devices

Ping Hsu Buff Furman John Luk 21SEP2010

Power Semi-Conductors. Learning Outcomes At the end of the lesson, students should be able to : Explain the characteristic and operation of Silicon Controlled.

32 Thyristors Chapter Topics Covered in Chapter : Diacs

Four Layer Devices Electrical and Electronic Principles.

PN-Junction Diode Characteristics

SAMPLE AND HOLD CIRCUIT. CIRCUIT CONSTRUCTION The circuit samples the input and holds the last sample until the input sampled again. The circuit has an.

Analysis of Diode Circuits using the Ideal Diode Model

Diode Rectifier Circuits Section 4.5. In this Lecture, we will:  Determine the operation and characteristics of diode rectifier circuits, which is the.

Triacs and Diacs A power device with four layers conducts in one direction only. Bidirectional device may be obtained by connecting two of these back-to-back.

Power Electronics Dr. Imtiaz Hussain Assistant Professor URL :

Diodes Ping Hsu Buff Furman John Luk. Mechatronics Concept Map System to Control Sensor Signal Conditioning Controller (Hardware & Software) Power Interface.

controlled rectifiers (Ac-dc converters)

5-5- High power switching systems Which includes: general thyristor Characteristics DC switching circuits AC switching circuits.

الثايرستور Thyristor Anode (Aluminum) Cathode P n P Gate terminal welded to p region J1 J2 J3 n Threaded stud P N P N J1 J2 J3 K G1 G2 or.

Types Of Thyristors And Their Applications

Gate Turn On Turn Off Thyristors. What is a thyristor? Thyristors are power semiconductor devices used in power electronic circuits They are operated.

Power Electronics. Power Electronics Why Germanium is not used for manufacturing Controlled Rectifiers.

Chapter 2 Power Electronic Devices

Introduction to the pn-junction Diode

Power Semiconductor Systems I

Dr John Fletcher Rm 131 Power Electronics Dr John Fletcher Rm 131.

Thyristors Thyristor is a four layer, semiconductor of p-n-p-n structure with three p-n junctions. It has three terminals: the anode, the cathode and.

Institute of Technology

Subject Name: POWER ELECTRONICS Subject Code: 10EC73

Rectification and Diodes

SCR / Thyristor Circuit Symbol and Terminal Identification.

UNIT 3 THYRISTORS 11/27/2018.

Power Electronics Introduction Bipolar Transistor Power Amplifiers

Diodes AIM: To understand diode characteristics

Dr. Unnikrishnan P.C. Professor, EEE

Introduction & Types Youtube: Power Electronics

Presentation transcript:

Ashraful Haider Chowdhury Thyristors EEE 481 Ashraful Haider Chowdhury Lecturer, EEE Dept. Eastern University

SCR / Thyristor Circuit Symbol and Terminal Identification

SCR / Thyristor Anode and Cathode terminals as conventional pn junction diode Gate terminal for a controlling input signal

SCR/ Thyristor An SCR (Thyristor) is a “controlled” rectifier (diode) Control the conduction under forward bias by applying a current into the Gate terminal Under reverse bias, looks like conventional pn junction diode

SCR / Thyristor 4-layer (pnpn) device Anode 4-layer (pnpn) device Anode, Cathode as for a conventional pn junction diode Cathode Gate brought out for controlling input P N Gate P N Cathode

Equivalent Circuit ANODE P N N GATE P P N CATHODE

Apply Biasing With the Gate terminal OPEN, both transistors are OFF. As the applied voltage increases, there will be a “breakdown” that causes both transistors to conduct (saturate) making IF > 0 and VAK = 0. VBreakdown = VBR(F) IF IC2=IB1 IC1 = IB2 IF

Volt-Ampere Characteristic IF Holding Current IH VBR(F) VAK Breakdown Voltage

Different Gate Current

Apply a Gate Current For 0 < VAK < VBR(F), Turn Q2 ON by applying a current into the Gate This causes Q1 to turn ON, and eventually both transistors SATURATE VAK = VCEsat + VBEsat If the Gate pulse is removed, Q1 and Q2 still stay ON! IF IC2 = IB1 IB2 VG IF

How do you turn it OFF? Cause the forward current to fall below the value if the “holding” current, IH Reverse bias the device

SCR Application – Power Control When the voltage across the capacitor reaches the “trigger-point” voltage of the device, the SCR turns ON, current flows in the Load for the remainder of the positive half-cycle. Current flow stops when the applied voltage goes negative.

Input / Output Voltages

Look at the LOAD Current Conduction time  Conduction Angle = 180 -  “Firing” time  Firing Angle ()