Abstract
This paper presents a wide-range and low phase noise mm-Wave Voltage Controlled Oscillator (VCO) based on the transconductance linearization technique. The proposed technique eliminates the deep triode region of the active part of the VCO, and lowers the noise introduced by the gm-cell. The switch sizes inside the switched capacitor bank of the VCO are optimized to minimize the resistance of the switches while keeping the wide tuning range. A new layout technique shortens the routing of the VCO outputs, and lowers the parasitic inductance and resistance of the VCO routing. The presented method prevents the reduction of the quality factor of the tank due to the long routing. The proposed VCO achieves a discrete frequency tuning range, of 14 GHz to 18 GHz, through a linear coarse and middle switched capacitor array, and offers superior phase noise performance compared to recent state-of-the-art VCO architectures. The design is implemented in a 45 nm CMOS process and occupies a layout area (including output buffers) of 0.14 mm2. The power consumption of the VCO core is 24 mW from the power supply of 0.8 V. The post-layout simulation result shows the VCO achieves the phase noise performances of −87.2 dBc/Hz and −113 dBc/Hz, at 100 kHz and 1 MHz offset frequencies from the carrier frequency of 14 GHz, respectively. In an 18 GHz carrier frequency, the results are −87.4 dBc/Hz and −110 dBc/Hz, accordingly.
Highlights
Oscillator (VCO) based on the transconductance linearization technique
A wide-range and low phase noise voltage controlled oscillator (VCO) is designed with the linear transconductance technique
The presented architecture is implemented in a 40-nm CMOS process, and the VCO core consumes 24 mW power from the power supply of 0.8 V
Summary
Since the frequency steps and transceiver, the buffer isolates the VCO from the other signal path of the transceiver At both inputs the fixed unit capacitor of the coarse stage are large, the switch sizes in this stage are selected to be of the buffer, AC coupling capacitors are provided to block the DC components of the AC waveform, large enough to minimize the on-resistance. The tail inductor resonates with the parasitic capacitance of the tail node (2w0 ), and prevents the loading of the tank when one of the cross-coupled transistors enters the triode region, thereby improving phase noise This method enhances the linearity of the cross-couple transistors and lowers the current harmonics. Routing.the routing routing and improving phase noise performance, (c) simplified layout pattern of the VCO routing
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