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ECE2030 Introduction to Computer Engineering Lecture 3: Switches and CMOS
Prof. Hsien-Hsin Sean Lee School of Electrical and Computer Engineering Georgia Tech
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Basic Switch A path exists when the Switch Control is closed
If (Open) OUTPUT = unknown ; Switch is open (OFF) Else OUTPUT = INPUT ; Switch is closed (ON) Switch Control INPUT OUTPUT
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The Analogy of A Transistor
INPUT OUTPUT Switch Control (Gate) Cross Section An N-Channel Metal-Oxide Semiconductor Field Effect Transistor (MOSFET)
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Transistor Characteristics
Cut-off Region Vgs – Vt 0 No current (Ids) between drain and source Linear (or Ohmic) Region 0 < Vds < Vgs – Vt Ids is a function of Vgs and Vds Ids = β*[(Vgs-Vt)*Vds – Vds*Vds/2] Saturation Region 0 < Vgs – Vt < Vds Ids is independent of Vds Ids = (β/2)*(Vgs-Vt)2 β = process factor * (W/L) Vt : Threshold voltage, a function of materials, doping, insulator thickness, etc. Gate Drain Source Vds Ids Vgs N-type MOS Transistor
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Transistor Characteristics
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Switches in Series INPUT Truth Table S1 S1 S2 PATH? OFF ON S2 OUTPUT
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Switches in Series S1 S2 PATH? OFF NO ON YES INPUT
Truth Table (OFF/ON=0/1) S1 S1 S2 PATH? OFF NO ON YES S2 OUTPUT What Function ??
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Switches in Series S1 S2 PATH? INPUT Truth Table (OFF/ON=0/1) S1 S2
S2 OUTPUT Function = ??
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Switches in Series S1 S2 PATH? 1 INPUT Truth Table (OFF/ON=0/1) S1 S2
1 S2 OUTPUT Function = ??
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Switches in Series S1 S2 PATH? 1 INPUT Truth Table (OFF/ON=0/1) S1 S2
1 S2 OUTPUT Function = ??
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Switches in Series S1 S2 PATH? 1 INPUT Truth Table (OFF/ON=0/1) S1 S2
1 S2 OUTPUT Function = Logic AND
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Switches in Parallel S1 S2 PATH? OFF NO ON YES INPUT Truth Table S1 S2
OUTPUT
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Switches in Parallel S1 S2 PATH? INPUT Truth Table S1 S2 OUTPUT
S1 S2 OUTPUT Function =??
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Switches in Parallel S1 S2 PATH? 1 INPUT Truth Table S1 S2 OUTPUT
1 S1 S2 OUTPUT Function =??
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Switches in Parallel S1 S2 PATH? 1 INPUT Truth Table S1 S2 OUTPUT
1 S1 S2 OUTPUT Function =??
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Switches in Parallel S1 S2 PATH? 1 INPUT Truth Table S1 S2 OUTPUT
1 S1 S2 OUTPUT Function = Logic OR
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CMOS Transistor Complementary MOS pMOS nMOS P-channel MOS (pMOS)
N-channel MOS (nMOS) pMOS P-type source and drain diffusions N substrate Mobility by holes nMOS N-type source and drain diffusions P substrate Mobility by electrons Gate Source Drain pMOS Gate Drain Source nMOS
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Pass Transistor using NMOS
Assume capacitor (CL) is initially discharged Gate=1, Vin=1 CL begins to conduct and charges toward 1 (Vdd) and stops at (Vdd-Vt) Signal is degraded Gate=Vdd Vgs Vin=Vdd Vout I Load Capacitor Ground Gate=1, Vin=0 CL begins to discharge toward 0 Gate=Vdd Vin=0 Vout=Vdd Ground Load Capacitor Vgs I
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Transmission Degradation using Pass Transistor
Vdd (1) Vdd - Vt Vdd Vdd - 2Vt Vdd Vdd Vdd Vout = Vdd- N*Vt Still 1??
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CMOS Signal Transfer Property
Gate Source Drain Gate Path Closed 1 Open Transmits 1 well Transmits 0 poorly Transmits 0 well Transmits 1 poorly pMOS Gate Drain Source Gate Path Open 1 Closed nMOS
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CMOS Transmission Gate
Transmit signal from INPUT to OUTPUT when Gate is closed Gate (complementary of Gate) Gate pMOS nMOS OUTPUT OFF Z 1 ON INPUT Source Drain INPUT OUTPUT Z : High-Impedance State, consider the terminal is “floating” Gate
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High Impedance When a path exists When no path
Impedance is low to allow ample flow of current When no path Impedance is high allowing almost no current flow between two terminals Gate=1 << 10K Source Drain Closed Gate=0 >> 100M Source Drain Open
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Transmission Gates Transmit Logic 0 Gate = 1 1 Gate = 0
Gate = 1
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Transmission Gate Symbol
INPUT OUTPUT INPUT OUTPUT Gate Gate
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