micasa
Newbie level 6
Hi everyone,
I am designing a conventional complementary LC VCO using CMOS 0.18 um technology. Vdd = 1.8 V, L = 2.9 nH, Q =7.8, f = 1.9 Ghz
I have a problem which I do not understand.
According to this paper "Design Issues in CMOS Differential LC Oscillators", Ali Hajimiri and T. H. Lee, IJSSC, 1999, my VCO has already worked in the
voltage-limited regime (see the waveform of the drain currents) resulting in phase noise degradation. However, DC current is only 1 mA (power
consumption of the core is 1.8 mW), and I cannot increase the current if I consider the waveform of drain currents. In published papers, DC current
usually ranges from several milliampere to 10 mA (in the above paper, DC current is 4 mA, Vdd = 1.5V)
Do I misunderstand this point in Hajimiri's paper?
If not, how can I increase the DC current to several milliampere without pushing the VCO into the voltage-limited regime?
Thanks in advance,
Best regards,
Micasa,
I am designing a conventional complementary LC VCO using CMOS 0.18 um technology. Vdd = 1.8 V, L = 2.9 nH, Q =7.8, f = 1.9 Ghz
I have a problem which I do not understand.
According to this paper "Design Issues in CMOS Differential LC Oscillators", Ali Hajimiri and T. H. Lee, IJSSC, 1999, my VCO has already worked in the
voltage-limited regime (see the waveform of the drain currents) resulting in phase noise degradation. However, DC current is only 1 mA (power
consumption of the core is 1.8 mW), and I cannot increase the current if I consider the waveform of drain currents. In published papers, DC current
usually ranges from several milliampere to 10 mA (in the above paper, DC current is 4 mA, Vdd = 1.5V)
Do I misunderstand this point in Hajimiri's paper?
If not, how can I increase the DC current to several milliampere without pushing the VCO into the voltage-limited regime?
Thanks in advance,
Best regards,
Micasa,
