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Lecture 7.0 Device Physics. Electronic Devices Passive Components Resistance (real #) –Conductor –Resistor –Battery Active Components Reactance (Imaginary.

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Presentation on theme: "Lecture 7.0 Device Physics. Electronic Devices Passive Components Resistance (real #) –Conductor –Resistor –Battery Active Components Reactance (Imaginary."— Presentation transcript:

1 Lecture 7.0 Device Physics

2 Electronic Devices Passive Components Resistance (real #) –Conductor –Resistor –Battery Active Components Reactance (Imaginary #) –Capacitor –Inductor –Diode –Transistor –Surge Protector

3 Conductors Materials –Metal Interconnects Wire Lines –W, Al, Cu Vias –W –Gates W Resistance, R=  L/A Capacitance C=  o A/d

4 Metal Junctions Metal Interconnects Wire Lines –W, Al, Cu Vias –W –Gates W Equilibration of E f Difference in Work Functions

5 Resistors On Chip –Low resistance Silicon with dopants at a particular concentration –High resistance Insulator with a specific size –Gate oxide-tunneling junction –Oxide Insulator between two conductors Circuit Board Resistors

6 Capacitance C=  o A/d  =C/C o  =1+  e  e = electric susceptibility

7 Capacitor Allows AC signal to pass Stops DC part of signal Slow build-up of charge Timing Circuits Signal Integration Reactance Imaginary # for Resistance

8 Capacitors in Silicon Chips On chip –SiO 2 –Si 3 N 4 On Circuit Board –BaTiO 3 –(Pb,La)TiO 3 Materials –SiO 2 –Si 3 N 4 –BaTiO 3 –(Pb,La)TiO 3

9 Dielectric Constant   opt = (V/C) 2  opt = n 2 n=Refractive index

10 Circuit Board Capacitor Ni Electrodes BaTiO 3 Dielectric = 2000-3000

11 On Chip Capacitor (Memory Chip) An electric circuit element used to temporarily STORE a charge, consisting of TWO CONDUCTIVE plates separated and insulated from each other by a DIELECTRIC.

12 Void

13 Inductor What is it? –Coil of wire Not used on Chip On Circuit Board –Used often Reactance –(imaginary # for resistance)

14 P-n junction One way flow of current –Diode bridge Converts AC to DC Photo Diode Laser

15 P-N Junction - Diode N-type P-type EfEf EfEf

16 Diodes P-n junction One way flow of current –Diode bridge Converts AC to DC Photo Diode Laser

17 Poisson’s Equation  2 U = -  /(   o ) N side –  n = - e N d P side –  p =+ e N a U=Φ = Potential (volt)

18 Poisson Eq. d 2 U/dx 2 = -  /(  o )

19 P-N Junction (Diode) – no bias V Thickness of depletion layers –N d l n = N p l p Current to equilibrate electrons from p zone to n zone due to competition of diffusion vs drift due to contact Ф.

20 Diode with Applied Voltage

21 P-N Junction (Diode) – with forward bias V Current to equilibrated electrons from p zone to n zone.

22 P-N Junction (Diode) – with reverse bias V Current to equilibrated electrons from p zone to n zone.

23 Diode Avalanche Breakdown

24 Diode – equivalent circuit

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