Figure 2.1: Energy Band gap Block Diagram
|
|
|
- Gervase Parrish
- 5 years ago
- Views:
Transcription
1 Figure 2.1: Energy Band gap Block Diagram Figure 2.2: Log Is Vs 10 3 /T Figure 2.3: Schematic Representation of a p-n Junction Diode Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 1
2 DETERMINATION OF ENERGY BAND GAP - SEMICONDUCTOR DIODE Expt. No.: AIM Date: To determine the band gap energy of a semi-conductor p-n junction diode. GENERAL OBJECIVE To evaluate the band gap energy of a p-n junction diode by measuring the current flow at different temperatures. SPECIFIC OBJECTIVES 1. To measure the current flow in the p-n junction diode at different temperatures 2. To calculate the band gap energy possessed by the given p-n junction diode from log I s vs 1/T graph 3. To identify the material of the semiconductor diode from the obtained band gap energy value APPARATUS REQUIRED Regulated power supply (3V dc at 150 ma) Semiconductor diode Thermometer ( 0-100ºC) Electric heater Micro ammeter Connecting wires FORMULA The energy band gap of the given semiconductor diode ev Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 2
3 TABLE-I To find slope of the graph between 10 3 / T and log Is S. No. Current Is Temperature T Temperature T 10 3 / T log Is μa (ºC) (K) K -1 Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 3
4 PREREQUISITE KNOWLEDGE 1. Valence Band The valence band is the highest range of electron energies in which electrons are normally present at absolute zero temperature. 2. Conduction band The conduction band is the lowest range of vacant electronic states which are immediate next to the valence band 3. Band gap energy It is defined as the energy gap existing between valence band and conduction band. 4. Semiconductor It is a material with a small but non-zero band gap that behaves as an insulator at absolute zero temperature. 5. Diode A diode is a specialized electronic component with two electrodes namely anode and cathode. Most diodes are made with semiconductor materials such as silicon or germanium. PROCEDURE 1. The main leads are connected to mains socket carrying 230V at 50 Hz AC. The diode and the thermometer are inserted into the holes of the oven. 2. The electric oven is switched on. 3. The electric oven heats the semiconductor diode and the temperature of the semiconductor diode increases from the room temperature. 4. When the temperature in the thermometer reaches 80ºC, the electric oven should be switched off. Now the temperature of the semiconductor diode falls. 5. Now the readings in the micro ammeter (I s ) are noted for every fall of 2ºC starting from 80ºC to room temperature. Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 4
5 OBSERVATION Slope obtained from the graph =.. CALCULATION E = Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 5
6 6. A graph is drawn by taking 10 3 / T along X- axis and log I s along Y-axis. The slope of the straight line is calculated and finally the band gap energy is calculated using the formula. RESULT The energy band gap of the given semiconductor diode E =.. ev APPLICATIONS Diodes exists in different forms such as signal diodes, Tunnel Diodes, Zener diodes, varactors, PIN- diodes etc., and they are mainly used as rectifiers (half-wave rectifier, full wave rectifier), light to current conversion (solar cell, photo diode) and current to light conversion (LED). VIVA VOCE QUESTIONS 1. Classify materials based on band gap energy 2. Compare elemental and compound semi-conductors. 3. Explain forward bias. 4. Explain reverse bias. Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 6
7 Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 7
8 STIMULATING QUESTIONS 1. The p-n junction diode should be forward biased. Justify the statement. 2. What happens to the electrical conductivity of conductors and semiconductors if the temperature is increased? FORMATIVE ASSESSMENT 1. Majority carriers of n-type semiconductors are a) Holes b) Electrons c) protons d) neutrons 2. Band gap energy of silicon is found to be a) 1.1 ev b) 0.7 ev c) 1.5 ev d) 0 ev 3. Movement of majority carriers is represented as a) diffusion current b) drift current c) leakage current d) saturation current Department of Physical Sciences, Bannari Amman Institute of Technology, Sathyamangalam 8
1) A silicon diode measures a low value of resistance with the meter leads in both positions. The trouble, if any, is
1) A silicon diode measures a low value of resistance with the meter leads in both positions. The trouble, if any, is A [ ]) the diode is open. B [ ]) the diode is shorted to ground. C [v]) the diode is
Chapter Semiconductor Electronics
Chapter Semiconductor Electronics Q1. p-n junction is said to be forward biased, when [1988] (a) the positive pole of the battery is joined to the p- semiconductor and negative pole to the n- semiconductor
THERMIONIC AND GASEOUS STATE DIODES
THERMIONIC AND GASEOUS STATE DIODES Thermionic and gaseous state (vacuum tube) diodes Thermionic diodes are thermionic-valve devices (also known as vacuum tubes, tubes, or valves), which are arrangements
IENGINEERS- CONSULTANTS QUESTION BANK SERIES ELECTRONICS ENGINEERING 1 YEAR UPTU
ELECTRONICS ENGINEERING Unit 1 Objectives Q.1 The breakdown mechanism in a lightly doped p-n junction under reverse biased condition is called. (A) avalanche breakdown. (B) zener breakdown. (C) breakdown
Diode conducts when V anode > V cathode. Positive current flow. Diodes (and transistors) are non-linear device: V IR!
Diodes: What do we use diodes for? Lecture 5: Diodes and Transistors protect circuits by limiting the voltage (clipping and clamping) turn AC into DC (voltage rectifier) voltage multipliers (e.g. double
The Discussion of this exercise covers the following points:
Exercise 1 The Diode EXERCISE OBJECTIVE When you have completed this exercise, you will be familiar with the operation of a diode. DISCUSSION OUTLINE The Discussion of this exercise covers the following
6. Bipolar Diode. Owing to this one-direction conductance, current-voltage characteristic of p-n diode has a rectifying shape shown in Fig. 2.
33 6. Bipolar Diode 6.1. Objectives - to experimentally observe temperature dependence of the current flowing in p-n junction silicon and germanium diodes; - to measure current-voltage characteristics
Downloaded from
Question 14.1: In an n-type silicon, which of the following statement is true: (a) Electrons are majority carriers and trivalent atoms are the dopants. (b) Electrons are minority carriers and pentavalent
Electronic Devices 1. Current flowing in each of the following circuits A and respectively are: (Circuit 1) (Circuit 2) 1) 1A, 2A 2) 2A, 1A 3) 4A, 2A 4) 2A, 4A 2. Among the following one statement is not
EXPERIMENTS USING SEMICONDUCTOR DIODES
EXPERIMENT 9 EXPERIMENTS USING SEMICONDUCTOR DIODES Semiconductor Diodes Structure 91 Introduction Objectives 92 Basics of Semiconductors Revisited 93 A p-n Junction Operation of a p-n Junction A Forward
UNIT IX ELECTRONIC DEVICES
UNT X ELECTRONC DECES Weightage Marks : 07 Semiconductors Semiconductors diode-- characteristics in forward and reverse bias, diode as rectifier. - characteristics of LED, Photodiodes, solarcell and Zener
Objective Type Questions 1. Why pure semiconductors are insulators at 0 o K? 2. What is effect of temperature on barrier voltage? 3.
Objective Type Questions 1. Why pure semiconductors are insulators at 0 o K? 2. What is effect of temperature on barrier voltage? 3. What is difference between electron and hole? 4. Why electrons have
SEMICONDUCTOR ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS. Class XII : PHYSICS WORKSHEET
SEMICONDUCT ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS Class XII : PHYSICS WKSHEET 1. How is a n-p-n transistor represented symbolically? (1) 2. How does conductivity of a semiconductor change
ELECTRONIC DEVICES AND CIRCUITS
ELECTRONIC DEVICES AND CIRCUITS 1. At room temperature the current in an intrinsic semiconductor is due to A. holes B. electrons C. ions D. holes and electrons 2. Work function is the maximum energy required
Lecture 4. pn Junctions (Diodes) Wednesday 27/9/2017 pn junctions 1-1
Lecture 4 n Junctions (Diodes) Wednesday 27/9/2017 n junctions 1-1 Agenda Continue n junctions Equilibrium (zero bias) Deletion rejoins Built-in otential Reverse and forward bias I-V characteristics Bias
BASIC ELECTRONICS ENGINEERING
BASIC ELECTRONICS ENGINEERING Objective Questions UNIT 1: DIODES AND CIRCUITS 1 2 3 4 5 6 7 8 9 10 11 12 The process by which impurities are added to a pure semiconductor is A. Diffusing B. Drift C. Doping
Electro - Principles I
The PN Junction Diode Introduction to the PN Junction Diode Note: In this chapter we consider conventional current flow. Page 11-1 The schematic symbol for the pn junction diode the shown in Figure 1.
Made of semiconducting materials: silicon, gallium arsenide, indium phosphide, gallium nitride, etc. (EE 332 stuff.)
Diodes Simple two-terminal electronic devices. Made of semiconducting materials: silicon, gallium arsenide, indium phosphide, gallium nitride, etc. (EE 332 stuff.) Semiconductors are interesting because
Energy band diagrams Metals: 9. ELECTRONIC DEVICES GIST ρ= 10-2 to 10-8 Ω m Insulators: ρ> 10 8 Ω m Semiconductors ρ= 1 to 10 5 Ω m 109 A. Intrinsic semiconductors At T=0k it acts as insulator At room
Wallace Hall Academy. CfE Higher Physics. Unit 3 - Electricity Notes Name
Wallace Hall Academy CfE Higher Physics Unit 3 - Electricity Notes Name 1 Electrons and Energy Alternating current and direct current Alternating current electrons flow back and forth several times per
Light Emitting Diodes
Light Emitting Diodes Topics covered in this presentation: LED operation LED Characteristics Display devices Protection and limiting 1 of 9 Light Emitting Diode - LED A special type of diode is the Light
KOM2751 Analog Electronics :: Dr. Muharrem Mercimek :: YTU - Control and Automation Dept. 1 1 (CONT D) DIODES
KOM2751 Analog Electronics :: Dr. Muharrem Mercimek :: YTU - Control and Automation Dept. 1 1 (CONT D) DIODES Most of the content is from the textbook: Electronic devices and circuit theory, Robert L.
Class XII - Physics Semiconductor Electronics. Chapter-wise Problems
lass X - Physics Semiconductor Electronics Materials, Device and Simple ircuit hapter-wise Problems Multiple hoice Question :- 14.1 The conductivity of a semiconductor increases with increase in temperature
10/27/2009 Reading: Chapter 10 of Hambley Basic Device Physics Handout (optional)
EE40 Lec 17 PN Junctions Prof. Nathan Cheung 10/27/2009 Reading: Chapter 10 of Hambley Basic Device Physics Handout (optional) Slide 1 PN Junctions Semiconductor Physics of pn junctions (for reference
2 MARKS EE2203 ELECTRONIC DEVICES AND CIRCUITS UNIT 1
2 MARKS EE2203 ELECTRONIC DEVICES AND CIRCUITS UNIT 1 1. Define PN junction. When a p type semiconductor is joined to a N type semiconductor the contact surface is called PN junction. 2. What is an ideal
Electron Devices and Circuits (EC 8353)
Electron Devices and Circuits (EC 8353) Prepared by Ms.S.KARKUZHALI, A.P/EEE Diodes The diode is a 2-terminal device. A diode ideally conducts in only one direction. Diode Characteristics Conduction Region
Chapter 14 Semiconductor Electronics Materials Devices And Simple Circuits
Class XII Chapter 14 Semiconductor Electronics Materials Devices And Simple Circuits Physics Question 14.1: In an n-type silicon, which of the following statement is true: (a) Electrons are majority carriers
Field - Effect Transistor
Page 1 of 6 Field - Effect Transistor Aim :- To draw and study the out put and transfer characteristics of the given FET and to determine its parameters. Apparatus :- FET, two variable power supplies,
EC6202- ELECTRONIC DEVICES AND CIRCUITS UNIT TEST-1 EXPECTED QUESTIONS
EC6202- ELECTRONIC DEVICES AND CIRCUITS UNIT TEST-1 EXPECTED QUESTIONS 1. List the PN diode parameters. 1. Bulk Resistance. 2. Static Resistance/Junction Resistance (or) DC Forward Resistance 3. Dynamic
LAB IV. SILICON DIODE CHARACTERISTICS
LAB IV. SILICON DIODE CHARACTERISTICS 1. OBJECTIVE In this lab you will measure the I-V characteristics of the rectifier and Zener diodes, in both forward and reverse-bias mode, as well as learn what mechanisms
Basic Electronics Important questions
Basic Electronics Important questions B.E-2/4 Mech- B Faculty: P.Lakshmi Prasanna Note: Read the questions in the following order i. Assignment questions ii. Class test iii. Expected questions iv. Tutorials
Silicon Controlled Rectifier
Page 1 of 5 Silicon Controlled Rectifier Aim :- To draw and study the forward and reverse volt ampere characteristics of the Silicon Controlled Rectifier. Apparatus :- Silicon Controlled Rectifier, voltmeter,
Chapter 1: Diode circuits
Analog Electronics Circuits Nagamani A N Lecturer, PESIT, Bangalore 85 Email nagamani@pes.edu Chapter 1: Diode circuits Objective To understand the diode operation and its equivalent circuits To understand
Physics 281 EXPERIMENT 7 I-V Curves of Non linear Device
Physics 281 EXPERIMENT 7 I-V Curves of Non linear Device Print this page to start your lab report (1 copy) Bring a diskette to save your data. OBJECT: To study the method of obtaining the characteristics
Electronic Circuits I. Instructor: Dr. Alaa Mahmoud
Electronic Circuits I Instructor: Dr. Alaa Mahmoud alaa_y_emam@hotmail.com Chapter 27 Diode and diode application Outline: Semiconductor Materials The P-N Junction Diode Biasing P-N Junction Volt-Ampere
Physics 160 Lecture 5. R. Johnson April 13, 2015
Physics 160 Lecture 5 R. Johnson April 13, 2015 Half Wave Diode Rectifiers Full Wave April 13, 2015 Physics 160 2 Note that there is no ground connection on this side of the rectifier! Output Smoothing
Sharjah Indian School, Sharjah ELECTRONIC DEVICES - Class XII (Boys Wing) Page 01
ELECTRONIC DEVICES - Class XII (Boys Wing) Page 01 Electronics is the fast developing branch of Physics. Before the discovery of transistors in 1948, vacuum tubes (thermionic valves) were used as the building
Module 04.(B1) Electronic Fundamentals
1.1a. Semiconductors - Diodes. Module 04.(B1) Electronic Fundamentals Question Number. 1. What gives the colour of an LED?. Option A. The active element. Option B. The plastic it is encased in. Option
Chapter 1: Semiconductor Diodes
Chapter 1: Semiconductor Diodes Diodes The diode is a 2-terminal device. A diode ideally conducts in only one direction. 2 Diode Characteristics Conduction Region Non-Conduction Region The voltage across
TO INVESTIGATE THE VARIATION OF CURRENT (I) WITH P.D. (V) FOR (a) A METALLIC CONDUCTOR
FOR (a) A METALLIC CONDUCTOR Low voltage power supply, rheostat, voltmeter, ammeter, length of nichrome wire. 6 A - Nichrome wire 1. Set up the circuit as shown and set the voltage supply at 6 d.c. 2.
Electronics I. Midterm #1
The University of Toledo Section s7ms_elct7.fm - Electronics I Midterm # Problems Points. 4 2. 5 3. 6 Total 5 Was the exam fair? yes no The University of Toledo s7ms_elct7.fm - 2 Problem 4 points For full
Reg. No. : Question Paper Code : B.E./B.Tech. DEGREE EXAMINATION, NOVEMBER/DECEMBER Second Semester
WK 5 Reg. No. : Question Paper Code : 27184 B.E./B.Tech. DEGREE EXAMINATION, NOVEMBER/DECEMBER 2015. Time : Three hours Second Semester Electronics and Communication Engineering EC 6201 ELECTRONIC DEVICES
semiconductor p-n junction Potential difference across the depletion region is called the built-in potential barrier, or built-in voltage:
Chapter four The Equilibrium pn Junction The Electric field will create a force that will stop the diffusion of carriers reaches thermal equilibrium condition Potential difference across the depletion
EE/COE 152: Basic Electronics. Lecture 3. A.S Agbemenu. https://sites.google.com/site/agbemenu/courses/ee-coe-152
EE/COE 152: Basic Electronics Lecture 3 A.S Agbemenu https://sites.google.com/site/agbemenu/courses/ee-coe-152 Books: Microelcetronic Circuit Design (Jaeger/Blalock) Microelectronic Circuits (Sedra/Smith)
The Semiconductor Diode
Physics Topics The Semiconductor Diode If necessary, review the following topics and relevant textbook sections from Neamen Semiconductor Physics and Devices, 4th Ed. Section 8.1.5, especially equation
FINALTERM EXAMINATION. Spring PHY301- Circuit Theory
Date 14/2/2013 Eini FINALTERM EXAMINATION Spring 2010 PHY301- Circuit Theory Time: 90 min Marks: 60 Question No: 1 If we connect 3 capacitors in parallel, the combined effect of all these capacitors will
Analog Electronic Circuits
Analog Electronic Circuits Chapter 1: Semiconductor Diodes Objectives: To become familiar with the working principles of semiconductor diode To become familiar with the design and analysis of diode circuits
CHAPTER 1 DIODE CIRCUITS. Semiconductor act differently to DC and AC currents
CHAPTER 1 DIODE CIRCUITS Resistance levels Semiconductor act differently to DC and AC currents There are three types of resistances 1. DC or static resistance The application of DC voltage to a circuit
OFCS OPTICAL DETECTORS 11/9/2014 LECTURES 1
OFCS OPTICAL DETECTORS 11/9/2014 LECTURES 1 1-Defintion & Mechanisms of photodetection It is a device that converts the incident light into electrical current External photoelectric effect: Electrons are
Physics 15b, Lab 3: The Capacitor... and a glimpse of Diodes
Phys 15b: Lab 3, Sprng 2007 1 Due Friday, March 23, 2007. Physics 15b, Lab 3: The Capacitor... and a glimpse of Diodes REV0 1 ; March 14, 2007 NOTE that this is the first of the labs that you are invited
CHARACTERISTICS OF SEMICONDUCTOR DIODE
Exp. No #1 CHARACTERISTICS OF SEMICONDUCTOR DIODE Date: OBJECTIVE The purpose of the experiment is to examine characteristics of a silicon diode and to determine the barrier potential of the diode. From
Lecture 7:PN Junction. Structure, Depletion region, Different bias Conditions, IV characteristics, Examples
Lecture 7:PN Junction Structure, Depletion region, Different bias Conditions, IV characteristics, Examples PN Junction The diode (pn junction) is formed by dopping a piece of intrinsic silicon, such that
SRM INSTITUTE OF SCIENCE AND TECHNOLOGY (DEEMED UNIVERSITY)
SRM INSTITUTE OF SCIENCE AND TECHNOLOGY (DEEMED UNIVERSITY) QUESTION BANK I YEAR B.Tech (II Semester) ELECTRONIC DEVICES (COMMON FOR EC102, EE104, IC108, BM106) UNIT-I PART-A 1. What are intrinsic and
Lesson 08. Name and affiliation of the author: Professor L B D R P Wijesundera Department of Physics, University of Kelaniya.
Lesson 08 Title of the Experiment: Identification of active components in electronic circuits and characteristics of a Diode, Zener diode and LED (Activity number of the GCE Advanced Level practical Guide
Electronic devices-i. Difference between conductors, insulators and semiconductors
Electronic devices-i Semiconductor Devices is one of the important and easy units in class XII CBSE Physics syllabus. It is easy to understand and learn. Generally the questions asked are simple. The unit
Basic Electronics Learning by doing Prof. T.S. Natarajan Department of Physics Indian Institute of Technology, Madras
Basic Electronics Learning by doing Prof. T.S. Natarajan Department of Physics Indian Institute of Technology, Madras Lecture 38 Unit junction Transistor (UJT) (Characteristics, UJT Relaxation oscillator,
Electronics I. Midterm #1
The University of Toledo s6ms_elct7.fm - Electronics I Midterm # Problems Points. 4 2. 5 3. 6 Total 5 Was the exam fair? yes no The University of Toledo s6ms_elct7.fm - 2 Problem 4 points For full credit,
Università degli Studi di Roma Tor Vergata Dipartimento di Ingegneria Elettronica. Analogue Electronics. Paolo Colantonio A.A.
Università degli Studi di Roma Tor Vergata Dipartimento di Ingegneria Elettronica Analogue Electronics Paolo Colantonio A.A. 2015-16 Introduction: materials Conductors e.g. copper or aluminum have a cloud
Farr High School HIGHER PHYSICS. Unit 3 Electricity. Exam Question Booklet
Farr High School HIGHER PHYSICS Unit 3 Electricity Exam Question Booklet 1 2 MULTIPLE CHOICE QUESTIONS 1. 3. 2. 4. 3 5. 6. 7. 4 8. 9. 5 10. 11. 6 12. 13. 14. 7 15. 16. 17. 8 18. 20. 21. 19. 9 MONITORING
Diodes. Analog Electronics Lesson 4. Objectives and Overview:
Analog Electronics Lesson 4 Diodes Objectives and Overview: This lesson will introduce p- and n-type material, how they form a junction that rectifies current, and familiarize you with basic p-n junction
Laboratory No. 01: Small & Large Signal Diode Circuits. Electrical Enginnering Departement. By: Dr. Awad Al-Zaben. Instructor: Eng.
Laboratory No. 01: Small & Large Signal Diode Circuits Electrical Enginnering Departement By: Dr. Awad Al-Zaben Instructor: Eng. Tamer Shahta Electronics Laboratory EE 3191 February 23, 2014 I. OBJECTIVES
Term Roadmap : Materials Types 1. INSULATORS
Term Roadmap : Introduction to Signal Processing Differentiating and Integrating Circuits (OpAmps) Clipping and Clamping Circuits(Diodes) Design of analog filters Sinusoidal Oscillators Multivibrators
Electromagnetic spectrum
Slide 1 Electromagnetic spectrum insert wavelengths of blue to red. 6.071 Optoelectronics 1 Slide 2 Electromagnetic spectrum E = hν = kt e E - Energy k - Plank s constant ν - frequency k - Boltzman s constant
EDC Lecture Notes UNIT-1
P-N Junction Diode EDC Lecture Notes Diode: A pure silicon crystal or germanium crystal is known as an intrinsic semiconductor. There are not enough free electrons and holes in an intrinsic semi-conductor
Battery Charger Circuit Using SCR
Battery Charger Circuit Using SCR Introduction to SCR: SCR is abbreviation for Silicon Controlled Rectifier. SCR has three pins anode, cathode and gate as shown in the below figure. It is made up of there
15 - SEMICONDUCTOR ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS Page 1
15.1 Introduction MATERIALS, DEVICES AND SIMPLE CIRCUITS Page 1 The word electronics is coined from the words electron mechanics. The subject of electronics deals with the study of devices in which specific
NEW HORIZON PRE UNIVERSITY COLLEGE LESSON PLAN FOR THE ACADEMIC YEAR Department of ELECTRONICS
NEW HORIZON PRE UNIVERSITY COLLEGE LESSON PLAN FOR THE ACADEMIC YEAR 2017 2018 Department of ELECTRONICS I PUC Month: JUNE I 1. INTRODUCTION TO ELECTRONICS Electronics and its scope: Development of vacuum
Section:A Very short answer question
Section:A Very short answer question 1.What is the order of energy gap in a conductor, semi conductor, and insulator?. Conductor - no energy gap Semi Conductor - It is of the order of 1 ev. Insulator -
Intrinsic Semiconductor
Semiconductors Crystalline solid materials whose resistivities are values between those of conductors and insulators. Good electrical characteristics and feasible fabrication technology are some reasons
Discuss the basic structure of atoms Discuss properties of insulators, conductors, and semiconductors
Discuss the basic structure of atoms Discuss properties of insulators, conductors, and semiconductors Discuss covalent bonding Describe the properties of both p and n type materials Discuss both forward
Downloaded from
SOLID AND SEMICONDUCTOR DEVICES (EASY AND SCORING TOPIC) 1. Distinction of metals, semiconductor and insulator on the basis of Energy band of Solids. 2. Types of Semiconductor. 3. PN Junction formation
Diodes and Applications
Diodes and Applications Diodes and Applications 2 1 Diode Operation 2 2 Voltage-Current (V-I) Characteristics 2 3 Diode Models 2 4 Half-Wave Rectifiers 2 5 Full-Wave Rectifiers 2 6 Power Supply Filters
EECE251 Circuit Analysis I Set 6: Diodes
EECE251 Circuit Analysis I Set 6: Diodes Shahriar Mirabbasi Department of Electrical and Computer Engineering University of British Columbia shahriar@ece.ubc.ca Thanks to Dr. Linares and Dr. Yan for sharing
SEMICONDUCTOR ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS
Chapter Fourteen SEMICONDUCTOR ELECTRONICS: MATERIALS, DEVICES AND SIMPLE CIRCUITS 14.1 INTRODUCTION Devices in which a controlled flow of electrons can be obtained are the basic building blocks of all
DE52/DC52 FUNDAMENTALS OF ELECTRICAL & ELECT ENGG DEC 2014
Q.2 a. Derive an expression for the current flowing at any instant during the discharge of a capacitor C across a resistor R. b. The coil of a moving coil instrument is wound with 50 turns of wire. The
Concepts to be Covered
Introductory Medical Device Prototyping Analog Circuits Part 2 Semiconductors, http://saliterman.umn.edu/ Department of Biomedical Engineering, University of Minnesota Concepts to be Covered Semiconductors
PN Junction Diode Table of Contents. What Are Diodes Made Out Of?
PN Junction iode Table of Contents What are diodes made out of?slide 3 N-type materialslide 4 P-type materialslide 5 The pn junctionslides 6-7 The biased pn junctionslides 8-9 Properties of diodesslides
Diodes Rectifiers, Zener diodes light emitting diodes, laser diodes photodiodes, optocouplers
Diodes Rectifiers, Zener diodes light emitting diodes, laser diodes photodiodes, optocouplers Prepared by Scott Robertson Fall 2007 Physics 3330 1 Impurity-doped semiconductors Semiconductors (Ge, Si)
Unless otherwise specified, assume room temperature (T = 300 K).
ECE 3040 Dr. Doolittle Homework 4 Unless otherwise specified, assume room temperature (T = 300 K). 1) Purpose: Understanding p-n junction band diagrams. Consider a p-n junction with N A = 5x10 14 cm -3
Semiconductor Devices Lecture 5, pn-junction Diode
Semiconductor Devices Lecture 5, pn-junction Diode Content Contact potential Space charge region, Electric Field, depletion depth Current-Voltage characteristic Depletion layer capacitance Diffusion capacitance
UNIT VIII-SPECIAL PURPOSE ELECTRONIC DEVICES. 1. Explain tunnel Diode operation with the help of energy band diagrams.
UNIT III-SPECIAL PURPOSE ELECTRONIC DEICES 1. Explain tunnel Diode operation with the help of energy band diagrams. TUNNEL DIODE: A tunnel diode or Esaki diode is a type of semiconductor diode which is
f14m1s_elct7.fm - 1 The University of Toledo EECS:3400 Electronocs I Electronics I Problems Points Total 15 Was the exam fair?
f4ms_elct7.fm - Electronics I Midterm I Examination Problems Points. 4 2. 5 3. 6 Total 5 Was the exam fair? yes no f4ms_elct7.fm - 2 Problem 4 points For full credit, mark your answers yes, no, or not
Semiconductor Devices
About the Tutorial The electronic components exploiting the electronic properties of semiconductor materials, are termed as semiconductor devices. This tutorial discusses the functional operation of semiconductor
13. SEMICONDUCTOR DEVICES
Synopsis: 13. SEMICONDUCTOR DEVICES 1. Solids are classified into two categories. a) Crystalline solids b) Amorphous solids 2. Crystalline solids : Crystalline solids have orderly arrangement of atoms
7. Bipolar Junction Transistor
41 7. Bipolar Junction Transistor 7.1. Objectives - To experimentally examine the principles of operation of bipolar junction transistor (BJT); - To measure basic characteristics of n-p-n silicon transistor
Electronics The basics of semiconductor physics
Electronics The basics of semiconductor physics Prof. Márta Rencz, Gábor Takács BME DED 17/09/2015 1 / 37 The basic properties of semiconductors Range of conductivity [Source: http://www.britannica.com]
Figure 1: Diode Measuring Circuit
Diodes, Page 1 Diodes V-I Characteristics signal diode Measure the voltage-current characteristic of a standard signal diode, the 1N914, using the circuit shown in Figure 1 below. The purpose of the back-to-back
6. Bipolar Diode. Owing to this one-direction conductance, current-voltage characteristic of p-n diode has a rectifying shape shown in Fig. 2.
36 6. Bipolar Diode 6.1. Objectives - To experimentally observe temperature dependence of the current flowing in p-n junction silicon and germanium diodes; - To measure current-voltage characteristics
Exercise 12. Semiconductors EXERCISE OBJECTIVE DISCUSSION OUTLINE DISCUSSION. Introduction to semiconductors. The diode
Exercise 12 Semiconductors EXERCISE OBJECTIVE When you have completed this exercise, you will be familiar with the operation of a diode. You will learn how to use a diode to rectify ac voltage to produce
Ch5 Diodes and Diodes Circuits
Circuits and Analog Electronics Ch5 Diodes and Diodes Circuits 5.1 The Physical Principles of Semiconductor 5.2 Diodes 5.3 Diode Circuits 5.4 Zener Diode References: Floyd-Ch2; Gao-Ch6; 5.1 The Physical
OBJECTIVE TYPE QUESTIONS FOR PRACTICAL EXAMINATION Subject : Electronics-I ( EC 112)
OBJECTIVE TYPE QUESTIONS FOR PRACTICAL EXAMINATION Subject : Electronics-I ( EC 112) 1. Which mathematical notation specifies the condition of periodicity for a continuous time signal? a. x(t) = x( t +T)
EECE 2413 Electronics Laboratory
EECE 2413 Electronics Laboratory Lab #2: Diode Circuits Goals In this lab you will become familiar with several different types of pn-junction diodes. These include silicon and germanium junction diodes,
Shankersinh Vaghela Bapu Institute of Technology INDEX
Shankersinh Vaghela Bapu Institute of Technology Diploma EE Semester III 3330905: ELECTRONIC COMPONENTS AND CIRCUITS INDEX Sr. No. Title Page Date Sign Grade 1 Obtain I-V characteristic of Diode. 2 To
Diode Bridges. Book page
Diode Bridges Book page 450-454 Rectification The process of converting an ac supply into dc is called rectification The device that carries this out is called a rectifier Half wave rectifier only half
Lecture 5: Diode, Rectifier and Capacitor. Bo Wang Division of Information & Computing Technology Hamad Bin Khalifa University
Lecture 5: Diode, Rectifier and Capacitor Bo Wang Division of Information & Computing Technology Hamad Bin Khalifa University bwang@hbku.edu.qa 1 Why Rectifying? Voltage and current delivered from the
ENG2210 Electronic Circuits. Chapter 3 Diodes
ENG2210 Electronic Circuits Mokhtar A. Aboelaze York University Chapter 3 Diodes Objectives Learn the characteristics of ideal diode and how to analyze and design circuits containing multiple diodes Learn
Electronic Component Applications
Western Technical College 10660124 Electronic Component Applications Course Outcome Summary Course Information Description Career Cluster Instructional Level Total Credits 2.00 Total Hours 60.00 Solid
LM134/LM234/LM334 3-Terminal Adjustable Current Sources
3-Terminal Adjustable Current Sources General Description The are 3-terminal adjustable current sources featuring 10,000:1 range in operating current, excellent current regulation and a wide dynamic voltage
CHADALAWADA RAMANAMMA ENGINEERING COLLEGE (AUTONOMOUS) Chadalawada Nagar, Renigunta Road, Tirupati
ELECTRONIC DEVICES AND CIRCUITS LABORATORY MANUAL Subject Code : 17CA04305 Regulations : R17 Class : III Semester (ECE) CHADALAWADA RAMANAMMA ENGINEERING COLLEGE (AUTONOMOUS) Chadalawada Nagar, Renigunta
EXPERIMENT 10: SCHOTTKY DIODE CHARACTERISTICS
EXPERIMENT 10: SCHOTTKY DIODE CHARACTERISTICS AIM: To plot forward and reverse characteristics of Schottky diode (Metal Semiconductor junction) APPARATUS: D.C. Supply (0 15 V), current limiting resistor