Lecture 9: Limiting and Clamping Diode Circuits. Voltage Doubler. Special Diode Types.

Similar documents
Lecture 3: Diodes. Amplitude Modulation. Diode Detection.

Università degli Studi di Roma Tor Vergata Dipartimento di Ingegneria Elettronica. Analogue Electronics. Paolo Colantonio A.A.

Diodes (non-linear devices)

Semiconductor Devices Lecture 5, pn-junction Diode

Diode Limiters or Clipper Circuits

Lecture 7:PN Junction. Structure, Depletion region, Different bias Conditions, IV characteristics, Examples

R. W. Erickson. Department of Electrical, Computer, and Energy Engineering University of Colorado, Boulder

Photodiode: LECTURE-5

CHAPTER 8 The pn Junction Diode

UNIT VIII-SPECIAL PURPOSE ELECTRONIC DEVICES. 1. Explain tunnel Diode operation with the help of energy band diagrams.

Problem 4 Consider a GaAs p-n + junction LED with the following parameters at 300 K: Electron diusion coecient, D n = 25 cm 2 =s Hole diusion coecient

55:041 Electronic Circuits

THERMIONIC AND GASEOUS STATE DIODES

Digital Integrated Circuits A Design Perspective. The Devices. Digital Integrated Circuits 2nd Devices

EE301 Electronics I , Fall

Chapter 1: Semiconductor Diodes

Chapter 2. Diodes & Applications

Module 04.(B1) Electronic Fundamentals

Chapter 3 OPTICAL SOURCES AND DETECTORS

Lecture 2 p-n junction Diode characteristics. By Asst. Prof Dr. Jassim K. Hmood

FET Channel. - simplified representation of three terminal device called a field effect transistor (FET)

Lecture 18: Photodetectors

Chapter 16 Other Two-Terminal Devices

Physics 160 Lecture 5. R. Johnson April 13, 2015

Electronic devices-i. Difference between conductors, insulators and semiconductors

Electronic Circuits I. Instructor: Dr. Alaa Mahmoud

EC T34 ELECTRONIC DEVICES AND CIRCUITS

Lecture Notes. Uncontrolled PSDs. Prepared by Dr. Oday A Ahmed Website:

Intrinsic Semiconductor

3A.1. Lecture 3A Semiconductors. Semiconductor Structure

CHAPTER 8 The PN Junction Diode

EE 105. Diode Circuits. Prof. Ali M. Niknejad and Prof. Rikky Muller. U.C. Berkeley Copyright c 2017 by Ali M. Niknejad

Exam Model Answer. Question 1 (15 marks) Answer this question in the form of table. Choose the correct answer (only one answer is accepted).

Lecture 4. pn Junctions (Diodes) Wednesday 27/9/2017 pn junctions 1-1

Unit 2 Semiconductor Devices. Lecture_2.5 Opto-Electronic Devices

Analog Electronics. Lecture 3. Muhammad Amir Yousaf

55:041 Electronic Circuits

Electron Devices and Circuits (EC 8353)

IENGINEERS- CONSULTANTS LECTURE NOTES SERIES ELECTRONICS ENGINEERING 1 YEAR UPTU. Lecture-4

EEE118: Electronic Devices and Circuits

EE 105. Diode Circuits. Prof. Ali M. Niknejad and Prof. Rikky Muller. March 2, U.C. Berkeley Copyright 2017 by Ali M.

Laboratory No. 01: Small & Large Signal Diode Circuits. Electrical Enginnering Departement. By: Dr. Awad Al-Zaben. Instructor: Eng.

Class XII - Physics Semiconductor Electronics. Chapter-wise Problems

Diode Bridges. Book page

Basic Electronic Devices and Circuits EE 111 Electrical Engineering Majmaah University 2 nd Semester 1432/1433 H. Chapter 2. Diodes and Applications

Experiment Topic : FM Modulator

EC6202- ELECTRONIC DEVICES AND CIRCUITS UNIT TEST-1 EXPECTED QUESTIONS

OFCS OPTICAL DETECTORS 11/9/2014 LECTURES 1

CHAPTER 8 The PN Junction Diode

QUESTION BANK EC6201 ELECTRONIC DEVICES UNIT I SEMICONDUCTOR DIODE PART A. It has two types. 1. Intrinsic semiconductor 2. Extrinsic semiconductor.

Chap14. Photodiode Detectors

Optical Receivers Theory and Operation

LAB V. LIGHT EMITTING DIODES

SCR- SILICON CONTROLLED RECTIFIER

Light Emitting Diodes

ECE520 VLSI Design. Lecture 2: Basic MOS Physics. Payman Zarkesh-Ha

NON-AMPLIFIED PHOTODETECTOR USER S GUIDE

NAME: Last First Signature

Chapter 2 PN junction and diodes

Lecture -1: p-n Junction Diode

CHAPTER SEMI-CONDUCTING DEVICES QUESTION & PROBLEM SOLUTIONS

CHAPTER 1 DIODE CIRCUITS. Semiconductor act differently to DC and AC currents

Lesson 08. Name and affiliation of the author: Professor L B D R P Wijesundera Department of Physics, University of Kelaniya.

Diodes. Analog Electronics Lesson 4. Objectives and Overview:

Diode Characteristics and Applications

EXPERIMENT 10: SCHOTTKY DIODE CHARACTERISTICS

Semiconductor Materials and Diodes

Instructor: Aaron T. Ohta Office Hours: Mon 3:30 to 4:30 pm

Chapter 6. FM Circuits

1) A silicon diode measures a low value of resistance with the meter leads in both positions. The trouble, if any, is

Objective Type Questions 1. Why pure semiconductors are insulators at 0 o K? 2. What is effect of temperature on barrier voltage? 3.

Key Questions ECE 340 Lecture 28 : Photodiodes

Measurement of Photo Capacitance in Amorphous Silicon Photodiodes

Review Energy Bands Carrier Density & Mobility Carrier Transport Generation and Recombination

Electrical and Electronic Laboratory Faculty of Engineering Chulalongkorn University. Semiconductor Diode (SD)

Package Lead Code Identification (Top View) SINGLE 3 SERIES 3 0, B 2, C

Analog Electronic Circuits

UNIT IX ELECTRONIC DEVICES

KOM2751 Analog Electronics :: Dr. Muharrem Mercimek :: YTU - Control and Automation Dept. 1 1 (CONT D) DIODES

R. W. Erickson. Department of Electrical, Computer, and Energy Engineering University of Colorado, Boulder

Ch5 Diodes and Diodes Circuits

Field-Effect Transistor (FET) is one of the two major transistors; FET derives its name from its working mechanism;

CHAPTER FORMULAS & NOTES

EE70 - Intro. Electronics

Diodes and Applications

ETEK TECHNOLOGY CO., LTD.

FIBER OPTICS. Prof. R.K. Shevgaonkar. Department of Electrical Engineering. Indian Institute of Technology, Bombay. Lecture: 20

ITT Technical Institute. ET215 Devices I Chapter 2 Sections

Project 6 Capacitance of a PN Junction Diode

LEDs, Photodetectors and Solar Cells

14.2 Photodiodes 411

Electronics for Analog Signal Processing - I Prof. K. Radhakrishna Rao Department of Electrical Engineering Indian Institute of Technology - Madras

Optical Fiber Communication Lecture 11 Detectors

Radio Frequency Electronics

PN Junction Diode Table of Contents. What Are Diodes Made Out Of?

EEE118: Electronic Devices and Circuits

1- Light Emitting Diode (LED)

LAB V. LIGHT EMITTING DIODES

Turn-Off Characteristics of SiC JBS Diodes

Detectors for Optical Communications

Transcription:

Whites, EE 320 Lecture 9 Page 1 of 8 Lecture 9: Limiting and Clamping Diode Circuits. Voltage Doubler. Special Diode Types. We ll finish up our discussion of diodes in this lecture by consider a few more applications. We ll discuss limiting and clamping circuits for diodes as well as voltage doubling circuits. Voltage Limiting Circuits These types of circuits are used to cap voltages between preset limits. These are useful as voltage protection circuitry or as signal conditioning. Examples of such circuits are shown in text Figure 3.35: 2009 Keith W. Whites

Whites, EE 320 Lecture 9 Page 2 of 8 A simple signal conditioning example is a circuit with the following transfer function: Then one would see this output voltage v O for this particular input voltage v I : 5 1 v I v O 3 3 1 t A circuit with ideal diodes can be designed to realize the above transfer function from a combination of the concepts shown above in Fig. 3.35: R Ideal v I 5 V Ideal v O

Whites, EE 320 Lecture 9 Page 3 of 8 Clamped Capacitor Circuits An idealized circuit of this type in shown below: (Fig. 3.36b) There are three important things to note about this circuit: 1. The ideal D keeps vo 0. 2. C charges only when v I < 0. Without a load, there is no other path for current. 3. The v C polarity is positive as shown above. With these insights, let s look at a specific example to illustrate the operation of this circuit. Consider this input voltage: (Fig. 3.36a) C in Fig. 3.36b will eventually charge completely so that v C = 6 V. In that case, the lowest output voltage will be clamped to zero. The output voltage will appear as:

Whites, EE 320 Lecture 9 Page 4 of 8 (Fig. 3.36c) Hence, this is called a clamped capacitor circuit. Without the diode present in this circuit, the capacitor would not retain any net charge per period so it would never charge up to 6 V. Note that here we are looking at the steady state response. It may take a few periods for the capacitor to completely charge. We re not looking at the transient response. There are two applications of the clamped capacitor circuit discussed in the text. (a) Pulse width modulation detector. PWM is used for motor speed control, for example. The width of the pulse contains the information. To demodulate the signal, one AC couples to give zero time average voltage (i.e., 0 VDC). The signal is then passed through a clamped capacitor circuit to give a

Whites, EE 320 Lecture 9 Page 5 of 8 welldefined DC component, then through a low pass filter to extract the DC. This DC voltage is the time average value, which changes depending on the width of the pulses (if the period is constant, as assumed). (b) Combined clamped capacitor with peak rectifier. This is also called a voltage doubler circuit. V p cos( t) v C 1 D 1 D 2 D1 C 2 v O Clamped capacitor Halfcycle peak rectifier Ignoring the transient behavior when the input voltage is first applied, v D1 is: 2V p v D1 0 t This voltage is fed to a halfcycle peak rectifier yielding the output voltage: 2V p v O 0 t

Whites, EE 320 Lecture 9 Page 6 of 8 It s obvious now why this is called a voltage doubler circuit. Special Diode Types 1. Schottky barrier diode. Often just called a Schottky diode. (Used in Laboratory #1 and in the NorCal 40A in EE 322.) These are formed from a metal and an ndoped semiconductor. The big difference from a silicon diode is a smaller forwardbias voltage drop of approximately 0.2 V. Also, because all conduction current in a Schottky diode is carried by majority carriers (electrons) there is little to no junction capacitance due to the absence of minority carrier charge accumulation in the vicinity of the depletion region. Because of this, one would expect the switching speeds of the Schottky diodes to be faster than silicon diodes, for example 2. Varactor. A reversed biased diode acting as a voltagecontrolled capacitance. (Used in the NorCal 40A in EE 322.)

Whites, EE 320 Lecture 9 Page 7 of 8 To understand the operation of the varactor, recall that in the pn junction: This separated charge region acts as a capacitance. As shown in the text, the junction capacitance can be expressed as C j0 C j = (3.55),(1) 1 VR V0 It is readily apparent from this equation that as V R changes, so does C j. (This model is used in Spice.) 3. Photodiodes. This is a reversed biased pn junction illuminated by light: When the pn junction is exposed to incident light in the correct frequency band(s), the incident photons can break covalent bonds in the depletion region thus generating electronhole pairs. These are swept away from the junction

Whites, EE 320 Lecture 9 Page 8 of 8 by the electric field in the depletion region with e to the n region and holes to the p region. Thus a reverse bias current has been generated. This is called a photocurrent. 4. Light Emitting Diode (LED). This is the reverse of the photodiode. In the LED, a pn junction is forward biased: When electronhole recombination occurs, light can be given off in certain types of semiconductors such as GaAs.

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback