Automatic interference detection and avoidance in radar transceiver systems

What is claimed is: 1 . A radar system, comprising: a radar semiconductor chip comprising: a ramp signal generator configured to generate a frequency-modulated ramp signal within a predefined radar frequency range, the frequency-modulated ramp signal comprising a plurality of frequency ramps each starting at a respective ramp start frequency and ending at a respective ramp stop frequency, wherein the respective ramp start frequencies and the respective ramp stop frequencies of the plurality of frequency ramps define a first frequency range; a transceiver configured to receive at least one radio frequency (RF) signal from an antenna, the transceiver comprising an interference detection circuit configured to detect an external interference signal included in the at least one RF signal, the external interference signal being within the predefined radar frequency range; and a controller configured to autonomously adjust at least one ramp parameter based on the detected external interference signal and autonomously transmit the at least one adjusted ramp parameter to a microcontroller. 2 . The radar system of claim 1 , wherein: the at least one ramp parameter is the first frequency range, and in response to detecting the external interference signal, the controller is configured to autonomously control the ramp signal generator to shift the first frequency range within the predefined radar frequency range. 3 . The radar system of claim 1 , further comprising: the microcontroller, wherein the microcontroller is configured to receive the at least one adjusted ramp parameter and process radar data received from the radar semiconductor chip using the at least one adjusted ramp parameter to generate a range doppler map. 4 . The radar system of claim 3 , wherein the at least one ramp parameter includes at least one of the respective ramp start frequencies, the respective ramp stop frequencies, a bandwidth of the first frequency range, a ramp start time, or a sampling start time. 5 . The radar system of claim 1 , wherein: the transceiver is configured to transmit a radar signal based on the frequency-modulated ramp signal and receive a reflected radar signal derived from the radar signal, and the interference detection circuit is configured to detect the external interference signal in response to detecting a received RF signal being superimposed onto the reflected radar signal. 6 . The radar system of claim 5 , wherein: the transceiver includes a reception channel configured to receive the at least one RF signal, including the reflected radar signal, down-convert the at least one RF signal into a base band as a down-converted signal using the frequency-modulated ramp signal, and generate digital radar data based on the down-converted signal, and the interference detection circuit includes a level detector configured to receive the down-converted signal and generate an output pulse in response to a signal level of the down-converted signal exceeding a predetermined threshold level, wherein the output pulse indicates a detection of the external interference signal included in the at least one RF signal. 7 . The radar system of claim 6 , wherein the reception channel comprises: a mixer configured to receive the at least one RF signal and the frequency-modulated ramp signal and down-convert the at least one RF signal into the base band as the down-converted signal using the frequency-modulated ramp signal; and an analog-to-digital converter configured to generate the digital radar data based on the down-converted signal, wherein the level detector is coupled to a node arranged between the mixer and the analog-to-digital converter for receiving the down-converted signal therefrom. 8 . The radar system of claim 6 , wherein, in the absence of the external interference signal being superimposed onto the reflected radar signal, the signal level of the down-converted signal does not exceed the predetermined threshold level. 9 . The radar system of claim 6 , wherein the radar semiconductor chip comprises: an output terminal coupled to the reception channel and to the controller, wherein the output terminal is configured to transmit the at least one adjusted ramp parameter with the digital radar data to the microcontroller. 10 . The radar system of claim 9 , further comprising: the microcontroller, wherein the microcontroller is configured to receive the digital radar data and the at least one adjusted ramp parameter and process the digital radar data using the at least one adjusted ramp parameter to generate a range doppler map. 11 . The radar system of claim 6 , wherein the ramp signal generator comprises a local oscillator configured to generate the frequency-modulated ramp signal, wherein the frequency-modulated ramp signal includes a plurality of frames of frequency ramps, and wherein, in response to the interference detection circuit detecting the external interference signal in a current frame of frequency ramps, the controller is configured to autonomously adjust the at least one ramp parameter and autonomously transmit the at least one adjusted ramp parameter to the microcontroller during the current frame of frequency ramps in which the external interference signal is detected. 12 . The radar system of claim 11 , wherein the controller is configured to use the at least one adjusted ramp parameter for the ramp generator in subsequent frames of frequency ramps at least until a next external interference signal is detected. 13 . The radar system of claim 1 , wherein the frequency-modulated ramp signal includes a plurality of frames, each of the plurality of frames includes a sequence of frequency ramps and at least one interference detection ramp, the sequence of frequency ramps having the first frequency range, the transceiver includes a reception channel configured to receive the at least one RF signal and down-convert the at least one RF signal into a base band as a first down-converted signal using the interference detection ramp, the interference detection circuit is configured to detect the external interference signal in response to detecting a received RF signal being superimposed onto the interference detection ramp. 14 . The radar system of claim 13 , wherein, in response to detecting the external interference signal in a current frame of the frequency-modulated ramp signal, the controller is configured to autonomously adjust the at least one ramp parameter for a next frame of the frequency-modulated ramp signal and autonomously transmit the at least one adjusted ramp parameter to the microcontroller to be used by the microcontroller for the next frame of the frequency-modulated ramp signal. 15 . The radar system of claim 14 , further comprising: the microcontroller, wherein the microcontroller is configured to receive the at least one adjusted ramp parameter and process radar data received from the radar semiconductor chip using the at least one adjusted ramp parameter to generate a range doppler map. 16 . The radar system of claim 14 , wherein consecutive frames of the frequency-modulated ramp signal are separated by a configuration interval, and the controller is configured to transmit the at least one adjusted ramp parameter to the microcontroller in the configuration interval interposed between the current frame in which the external interference signal is detected and the next frame. 17 . The radar system of claim 16 , further comprising: the microcontroller, wherein: the transceiver is configured to transmit a rada