ChetanGK
Newbie level 6
Hi everyone,
I need to design a Lock in architecture(I-Q demodulator) for impedance measurement. I have to decide on the mixer architecture which performs a direct down-conversion (zero-IF) for (RF = L0) frequency range from 20KHz to 20MHz in 350nm technology CMOS. I need a few starting references to start the design and also it would be helpful if someone can clear a few doubts of mine.
1. Which mixer to choose Passive or Active?
I have already read RF microelectronics by Razavi and The Design of CMOS Radio-Frequency Integrated Circuits by Lee and understood basic parameters that are used in mixer performance evaluation. Even though active mixers have more power consumption, more noise, and less linearity compared to the passive mixers, I found active mixers are widely used in CMOS technology. Why is that? (is it because of large low swing requirement and conversion loss in passive mixers)
2. Why they use Passive mixer for I-Q demodulator in case of impedance spectroscopy in many literatures? (my guess is flicker noise in active filter degrades SNR)
3. Why do we need differential RF input in the case of a double-balanced Gilbert mixer? Why can't we use single-ended input and apply reference voltage to maintain common-mode level (DC bias) for another input in case of typical Gilbert mixer implementation? (This will help to decide the amplifier topology (single ended output or fully differential) preceeding the mixer).
I found a link **broken link removed** which says there will be 6db power loss and Noise figure degradation in single-ended drive compared to differential drive.
Please shed some light on the other challenges in design.
3. This is my first time designing Mixer so it would be helpful if someone can share references so that I can relate MOS parameters (Transistor sizing, gm and so on) with Mixer performance requirements(IIP3, 1dB compression and so on). An example would be helpful.
Thanks in advance.
Regards
Chetan
I need to design a Lock in architecture(I-Q demodulator) for impedance measurement. I have to decide on the mixer architecture which performs a direct down-conversion (zero-IF) for (RF = L0) frequency range from 20KHz to 20MHz in 350nm technology CMOS. I need a few starting references to start the design and also it would be helpful if someone can clear a few doubts of mine.
1. Which mixer to choose Passive or Active?
I have already read RF microelectronics by Razavi and The Design of CMOS Radio-Frequency Integrated Circuits by Lee and understood basic parameters that are used in mixer performance evaluation. Even though active mixers have more power consumption, more noise, and less linearity compared to the passive mixers, I found active mixers are widely used in CMOS technology. Why is that? (is it because of large low swing requirement and conversion loss in passive mixers)
2. Why they use Passive mixer for I-Q demodulator in case of impedance spectroscopy in many literatures? (my guess is flicker noise in active filter degrades SNR)
3. Why do we need differential RF input in the case of a double-balanced Gilbert mixer? Why can't we use single-ended input and apply reference voltage to maintain common-mode level (DC bias) for another input in case of typical Gilbert mixer implementation? (This will help to decide the amplifier topology (single ended output or fully differential) preceeding the mixer).
I found a link **broken link removed** which says there will be 6db power loss and Noise figure degradation in single-ended drive compared to differential drive.
Please shed some light on the other challenges in design.
3. This is my first time designing Mixer so it would be helpful if someone can share references so that I can relate MOS parameters (Transistor sizing, gm and so on) with Mixer performance requirements(IIP3, 1dB compression and so on). An example would be helpful.
Thanks in advance.
Regards
Chetan
