Radar sensor including synchronized high frequency components

The invention claimed is: 1. A radar sensor, comprising: at least two synchronously operating high frequency components, in which each has at least one respective signal path in which a phase of a transmitted high frequency signal on the respective signal path varies along the respective signal path based on temperature, a respective phase shifter being situated in each of the respective signal paths; wherein in each of the high frequency components, a respective phase detector is connected at a first end of the respective signal path and is connected at a second, opposite end of the respective signal path, such that the respective phase detector is connected in parallel to the respective signal path, the respective phase detector configured to supply a signal, the supplied signal assuming an extremum in a voltage amplitude at a certain phase difference, the certain phase difference being a difference between a phase of the transmitted high frequency signal at the first end of the respective signal path and a phase of the transmitted high frequency signal at the second, opposite end of the respective signal path, and wherein in each of the high frequency components, the respective phase shifter is configured to set, using the respective phase detector, a phase difference between the phase of the transmitted high frequency signal at the first end of the respective signal path and the phase of the transmitted high frequency signal at the second, opposite of the respective signal path in such a way that the signal supplied by the respective phase detector assumes the extremum in the voltage amplitude. 2. The radar sensor as recited in claim 1 , wherein each of the respective phase detectors is formed by a rectifier diode at which the transmitted high frequency signal at the first end of the respective signal path and the transmitted high frequency signal at the second, opposite end of the respective signal path are superposed with one another. 3. The radar sensor as recited in claim 1 , wherein each of the respective phase shifters is an IQ modulator. 4. The radar sensor as recited in claim 1 , wherein each of the high frequency components includes a respective local oscillator, and each of the respective local oscillators of the high frequency components is connected via a respective line having a known length to a shared reference signal source. 5. The radar sensor as recited in claim 4 , wherein each of the high frequency components includes a respective mixer, which is configured to mix a signal received in a receiver channel with a signal transmitted in a transmission channel. 6. The radar sensor as recited in claim 5 , wherein a synchronization signal output of each high frequency component of the high frequency components is couplable via a synchronization signal path to a respective synchronization signal input of every other high frequency component, and in each high frequency component, a synchronization signal received by the high frequency component via the respective synchronization signal path is fed from the respective synchronization signal input as a transmit signal via a respective further signal path to the respective mixer of the high frequency component. 7. The radar sensor as recited in claim 6 , wherein, in each high frequency component of the high frequency components, an output of at least one transmission channel forms a synchronization input and the synchronization signal output of the high frequency component. 8. The radar sensor as recited in claim 6 , wherein an output signal of the respective local oscillator of each high frequency component of the high frequency components is fed as a test signal via a respective signal path to the respective mixer of the high frequency component. 9. The radar sensor as recited in claim 5 , wherein each high frequency component of the high frequency components includes a respective further mixer, which is configured to monitor a complex amplitude of the signal transmitted in the transmission channel of the high frequency component.