A Delta–Sigma modulator-based heterodyne FMCW radar for short-range applications

Abstract: We present a heterodyne frequency-modulated continuous-wave (FMCW) radar, applicable in short-range applications. Owing to a modulation of the transmit (TX) signal, the intermediate frequency (IF) signal can be shifted away from zero frequency to reduce the influence of dc-offsets and low-frequency disturbances like, e.g. flicker noise existing in components like mixers, amplifiers and analog-to-digital converters. The presented system is based on E-band transceivers realized in SiGe technology, which are full… Show more

“…A digital binary phase-shift keying modulator, integrated into the transmitter, enables the frontend (FE) to switch the phase of the outgoing signals by Δ φ = 180° [14]. This modulator, clocked with f ΔΣ = 80 MHz, multiplies S LO,1 ( t ) with a ±1 sequence to generate the desired analog modulation frequency f mod .…”

In-chirp FSK communication between cooperative 77-GHz radar stations integrating variable power distribution between ranging and communication system

“…A digital binary phase-shift keying modulator, integrated into the transmitter, enables the frontend (FE) to switch the phase of the outgoing signals by Δ φ = 180° [14]. This modulator, clocked with f ΔΣ = 80 MHz, multiplies S LO,1 ( t ) with a ±1 sequence to generate the desired analog modulation frequency f mod .…”

In-chirp FSK communication between cooperative 77-GHz radar stations integrating variable power distribution between ranging and communication system

Multi-Purpose Fully Differential 61- and 122-GHz Radar Transceivers for Scalable MIMO Sensor Platforms

A Frequency-Division MIMO FMCW Radar System Based on Delta–Sigma Modulated Transmitters