A New Current-Shaping Technique Based on a Feedback Injection Mechanism to Reduce VCO Phase Noise

Abstract: Inductor-capacitor voltage controlled oscillators (LC-VCOs) are the most common type of oscillator used in sensors systems, such as transceivers for wireless sensor networks (WSNs), VCO-based reading circuits, VCO-based radar sensors, etc. This work presents a technique to reduce the LC-VCOs phase noise using a new current-shaping method based on a feedback injection mechanism with only two additional transistors. This technique consists of keeping the negative resistance seen from LC tank constant throughout … Show more

“…Performance of the proposed VCO is compared with that of some other VCOs [14–20] in Table 1. The figure of merit (FoM) [21] and TR based figure of merit (FoMT) [22] used in this table are considered as: $$$\text{FoM}=L({\increment}\omega )+10\,\mathrm{log}\,{P}_{\text{DC}}\mbox{-}20\,\mathrm{log}\left(\frac{{\omega }_{o}}{{\increment}\omega }\right),$$$ $$$\text{FoMT}=\text{FoM}\mbox{-}10\mathrm{Log}\left(\frac{\text{FTR}(\%)}{{{\increment}V}_{\text{tune}}}\right),$$$ in which L (∆ω) is the single side band PN at the offset frequency of ∆ω, ω o is the oscillation frequency and P DC is the circuit power consumption in mW.…”

“…Performance of the proposed VCO is compared with that of some other VCOs [14][15][16][17][18][19][20] in Table 1. The figure of merit (FoM) [21] and TR based figure of merit (FoMT) [22] used in this table are considered as:…”

Low power and low phase noise complementary voltage controlled oscillator optimised by a meta‐heuristic algorithm

“…Performance of the proposed VCO is compared with that of some other VCOs [14–20] in Table 1. The figure of merit (FoM) [21] and TR based figure of merit (FoMT) [22] used in this table are considered as: $$$\text{FoM}=L({\increment}\omega )+10\,\mathrm{log}\,{P}_{\text{DC}}\mbox{-}20\,\mathrm{log}\left(\frac{{\omega }_{o}}{{\increment}\omega }\right),$$$ $$$\text{FoMT}=\text{FoM}\mbox{-}10\mathrm{Log}\left(\frac{\text{FTR}(\%)}{{{\increment}V}_{\text{tune}}}\right),$$$ in which L (∆ω) is the single side band PN at the offset frequency of ∆ω, ω o is the oscillation frequency and P DC is the circuit power consumption in mW.…”

“…Performance of the proposed VCO is compared with that of some other VCOs [14][15][16][17][18][19][20] in Table 1. The figure of merit (FoM) [21] and TR based figure of merit (FoMT) [22] used in this table are considered as:…”

Low power and low phase noise complementary voltage controlled oscillator optimised by a meta‐heuristic algorithm

Component-Related Phase Noise Evaluation Method for the LC Oscillators