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CSE598A Analog Mixed Signal CMOS Chip Design

Published byRoss McBride Modified over 6 years ago

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Presentation on theme: "CSE598A Analog Mixed Signal CMOS Chip Design"— Presentation transcript:

1 CSE598A Analog Mixed Signal CMOS Chip Design
FM Mixer CMOS Realization (Final Presentation) Zhang Yi

2 CSE598A Analog Mixed Signal CMOS Chip Design
Outline: Summary of Mixer Design Final results in Project Further study

3 Mixer ‘s Function in RF system
CSE598A Analog Mixed Signal CMOS Chip Design Mixer ‘s Function in RF system Down conversion in receiver Realize Gilbert Mixer by CMOS Technologies

4 Mixer ‘s Function in RF system
CSE598A Analog Mixed Signal CMOS Chip Design Mixer ‘s Function in RF system Critical points of Mixer: Image Frequency Conversion Loss Noise Figure Intermodulation Distortion Port-to-Port Isolation

5 Realize Gilbert Mixer by CMOS Technologies
CSE598A Analog Mixed Signal CMOS Chip Design Realize Gilbert Mixer by CMOS Technologies Intermodulation Distortion 1dB Compression point Critical points of Mixer: Image Frequency Conversion Loss Noise Figure Intermodulation Distortion Port-to-Port Isolation

6 Final schematic in Project

7 Output improved Convert differential to singled ended
vout RF RI - + v- v+ vout=Rf/Ri(v+-v-)

8 Optimized results in Project
Schematic determined from calculation: Transistor size: 250u/600n Rs and Rload: Rs=0(ohm) Rload=500ohm RF and LO source: RF=0.05sin(w1t), LO=0.05sin(w2t)

9 IF signal from Gilbert cell

10 Single tone simulation
Simulation results: Conversion gain Isolation

11 Multi-tone simulation
Modulated signal spectrum Modulated signal

12 Conclusion based on simulation
Width Vs conversion gain: LO input transisters’ width affect the conversion gain. RF input transisters’ width doedn’t affect the conversion gain. IM3 point -overdrive voltage Vs power consumption: Need further study. Rs Vs linearity: Rs doesn’t affect the linearity much at relative low frequency.

13 Difference between Expected and Actual
CSE598A Analog Mixed Signal CMOS Chip Design Difference between Expected and Actual Design criteria and actual specification for the mixer Parameter Expected Specification Actual Specification Units Frequency 150 >150 MHz Noise Figure (DSB) <10 <20 dB IM3 Intercept Point (Input) >20 dBm Voltage Gain >8 Power consumption <100 <80 ohms Source impedance 50 Load impedance 500 Voltage Supply 3.0 3.3 V Further modify the circuit to reach all design criteria

14 Further Study Further study on Intermodulation performance.
Further study on power dissipation.

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