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Tod Dickson University of Toronto June 9, 2005

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1 Tod Dickson University of Toronto June 9, 2005
Low-Power Circuits for a 2.5-V, 10.7-to-86-Gb/s Serial Transmitter in 130-nm SiGe BiCMOS Tod Dickson University of Toronto June 9, 2005

2 Motivation Ever-growing bandwidth demands results in higher data rate broadband transceivers Next generation wireline applications will exceed 80-Gb/s. To date, serial transmitters at this data rate have not been demonstrated. High power consumption even an 40-Gb/s makes high levels of integration difficult. Reducing power consumption without sacrificing speed is a key challenge.

3 HBT vs. MOS High-Speed Logic
BiCMOS Cascode Lower supply voltage Needs higher current for same speed No power savings High speed due to intrinsic slew rate Requires high supply voltage (3.3V or more)

4 Power reduction techniques
BiCMOS logic family reduces supply voltage Reduce tail current with inductive peaking LP = CLDV2 3.1 IT2 Stacked inductors 10 mm 43-Gb/s latch consumes only 20mW

5 2.5-V, 10.7-to-86-Gb/s Serial Transmitter
40-GHz PLL On-chip PRBS for BIST 8:1 MUX Output Driver

6 Die Photo & Measured Results
1.5mm 1.8mm Measured 86-Gb/s eye diagram 2 x 275mVpp output swing < 600fs rms jitter 6ps rise/fall times (20%-80%) Fabricated in 130-nm SiGe BiCMOS w/ HBT fT = 150 GHz

7 Comparison Technology fT/fMAX Data Rate Supply Voltage Power
130-nm CMOS 85/90 GHz 40-Gb/s (half-rate) 1.5 V 2.7 W InP HBT 150/150 GHz 43-Gb/s (full-rate) -3.6/ -5.2 V 3.6 W 180-nm SiGe BiCMOS HBT: 120/100 GHz 43-Gb/s (half-rate) -3.6 V 1.6 W 2.3 W 130-nm SiGe BiCMOS MOS: 85/90 GHz HBT: 150/150 GHz 86-Gb/s (half-rate) 2.5 V 1.36 W

8 Conclusions Demonstrated the first serial transmitter above 40-Gb/s in any semiconductor technology. Low-power operation achieved by employing BiCMOS high-speed logic family to reduce supply voltage. trading off bias current for inductive peaking. Adding a SiGe HBT to a CMOS process can result in a serial transmitter with twice the data rate and half the power dissipation.

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