Abstract
A frequency synthesiser architecture for millimetre-wave applications is proposed. The architecture is based on a triple-push oscillator, which functions both as a divider and oscillator. Thus, the proposed architecture eliminates the need for injection locked frequency dividers that are the main contributors to the limited tuning capability of millimetre-wave phase-locked loops. Since the proposed architecture is solely based on the performance of the triple-push oscillator, the measurement result of the first silicon triple-push oscillator at 30 GHz is presented to support the validity of the concept.
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