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VERY HIGH PERFORMANCE LOGIC Digital Integrated Circuits High Speed © Prentice Hall 1995 Note Slides on High-Speed Bipolar and Superconduction not yet available Digital Integrated Circuits High Speed © Prentice Hall 1995 GaAs Design Increased Mobility at Low Electrical Field Higher Performance Digital Integrated Circuits High Speed © Prentice Hall 1995 GaAs Material Properties • Max electron velocity = 2 x Silicon = 2 107 cm/sec • Hole mobility GaAs (= 400) < Si (489 cm2 V/sec) Excludes complementary logic • Electron mobility GaAs (4000-9000) >> Si (500-1200) • Maximum Field (max velocity) GaAs (0.3 V/m) < Si (1 V/m) Should operate at low voltages • Shottky Barrier Height GaAs (0.6-0.8V) > Si (0.4-0.6 V) • Bandgap Energy GaAs (1.43 eV) > Si (1.11 eV) Radiation hard • Resistivity GaAs (1.109 /sq) >> Si (1.105 /sq) Semi-insulating Digital Integrated Circuits High Speed © Prentice Hall 1995 GaAs Material Problems • Brittle Material 3 to 4 inch wafers • High Defect Density Low Yield (100 to 1000 times smaller vs. Si) • QSS and Qox large NO MOS transistors! • Hole mobility low No complementary gates Digital Integrated Circuits High Speed © Prentice Hall 1995 Favored Device: MESFET G S depletion region Schottky Diode n+ D T n L Semi-Insulating GaAs Digital Integrated Circuits High Speed n+ channel 1017cm-3 = 1000-2000 /sq © Prentice Hall 1995 MESFET Operation if(VG == 0): transistor ON — part of channel depleted if (VG): depletion layer conductivity if (VG ): depletion layer conductivity if (VG == VP): pinchoff, no conductance DEPLETION TRANSISTOR Enhancement transistors also available VP (enhancement): 0 V— 0.2 V VP (depletion): -0.7 V — -2 V Large variations of VP over die (100 — 200 mV)! Digital Integrated Circuits High Speed © Prentice Hall 1995 I-V Characteristic VGS =0.7V 0.35 0.5 ID ID (mA) ID (mA) 0.6V 0.3 0.5V 0.15 0.4V IG 0.1 0.3V -0.05 0 0.5 1.0 VDS (V) 1.5 2.0 -0.1 0 0.4 VGS (V) 0.6 0.8 (b) ID-VGS characteristic (VDS = 0.5 V) IG is the current flowing into the gate. (a) I D-VDS characteristic Digital Integrated Circuits 0.2 High Speed © Prentice Hall 1995 Curtice Model Digital Integrated Circuits High Speed © Prentice Hall 1995 GaAs MESFET Model .model enh njf + vto=0.23 beta=250u lambda=0.2 alpha=6.5 ucrit=0 gamds=0 ldel=-0.4u wdel=-0.15u + rsh=210 n=1.16 is=0.5m level=3 sat=0 acm=1 capop=1 .model dp njf + vto=-0.825 beta=190u lambda=0.065 alpha=3.5 ucrit=0 gamds=0 ldel=-0.4u wdel=-0.15u + rsh=210 n=1.18 is=10m level=3 sat=0 acm=1 capop=1 Digital Integrated Circuits High Speed © Prentice Hall 1995 Buffered FET Logic (BFL) Input Stage Level Shifting Output Stage VDD VDD 0.6Ws kWs Inv In1 In2 Ws Out kWs VSS Digital Integrated Circuits High Speed © Prentice Hall 1995 Voltage Transfer Characteristic 4.0 Vinv V 2.0 0.0 Vout -2.0-2.0 Digital Integrated Circuits -1.0 Vin (V) High Speed 0.0 1.0 © Prentice Hall 1995 Direct-Coupled Fet Logic (DCFL) VDD Out In1 In2 Max Input Voltage : +/- 0.7 V Strict Control of Threshold Voltage Required (+/- 0.1 V) Asymmetrical Response Sensitive to Fanout Digital Integrated Circuits High Speed © Prentice Hall 1995 Performance versus Power Digital Integrated Circuits High Speed © Prentice Hall 1995 Source-Coupled FET Logic (SCFL) Output Stage RD RD In2 - In 2+ Out + Out - In1- In 1+ ISF I SS IS F VSS Digital Integrated Circuits High Speed © Prentice Hall 1995 Logic Families - Comparison Digital Integrated Circuits High Speed © Prentice Hall 1995 High Electron Mobility Transistor High Electron Mobility Transistor (HEMT) (HEMT) SOURCE DRAIN GATE Undoped AlGaAs n+ GaAs 0-500 Å n+AlGaAs 350-500 Å 20-80 Å Undoped semi-insulating GaAs Two-dimensional electron gas Mobility in Undoped GaAs > 8500 cm 2/Vsec (4500 cm2Vsec in Doped GaAs) Up to 50,000 cm2/Vsec at Liquid Nitrogen Temperature Digital Integrated Circuits High Speed © Prentice Hall 1995 JJ Logic Families IBIAS VA RL VB RL IBIAS RL IBIAS RL (a) Current injection gate IBIAS IBIAS IBIAS IBIAS reset phase IA IB (c) bias current waveform RL (b) Magnetically coupled gate Digital Integrated Circuits High Speed © Prentice Hall 1995 MVTL Gate Layout RD M Out J1 Rin1 In1 Rin2 In2 Vbias J2 J3 Rbias Digital Integrated Circuits High Speed Ri © Prentice Hall 1995 MVTL Transient Response Volt x 10-3 2.00 Digital Integrated Circuits V bias 1.80 1.60 1.40 1.20 1.00 0.80 0.60 0.40 0.20 -0.00 -0.20 -0.40 Vin1 Vout 0.00 200.00 High Speed Seconds x 10 -12 © Prentice Hall 1995
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