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Lecture 3 OUTLINE Semiconductor Basics cont d Carrier drift and diffusion PN Junction Diodes Electrostatics Capacitance Reading Chapter 2 1 2 2 EE105 Fall 2011 Lecture 3 Slide 1 Prof Salahuddin UC Berkeley Recap Drift Current Drift current is proportional to the carrier velocity and carrier concentration Total current Jp drift Q t Q total charge contained in the volume shown to the right t time taken by Q to cross the volume Q qp in cm3 X Volume qpAL qpAvht Hole current per unit area i e current density Jp drift q p vh EE105 Fall 2011 Lecture 3 Slide 2 Prof Salahuddin UC Berkeley Recap Conductivity and Resistivity In a semiconductor both electrons and holes conduct current J p drift qp p E J n drift qn n E J tot drift J p drift J n drift qp p E qn n E J tot drift q p p n n E E The conductivity of a semiconductor is Unit mho cm The resistivity of a semiconductor is Unit ohm cm EE105 Fall 2011 Lecture 3 Slide 3 qp p qn n 1 Prof Salahuddin UC Berkeley Electrical Resistance I V W t homogeneously doped sample L V L Resistance R I Wt Unit ohms where is the resistivity EE105 Fall 2011 Lecture 3 Slide 4 Prof Salahuddin UC Berkeley Resistivity Example EE105 Fall 2011 Lecture 3 Slide 5 Prof Salahuddin UC Berkeley A Second Mechanism of Current Flow is Diffusion EE105 Fall 2011 Lecture 3 Slide 6 Prof Salahuddin UC Berkeley Carrier Diffusion Due to thermally induced random motion mobile particles tend to move from a region of high concentration to a region of low concentration Analogy ink droplet in water EE105 Fall 2011 Lecture 3 Slide 7 Prof Salahuddin UC Berkeley Carrier Diffusion Current flow due to mobile charge diffusion is proportional to the carrier concentration gradient The proportionality constant is the diffusion constant dp J p qD p dx Notation Dp hole diffusion constant cm2 s Dn electron diffusion constant cm2 s EE105 Fall 2011 Lecture 3 Slide 8 Prof Salahuddin UC Berkeley Diffusion Examples Linear concentration profile constant diffusion current Non linear concentration profile varying diffusion current x p N 1 L J p diff EE105 Fall 2011 p N exp dp qD p dx N qD p L Lecture 3 Slide 9 J p diff x Ld dp qD p dx qD p N x exp Ld Ld Prof Salahuddin UC Berkeley Diffusion Current Diffusion current within a semiconductor consists of hole and electron components dp dn J p diff qD p J n diff qDn dx dx dn dp J tot diff q Dn Dp dx dx The total current flowing in a semiconductor is the sum of drift current and diffusion current J tot J p drift J n drift J p diff J n diff EE105 Fall 2011 Lecture 3 Slide 10 Prof Salahuddin UC Berkeley The Einstein Relation The characteristic constants for drift and diffusion are related D kT q kT Note that 26mV at room temperature 300K q This is often referred to as the thermal voltage EE105 Fall 2011 Lecture 3 Slide 11 Prof Salahuddin UC Berkeley The PN Junction Diode When a P type semiconductor region and an N type semiconductor region are in contact a PN junction diode is formed V D ID EE105 Fall 2011 Lecture 3 Slide 12 Prof Salahuddin UC Berkeley Diode Operating Regions In order to understand the operation of a diode it is necessary to study its behavior in three operation regions equilibrium reverse bias and forward bias VD 0 EE105 Fall 2011 VD 0 Lecture 3 Slide 13 VD 0 Prof Salahuddin UC Berkeley Carrier Diffusion across the Junction Because of the differences in hole and electron concentrations on each side of the junction carriers diffuse across the junction Notation nn electron concentration on N type side cm 3 pn hole concentration on N type side cm 3 pp hole concentration on P type side cm 3 np electron concentration on P type side cm 3 EE105 Fall 2011 Lecture 3 Slide 14 Prof Salahuddin UC Berkeley Depletion Region As conduction electrons and holes diffuse across the junction they leave behind ionized dopants Thus a region that is depleted of mobile carriers is formed The charge density in the depletion region is not zero The carriers which diffuse across the junction recombine with majority carriers i e they are annihilated quasiquasineutral neutral region width Wdep region EE105 Fall 2011 Lecture 3 Slide 15 Prof Salahuddin UC Berkeley Some Important Relations dE dx dV E dx Energy qV EE105 Fall 2011 Lecture 3 Slide 16 Prof Salahuddin UC Berkeley The Depletion Approximation Because charge density 0 in the depletion region a large E field exists in this region In the depletion region on the N side dE qN D dx si si qN D x b E si x qND a b qNA x In the depletion region on the P side dE qN A dx si si qN A a x E si aN A bN D EE105 Fall 2011 Lecture 3 Slide 17 Prof Salahuddin UC Berkeley Carrier Drift across the Junction EE105 Fall 2011 Lecture 3 Slide 18 Prof Salahuddin UC Berkeley PN Junction in Equilibrium In equilibrium the drift and diffusion components of current are balanced therefore the net current flowing across the junction is zero J p drift J p diff J n drift J n diff J tot J p drift J n drift J p diff J n diff 0 EE105 Fall 2011 Lecture 3 Slide 19 Prof Salahuddin UC Berkeley Built in Potential V0 Because there is a large electric field in the depletion region there is a significant potential drop across this region dp qp p E qDp dx x2 dV dp p p D dx p dx pp dp p dV Dp x1 pn p V x 2 V x1 Dp p ln pp pn kT N ln 2 A q n i N D kT N A N D V0 ln 2 q ni EE105 Fall 2011 Lecture 3 Slide 20 Unit Volts Prof Salahuddin UC Berkeley Built In Potential Example Estimate the built in potential for PN junction below Note that EE105 Fall 2011 kT ln 10 26mV 2 3 60mV q N P ND 1018 cm 3 NA 1015 cm 3 Lecture 3 Slide 21 Prof Salahuddin UC Berkeley PN Junction under Forward Bias A forward bias decreases the potential drop across the junction As a result the magnitude of the electric field decreases and the width of the depletion region narrows x qND a b qNA x ID V x V0 b EE105 Fall 2011 0 a x Lecture 3 Slide 22 Prof Salahuddin UC Berkeley

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Berkeley ELENG 105 - Lecture 3

School: University of California, Berkeley
Course: Eleng 105- Microelectronic Devices and Circuits
Pages: 22
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