Download - INC221 lecture2 Diode pn junction.ppt
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Diode
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Chapter Objectives
• To study and understand the structure of diode• To study and understand the structure of diode.
• To know different types of diodes.To know different types of diodes.
• To study and understand the applications of diodes in y ppdifferent circuits.
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Contents
• The PN Junction• The PN Junction• Characteristic Curves of Diodes• Diode Lead Identification
Di d T d A li ti• Diode Types and Applications
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Concept
• Diodes have both P-regions and N-regions. The boundaries are called junctions.
• The P-region is the anode side. The N-region is the th d idcathode side.
• There are three possible bias conditions: zero, forward and reverseforward, and reverse.
• Zero bias is accompanied by a depletion region.• Forward bias can collapse the depletion region.• Reverse bias enhances the depletion region.• Bias determines if diodes will be off or on.
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The depletion region
With the formation of the pand n materials combinationf
This creates the depletion region and has a barrier potential. This potential cannot be measuredof electrons and holes at the
junction takes place.potential cannot be measured with a voltmeter but it will cause a small voltage drop.
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g
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The P-side of a junction diode is doped with acceptor atoms.The N side of a j nction diode is doped ith donor atomsThe N-side of a junction diode is doped with donor atoms.
junctionP N
CathodeAnodeA silicon crystal
Schematic Symbol
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Energy Diagram and Depletion Region
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Zero BiasThe electrons near the junction cross over and fill the holes near the junction
D l ti i
over and fill the holes near the junction.
Depletion region
Having no carriers, the depletion region is an insulator.g , p g
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Forward and Reverse Bias(1)
-Voltage source or bias connections are + to the p material and – to the n material
-Voltage source or bias connections are – to the p material and + to the n materialmaterial.
-Bias must be greater than .3 V for Germanium or .7 V for Silicon
material.
-Bias must be less than the breakdown voltage.Germanium or .7 V for Silicon
diodes.
-The depletion region narrows.
g
-Current flow is negligible in most cases.
9-The depletion region widens.
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Forward and Reverse Bias(2)
Forward Bias Reverse Bias
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Forward BiasForward Bias
The carriers move toward the junctionThe carriers move toward the junctionand collapse the depletion region.
The diode is on.
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Reverse BiasReverse Bias
The carriers move away from the junction.
The depletion region is reestablishedand the diode is offand the diode is off.
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Knowledge Review
• The volt ampere graph for a resistor is a• The volt-ampere graph for a resistor is a straight line (a resistor is a linear device).Th lt h f di d i li• The volt-ampere graph for a diode is non-linear.
• The knee voltage for a silicon diode is approximately 0.7 volts. This is the voltage required to collapse the depletion region.
• Excess reverse bias will result in diode breakdown.
• The cathode end might be marked with a band.• Diodes can be tested with an ohmmeter
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• Diodes can be tested with an ohmmeter.
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200 R= ohms
150
175
R= ohms
125
150 R= ohms
mA
75
100
R= ohms
50
75 R ohms
025
0 0.5 1.0 1.5Volts
Resistor volt-ampere characteristic curves 14
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200
n m
A150
175
ent i
n125
150
d cu
rre
75
100
rwar
d
50
75
knee
For
025
0 0.5 1.0 1.5Forward bias in volts
Silicon diode volt-ampere characteristic curve15
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200
n m
A150
175100 oC
ent i
n125
150
25 oCd
curr
e
75
100 25 oCrw
ard
50
75-50 oC
For
025
0 0.5 1.0 1.5Forward bias in volts
The effect of temperature
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0200400600Reverse bias in Voltsbreakdown
0200400600
2020
40
60
80
Reversecurrentin mA80
100in mA
120
140
Sili di d bi h t i tiSilicon diode reverse bias characteristic curve17
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Cathode lead
Anode lead
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Cathode lead
V
mA
Anode leadThe diode is forward biased by the ohmmeter.
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Cathode lead
V
mA
Anode leadThe diode is reverse biased by the ohmmeter.
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Diode Testing with Ohmmeter
• Low resistance in both directions: the diode• Low resistance in both directions: the diode is shorted.High resistance in both directions the• High resistance in both directions: the diode is open.
• Relatively low resistance in the reverse direction: the diode is leaky.
• The ratio of reverse resistance to forward resistance is > 1000: the diode is good.
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V and I in a forward biased diode
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V and I in a reverse biased diode
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The complete V-I Characteristic
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Diode schematic symbol, packaging
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Forward bias testing(1)
In this case with the voltage applied isvoltage applied is less than the barrier potential so the diode for all practical purposes is still in a non-conductingnon conducting state. Current is very small.
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Forward bias testing(2)
With the applied voltage di th b iexceeding the barrier
potential the now fully forward-biased diodeforward biased diode conducts. Note that the only practical loss is the 7 V lt d d.7 Volts dropped across the diode.
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Ideal diode V-I characteristic curve
In this characteristic curve we do notcurve we do not consider the voltage drop or the resistive properties. Current flow proportionally increases withincreases with voltage.
Note. Diode acts as an ideal switch
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Note. Diode acts as an ideal switch
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Practical diode V-I characteristic curve
In most cases we consider only the f d bi ltforward bias voltage drop of a diode. Once this voltage is overcome gthe current increases proportionally with voltage This drop isvoltage.This drop is particularly important to consider in low voltage gapplications.
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Complex V-I characteristic curve
The voltage drop is not the only loss of anot the only loss of a diode. In some cases we must take i t t thinto account other factors such as the resistive effects as well as reverse breakdown.
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Troubleshooting Diodes(multimeter with diode testing function )(multimeter with diode testing function )Testing a diode is quite simple, particularly if the multimeter used has a diode check function. With the diode check function a specific known voltage is applied from the meter across the diode.
With the diode check function a good diode will h i l 7 Vshow approximately .7 V or
.3 V when forward biased.
When checking in reverse bias the full applied testing voltage will be seen on thevoltage will be seen on the display. Note some meters show an infinite (blinking)
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display.
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Troubleshooting Diodes(multimeter setting as ohmmeter )(multimeter setting as ohmmeter )
An ohmmeter can be used to check the forward and reverse resistance of a diode if the ohmmeter has enough voltage to force theohmmeter has enough voltage to force the diode into conduction. Of course, in forward-biased connection, low resistance will be seenbiased connection, low resistance will be seen and in reverse-biased connection high resistance will be seen.
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Open and Shorted Diode
Open DiodeOpen Diode
In the case of an open diode no current flows in either direction which is indicated by the full checking voltage withdirection which is indicated by the full checking voltage with the diode check function or high resistance using an ohmmeter in both forward and reverse connections.
Shorted Diode
In the case of a shorted diode maximum current flows indicated by a 0 V with the diode check function or low yresistance with an ohmmeter in both forward and reverse connections.
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Summary
• Diodes transistors and integrated circuits are all made of• Diodes, transistors, and integrated circuits are all made of semiconductor material.
• P-materials are doped with trivalent impurities• P-materials are doped with trivalent impurities• N-materials are doped with pentavalent impurities.• P and N type materials are joined together to form a PN• P and N type materials are joined together to form a PN
junction• A diode is nothing more than a PN junctionA diode is nothing more than a PN junction.• At the junction a depletion region is formed. This creates
barrier that requires approximately .3 V for a Germanium q pp yand .7 V for Silicon for conduction to take place.
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