study of 60ghz wireless network & circuit
DESCRIPTION
Study of 60GHz Wireless Network & Circuit. 0540864 Ahn Yong-joon. Contents. Simulation and Measurement of ‘MM-Wave CMOS Design’ Simulation and Measurement of ‘Algorithmic Design of CMOS LNAs and Pas for 60GHz Radio’. MM-Wave CMOS Design. Output Return Loss. CPW Filter - PowerPoint PPT PresentationTRANSCRIPT
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Study of 60GHz Wireless Network & Circuit
0540864
Ahn Yong-joon
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Contents
• Simulation and Measurement of ‘MM-Wave CMOS Design’
• Simulation and Measurement of ‘Algorithmic Design of CMOS LNAs and Pas for 60GHz Radio’
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MM-Wave CMOS Design
• CPW Filter
- 30GHz Band Pass Filter
- Don’t do special modeling
of bend and junction
Insertion Loss
Output Return Loss
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MM-Wave CMOS Design
• Junctions and Bends are not critical• Size is 0.93mm*0.64mm
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MM-Wave CMOS Design
• Amplifier Design
- 40GHz & 60GHz Amplifier
- Size : 1.3mm*1.1mm & 1.3mm*1.0mm
- Both 25% Bandwidth
- Three stage of cascode device
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MM-Wave CMOS Design
- Only bias current & length of T-lines are different
- Cascode reduce Miller eff. High freq range
- Cascode Transistor. 40GHz 60GHz
bias 100uA/um 150uA/um
MAG 8.9dB 6.0dB
- Lengths of All T-lines < λ/4
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MM-Wave CMOS Design
• Insertion Loss
- Interstage matching network : 40GHz 2.5dB
60GHz 1.8dB
- Input matching network : 40GHz 1.6dB
60GHz 1.3dB
- Output matching network : 40GHz 2.0dB
60GHz 1.6dB
because shorter T-line
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MM-Wave CMOS Design
• Measurement of Amps
a) Measurement setup
- [12] de-embededing & [20] DUT measure On Wafer...
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MM-Wave CMOS Design
• Result of 40GHz
- Peak Power gain : 19dB
- Return losses > 15dB
- 3-dB Bandwidth 34-44GHz
- Reverse isolation 50dB up to 65GHz
- Output P1dB -0.9dBm
- IIP3 -7.4dBm
- NF N/A
- 24mA with 1.5V
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MM-Wave CMOS Design
• Result of 60GHz LNA
- Peak Power gain : 12dB
- Return losses > 15dB
- 3-dB Bandwidth 51-65GHz
- Reverse isolation 45dB up to 65GHz
- Output P1dB +2.0dBm
- IIP3 N/A
- NF 8.8dB
- 36mA with 1.5V
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MM-Wave CMOS Design
• [5] : The designs and optimizations are based on device S-parameter measurements & use MSL
• [4] : also use MSL
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MM-Wave CMOS Design
• Measured NF is higher than simulation result
about 2dB• BSIM3 noise model is not properly
such as short channel noise or induced gate noise• Need to use more advanced RF transistor model
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Algorithmic Design of CMOS LNAs and PAs for 60GHz Radio• 60GHz LNA Result
- Not de-embeded model
- Peak Gain 14.6dB @ 58GHz (Sim. : 14dB @ 62.4GHz)
- S11 & S22 < -6dB 55-65GHz (Sim : < -10dB 50-65GHz)
- Result is downshifted from simulation.
Lack of RC parasitic extraction tool.
LG is overestimated
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Algorithmic Design of CMOS LNAs and PAs for 60GHz Radio
- Isolation > 32dB
- IIP3 : -6.8dBm
- NF : N/A (Lack of a down
convert mixer)
4.5dB (Simulated result)
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Algorithmic Design of CMOS LNAs and PAs for 60GHz Radio
• Higher gain , Lower NF, Lower Power diss, smaller area.
PF
fOIP
PF
fIIPGFoM LNA
)1(
3
)1(
3
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Algorithmic Design of CMOS LNAs and PAs for 60GHz Radio• Result of 60GHz PA
- Peak Power gain : 5.2dB @61GHz
- Return losses > 15dB
- 3-dB Bandwidth 13GHz (52-65GHz)
- S11<-10dB (51-65GHz) S22<-10dB (60-65GHz)
- Output P1dB +6.4dBm
- Psat 9.3dBm
- Bias current 0.28mA/um
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Algorithmic Design of CMOS LNAs and PAs for 60GHz Radio
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Algorithmic Design of CMOS LNAs and PAs for 60GHz Radio• Scaling from 130nm to 90nm better performance:
- Lower noise (comparable to Ft/FMAX LNAs)- Lower power dissipation- Higher gain (in LNAs)- Reasonable output power and gain for PA