Frequency multipliers in CMOS are key blocks in new emerging applications at μ-waves and mmwaves. Classical solutions, in bipolar technology, exploit the steep non-linear I-V characteristic in order to generate output harmonics at multiples of the input signal frequency. This solution would lead to a very limited gain(or even loss) in CMOS. In this paper we propose a novel circuit topology where a differential pair, in push-push configuration, locks an LC oscillator over a wide frequency range. A behavioral model of the circuit is presented and simple design equations for locking range and output swing are derived. Prototypes, realized in a standard 0.13μm CMOS technology, show 30% locking rangearound 13GHz with 3dBm input power. Suppression of the unwanted input signal and its 3rd harmonic is better than 45dBc. Core power dissipation is 5.2mW only, less than half compared with state of the art.
A 5.2mW Ku-Band CMOS Injection-Locked Frequency Doubler with Differential Input / Output / Monaco, Enrico; Borgarino, Mattia; F., Svelto; Mazzanti, Andrea. - STAMPA. - (2009), pp. 61-64. (Intervento presentato al convegno 2009 IEEE Custom Integrated Circuits Conference, CICC '09 tenutosi a San José (California) nel Settembre 2009) [10.1109/CICC.2009.5280886].
A 5.2mW Ku-Band CMOS Injection-Locked Frequency Doubler with Differential Input / Output
MONACO, Enrico;BORGARINO, Mattia;MAZZANTI, Andrea
2009
Abstract
Frequency multipliers in CMOS are key blocks in new emerging applications at μ-waves and mmwaves. Classical solutions, in bipolar technology, exploit the steep non-linear I-V characteristic in order to generate output harmonics at multiples of the input signal frequency. This solution would lead to a very limited gain(or even loss) in CMOS. In this paper we propose a novel circuit topology where a differential pair, in push-push configuration, locks an LC oscillator over a wide frequency range. A behavioral model of the circuit is presented and simple design equations for locking range and output swing are derived. Prototypes, realized in a standard 0.13μm CMOS technology, show 30% locking rangearound 13GHz with 3dBm input power. Suppression of the unwanted input signal and its 3rd harmonic is better than 45dBc. Core power dissipation is 5.2mW only, less than half compared with state of the art.
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