This work presents a D-band monostatic radar system operating from 144.6 to 161 GHz, which is placed inside a 3-D-printed low-cost case with a built-in lens to boost the antenna (ANT) directivity. The monolithic microwave integrated circuit (MMIC) is manufactured in a 130-nm BiCMOS process and includes a compact transceiver architecture consisting of an oscillator, a diode-based mixer, and an on-chip antenna. The implemented topology allows to significantly improve the signalto-noise ratio and features a built-in self-test (BIST) structure with the possibility to provide on-chip antenna characterization using power sensors in combination with a directional coupler. Housed inside the robust printed package, the MMIC has only dc and baseband frequency connections, which offers ease of handling and poses the low-cost potential for a variety of applications. The complete transceiver chip consumes only 84.7 mA from a 3.3-V supply and its size is 1964 µm × 1448 µm. Together with the package the sensor measures a size of 42.2 mm × 42.2 mm × 45.7 mm.
This letter presents a 140-GHz frequencymodulated continuous-wave (FMCW) radar sensor for automotive applications. The monolithic microwave integrated circuit (MMIC) inside of the sensor features one transmit (TX) and one receive (RX) channel as well as the possibility to apply binary phase shift keying (BPSK) modulation to the transmitted signal. The chip is bonded on a printed circuit board (PCB) that features substrate integrated waveguides (SIWs) to minimize losses in the signal distribution. It provides rectangular waveguide (RWG) outputs for the D-band to facilitate the connection of measurement equipment and antennas. The complete sensor system is controlled by a backend board that is connected via pin headers on top of the RF board with the bonded chip.
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