A Varactor-Less DCO With <inline-formula> <tex-math notation="LaTeX">$7~GHz$ </tex-math></inline-formula> Tuning Range for <inline-formula> <tex-math notation="LaTeX">$77~GHz$ </tex-math></inline-formula> Automotive Radars

Abstract

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The generation of precise linear frequency modulation is a critical requirement for millimeterwave automotive radars. This paper presents the analysis and design of a CMOS 75.5 - 82.5 GHz monotonically linear digitally controlled oscillator (ML-DCO) fulfilling the requirements of the 77 GHz automotive radar. Non-linear large varactors are avoided. Linear coarse, intermediate, and fine-tuning ranges are achieved by arranging the available minimum Metal-Oxide-Metal (MoM) capacitor in unique configurations. Moreover, a new tuning mechanism derived from a Colpitts topology is discussed to meet the wide tuning requirements without losing linearity. The new arrangement results in a minimal amplitude variation while the ML-DCO is tuned. The coarse, intermediate, and fine-tuning steps from the post-layout simulation are 0.22, 10, and 346 KHz, respectively. The power consumption is 14 mW from a 1.2 V supply. The achieved phase-noise is -98.53 dBc/Hz at a 1 MHz offset when oscillating at 77 GHz. The ML-DCO demonstrates -185 Figure of Merit and -184 Figure of Merit for Tuning.

Keywords

• Digitally controlled oscillator (DCO)
• frequency resolution
• millimeter-wave frequency
• stable amplitude of oscillation
• varactor-less digitally controlled oscillator (DCO)
• wide tuning range