A radar device includes a transmission module, a reception module, and a signal processing unit. The transmission module includes an RF signal source that generates a transmission chirp signal synchronized with a reference signal. The reception module includes an RF signal source that generates a reception chirp signal used as a reception local signal and synchronized with the reference signal. The reception module receives a reflected wave of the transmission chirp signal emitted from the transmission module, and mixes a received reception signal with the reception chirp signal. The signal processing unit detects a target based on a beat signal generated by the mixing by the reception module. The signal processing unit controls at least one of the RF signal sources such that between the transmission chirp signal and the reception chirp signal are output at timings shifted from each other, and corrects a change in a phase difference between the transmission module and the reception module, using a phase of a signal of a direct wave from the transmission module to the reception module.

A distance measuring device includes a calculating section configured to calculate, based on phase information acquired by a first device and a second device, at least one of which is movable, a distance between the first device and the second device. The first device includes a first reference signal source and a first transceiver configured to transmit two or more first carrier signals and receives two or more second carrier signals using an output of the first reference signal source. The second device includes a second reference signal source configured to operate independently from the first reference signal source and a second transceiver configured to transmit the second carrier signals and receives the first carrier signals using an output of the second reference signal source. The calculating section calculates the distance based on a phase detection result obtained by reception of the first and second carrier signals.

According to an aspect, method in a radar receiver system comprising, receiving a radar signal reflected from a target on a plurality of antennas, wherein the radar signal is a frequency modulated continuous wave (FMCW) signal comprising plurality of chirps, extracting a plurality of range bins from the radar signal, generating a plurality of reference angles and a plurality of reference velocities from a plurality of reference parameters, determining a plurality of reference weights from the plurality of reference angles and plurality of reference velocities, filtering the radar signal with the filter weights set to equal to the plurality of reference weights.

A method for monitoring an FMCW radar sensor and an FMCW radar sensor, including multiple local oscillators. In the method, a first local oscillator signal of a first local oscillator of the local oscillators is mixed in a mixer with a second local oscillator signal of a second local oscillator of the local oscillators to form a baseband signal. The baseband signal is evaluated. A fault is detected due to a result of the evaluation. Methods for monitoring an FMCW radar sensor and an FMCW radar sensor including multiple high frequency components are described which each include a transceiver part for outputting a transmit signal to at least one antenna assigned to the high frequency component and for receiving a receive signal from at least one antenna assigned to the high frequency component.

A radar target simulation system for simulating at least one moving radar target is disclosed. The radar target simulation system includes an analog to digital converter and at least one digital processing channel. The digital processing channel includes a delay circuit or unit, a resampling circuit or unit and a frequency shifting circuit or unit. Moreover, a method for operating a radar target simulation system is disclosed.

Various aspects may include an apparatus for radar calibration including a radar control system and a first radar antenna and a second radar antenna, one on the inside of a device housing area and the other on the outside of a device housing area. Both antennae may be mounted to the device housing area. By transmitting a signal from one antenna to the other, various aspects of the signal may be measured by the radar control system in order to determine a calibration parameter for radar calibration.

A distance measuring apparatus according to an embodiment includes, a filter section configured to perform band limitation on a transmission signal and output the transmission signal, and to perform band limitation on a reception signal from an antenna section and output the reception signal, a distance measuring section configured to perform a distance measurement computation based on the transmission signal and the reception signal, and to obtain a delay of a signal passing through the filter section and perform calibration of the distance measurement computation, a signal interruption section configured to interrupt transmission of a signal between the filter section and the antenna section, and a control section configured to control the signal interruption section to interrupt the transmission of the signal during a period of the calibration.

The disclosure provides an apparatus including: a pair of signal injection transistors each having a gate terminal coupled to a differential reference signal, and a pair of cross-coupled amplifier transistors configured to amplify a voltage of the differential reference signal to yield a voltage-amplified reference signal at a local oscillator (LO) port of a mixer; an electronic oscillator having an oscillation output node coupled to the LO port of the mixer in parallel with the injection-locked buffer, and configured to generate an oscillator output for transmission to the output node based on a back gate bias voltage applied to the electronic oscillator; and an access transistor having a gate coupled to a switching node, and a back gate terminal coupled to the back gate bias voltage, wherein the access transistor is configured to enable or disable current flow through the electronic oscillator in parallel with the injection-locked buffer.

A device may include a receive antenna input to couple a receive chain of the device to a receive antenna. The device may include a test signal generator. The device may include a switchable impedance matching circuit coupled to the test signal generator and to the receive chain to cause an impedance matching between the test signal generator and at least one component of the receive chain to depend on an impedance of the receive antenna in an antenna monitoring phase. The antenna monitoring phase may be associated with determining an impedance mismatching of the receive antenna. The device may include a control circuit to determine the impedance mismatching of the receive antenna in the antenna monitoring phase.

Examples disclosed herein relate to a system for real-time calibration of a phased array antenna integrated in a beam steering radar. The system includes a calibration unit for injecting a calibration signal to the phased array antenna during operation of the beam steering radar, the calibration signal at a frequency different than a frequency of operation of the beam steering radar, a plurality of transmit calibration couplers for receiving the injected signal, the transmit calibration couplers connected to a plurality of amplifiers and phase shifters in the phased array antenna to generate a phase shifted and amplified signal, and a plurality of receive calibration couplers connected to the plurality of phase shifters for transmitting the phase shifted and amplified signal to the calibration unit for measurement.