An ultra-low-power and low-noise voltage-controlled ring oscillator for biomedical applications

This study presents an ultra-low-power, low-phase noise, and small-size voltage-controlled ring oscillator for use in implantable electronics operating in the Medical Implant Communication Service (MICS) frequency band and 65-nm IBM CMOS technology. This five-stage voltage-controlled ring oscillator does not require external inductor and capacitor similar to other LC oscillators, and hence, requires very small die area. A new methodology to design them has been employed in this study, and for optimizing the design of this voltage-controlled oscillator (VCO), the phase noise and power consumption of five-stage ring oscillators have been formulated and simulated for different sizes of transistors. The simulated phase noise of this VCO was -111 dBc/Hz at 1 MHz offset from a 400-MHz center frequency. The power consumption of VCO was 158 μW. This VCO has a tuning range from 352 to 454 MHz for tuning within the MICS band frequency, and frequency correction accounts for process supply voltage and temperature effects.