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Penn ESE370 Fall2013 -- DeHon 1 ESE370: Circuit-Level Modeling, Design, and Optimization for Digital Systems Day 2: August 30, 2013 Transistor Introduction
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Today MOSFET Capacitive and resistive loads Zero-th order transistor model –Good enough for [what?] Diagnostic Quiz (12:40pm) Penn ESE370 Fall2013 -- DeHon 2
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MOSFET Metal Oxide Semiconductor Field Effect Transistor –New device –Primary active component for the term –Three terminal device Voltage at gate controls conduction between two other terminals (source, drain) Penn ESE370 Fall2013 -- DeHon 3
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MOSFET Ids vs. Vgs, Vds Penn ESE370 Fall2013 -- DeHon 4 I DS Vgs = Vg-VsVds = Vd-Vs
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MOSFET I vs. Vgs, Vds Will dig into understanding during term Today: simple ways to reason about gross behavior –Static/DC Penn ESE370 Fall2013 -- DeHon 5
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Preclass What voltage do the cases converge to? Penn ESE370 Fall2013 -- DeHon 6
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Final Voltage? Penn ESE370 Fall2013 -- DeHon 7
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Final Voltage? Penn ESE370 Fall2013 -- DeHon 8
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Final Voltage? Penn ESE370 Fall2013 -- DeHon 9
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Final Voltage? Penn ESE370 Fall2013 -- DeHon 10
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Conclude? DC/Steady-State –Ignore the capacitors Penn ESE370 Fall2013 -- DeHon 11
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Quasistatic Static – inputs (and circuit) unchanging, how does it settle? Dynamic – what happens when things change Quasi-Static – inputs transition, circuit responds, and settles –Dynamic transition to roughly static states Penn ESE370 Fall2013 -- DeHon 12
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Quasistatic Relevance? How relevant to a combinational digital circuit? How relevant to a clocked digital circuit? Penn ESE370 Fall2013 -- DeHon 13
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Zero-th Order MOSFET Ideal Switch Vgs > Vth conducts Vgs < Vth does not conduct Vth – threshold voltage Gate draws no current from input –Loads input capacitively Penn ESE370 Fall2013 -- DeHon 14
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Zero-th Order MOSFET Penn ESE370 Fall2013 -- DeHon 15 I DS Vgs = Vg-Vs
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N-Type, P-Type MOSFET N – negative carriers –electrons Switch turned on positive Vgs P – positive carriers –holes Switch turned on negative Vgs Penn ESE370 Fall2013 -- DeHon 16 Vthp<0 Vgs<Vthp to to conduct
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Symmetry Device is symmetric Doesn’t know source from drain Think of it as a resistor: –Also doesn’t know difference between two ends –Which way does current flow? N-type: –Electrons are carriers –Electrons charged? negative –Electrons flow from src drain –From which voltage? Lowest voltage highest –Drain is ? most positive terminal Penn ESE370 Fall2013 -- DeHon 17
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Symmetry Device is symmetric Doesn’t know source from drain Think of it as a resistor: –Which way does current flow? P-type: –Holes are carries –What’s a hole? –Holes charged how? positively –Holes flow from src drain –From which voltage? Highest voltage lowest –Drain is? most negative terminal Penn ESE370 Fall2013 -- DeHon 18
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Zero-th Order MOSFET Penn ESE370 Fall2013 -- DeHon 19 I DS
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Why zero-order useful? Penn ESE370 Fall2013 -- DeHon 20 Note S, D annotation on this slide (won’t be labeled in future) Why is it this way?
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What happens when Vin=Vdd>Vthn Penn ESE370 Fall2013 -- DeHon 21 Vthp=-Vthn Vgs = Vg-Vs
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What happens when Vin=Vdd>Vth Penn ESE370 Fall2013 -- DeHon 22 Vgs=Vg-Vs=Vdd > Vthn Vthp=-Vthn
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What happens when Vin=Vdd>Vth Penn ESE370 Fall2013 -- DeHon 23 Vgs=Vdd > Vth Vthp=-Vthn
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What happens when Vin=Vdd>Vth Penn ESE370 Fall2013 -- DeHon 24 Vgs=Vdd > Vth Vgs=0 > Vthp Vthp=-Vthn
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What happens when Vin=Vdd>Vth Penn ESE370 Fall2013 -- DeHon 25 Vgs=Vdd > Vthn Vgs=0 > Vthp Vthp=-Vthn
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What happens when Vin=Vdd>Vth Penn ESE370 Fall2013 -- DeHon 26 Vgs=Vdd > Vthn Vgs=0 > Vthp V2=Gnd Vthp=-Vthn
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What happens when Vin=Vdd>Vth Penn ESE370 Fall2013 -- DeHon 27 Vgs=Vdd > Vthn Vgs=0 > Vthp V2=Gnd Vgs=0 < Vthn Vthp=-Vthn
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What happens when Vin=Vdd>Vth Penn ESE370 Fall2013 -- DeHon 28 Vgs=Vdd > Vthn Vgs=0 > Vthp V2=Gnd Vgs=0 < Vthn Vthp=-Vthn Vgs=-Vdd < Vthp
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What happens when Vin=Vdd>Vth Penn ESE370 Fall2013 -- DeHon 29 Vgs=Vdd > Vthn Vgs=0 > Vthp V2=Gnd Vgs=0 < Vthn Vgs=-Vdd < Vthp Vout=Vdd Vthp=-Vthn
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What happens when Vin=0<Vth Penn ESE370 Fall2013 -- DeHon 30 Work on board
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What happens when Vin=0<Vth Penn ESE370 Fall2013 -- DeHon 31 V2=Vdd Vout=0
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What function? Buffer Vin=Vdd Vout=Vdd Vin=0 Vout=0 Penn ESE370 Fall2013 -- DeHon 32
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Why Zeroth Order Useful? Allows us to reason (mostly) at logic level about steady-state functionality of typical gate circuits Make sure understand logical function (achieve logical function) before worrying about performance details Penn ESE370 Fall2013 -- DeHon 33
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Why adequate? Static analysis – can ignore capacitors Capacitive loads – resistances don’t matter Feed forward for gates – –don’t generally have loops –can work forward from known values Logic drive rail-to-rail –Don’t have to reason about intermediate voltage levels Penn ESE370 Fall2013 -- DeHon 34
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What not tell us? Delay Dynamics Behavior if not –Capacitively loaded –Acyclic (if there are Loops) –Rail-to-rail drive Penn ESE370 Fall2013 -- DeHon 35
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Admin HW1 out –Can reason through pr 1 from today’s lecture –Try to work over weekend Monday holiday: Labor Day Office Hours –TA (Ketterer) MW 4:55-5:55pm –Prof. (Levine 270) T 4:15-5:30pm Advice Reminder: Should be thinking about this course every day. Penn ESE370 Fall2013 -- DeHon 36
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Big Ideas MOSFET Transistor as switch Purpose-driven simplified modeling –Aid reasoning –Sanity check –Simplify design Penn ESE370 Fall2013 -- DeHon 37
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Diagnostic Quiz Turnin Quiz and feedback before leaving (do not turnin preclass keep that) Penn ESE370 Fall2013 -- DeHon 38
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