Pulse compression radar

The invention claimed is: 1. A pulse compression radar, comprising: an ideal transmission signal memory configured to store a transmission signal before distortion occurs therein; a transmission signal amplifier configured to amplify the transmission signal inputted thereto and output an amplified transmission signal; an antenna configured to externally transmit the amplified transmission signal outputted by the transmission signal amplifier, and receive, as a reception signal, a reflection signal caused by the amplified transmission signal; a reception circuit configured to receive the reception signal from the antenna and propagate the reception signal received from the antenna to an analog-to-digital converter at a post-stage of the reception circuit; processing circuitry configured to obtain information regarding a target object based on the reception signal inputted thereto via the reception circuit and via the analog-to-digital converter; and a signal feedback circuit configured to propagate, as a feedback signal, the amplified transmission signal outputted by the transmission signal amplifier, to the reception circuit; wherein the processing circuitry is further configured to correct the amplified transmission signal so as to cancel the distortion that is caused by the amplification, and output a corrected transmission signal to the transmission signal amplifier, the amplified transmission signal being corrected based on the transmission signal stored in the ideal transmission signal memory and the feedback signal. 2. The pulse compression radar of claim 1 , wherein the reception circuit includes a mixer configured to drop a frequency of either one of the feedback signal and the reception signal, and wherein the signal feedback circuit is connected with the reception circuit so that the feedback signal is inputted between the mixer and the antenna. 3. The pulse compression radar of claim 1 , wherein the reception circuit includes a reception signal amplifier configured to amplify the reception signal, and wherein the signal feedback circuit is connected with the reception circuit so that the feedback signal is inputted between the reception signal amplifier and the processing circuitry. 4. The pulse compression radar of claim 1 , wherein the reception circuit includes a limiter configured to suppress a signal based on a signal level thereof, and wherein the signal feedback circuit is connected with the reception circuit so that the feedback signal is inputted between the limiter and the processing circuitry. 5. The pulse compression radar of claim 1 , wherein the reception circuit includes a switch configured to receive the feedback signal and the reception signal received by the antenna and alternately output one of the feedback signal and the reception signal. 6. The pulse compression radar of claim 5 , wherein the switch alternately outputs the feedback signal during the transmission of the amplified transmission signal by the antenna, and the reception signal during the reception of the reception signal by the antenna. 7. The pulse compression radar of claim 1 , wherein the transmission signal amplifier is a power amplifier. 8. The pulse compression radar of claim 1 , wherein the processing circuitry is further configured to calculate correction data that is data for performing the correction, wherein the processing circuitry compares the transmission signal stored in the ideal transmission signal memory with the feedback signal, and determines whether to recalculate the correction data based on the comparison result. 9. The pulse compression radar of claim 2 , wherein the reception circuit includes a reception signal amplifier configured to amplify the reception signal, and wherein the signal feedback circuit is connected with the reception circuit so that the feedback signal is inputted between the reception signal amplifier and the processing circuitry. 10. The pulse compression radar of claim 9 , wherein the reception circuit includes a limiter configured to suppress a signal based on a signal level thereof, and wherein the signal feedback circuit is connected with the reception circuit so that the feedback signal is inputted between the limiter and the processing circuitry. 11. The pulse compression radar of claim 10 , wherein the reception circuit includes a switch configured to receive the feedback signal and the reception signal received by the antenna and alternately output one of the feedback signal and the reception signal. 12. The pulse compression radar of claim 11 , wherein the switch alternately outputs the feedback signal during the transmission of the transmission signal by the antenna, and the reception signal during the reception of the reception signal by the antenna. 13. The pulse compression radar of claim 12 , wherein the transmission signal amplifier is a power amplifier. 14. The pulse compression radar of claim 13 , wherein the processing circuitry is further configured to calculate correction data that is data for performing the correction, wherein the processing circuitry compares the transmission signal stored in the ideal transmission signal memory with the feedback signal, and determines whether to recalculate the correction data based on the comparison result. 15. The pulse compression radar of claim 2 , wherein the reception circuit includes a limiter configured to suppress a signal based on a signal level thereof, and wherein the signal feedback circuit is connected with the reception circuit so that the feedback signal is inputted between the limiter and the processing circuitry. 16. The pulse compression radar of claim 2 , wherein the reception circuit includes a switch configured to receive the feedback signal and the reception signal received by the antenna and alternately output one of the feedback signal and the reception signal. 17. The pulse compression radar of claim 2 , wherein the transmission signal amplifier is a power amplifier. 18. The pulse compression radar of claim 2 wherein the processing circuitry is further configured to calculate correction data that is data for performing the correction, wherein the processing circuitry compares the transmission signal stored in the ideal transmission signal memory with the feedback signal, and determines whether to recalculate the correction data based on the comparison result. 19. The pulse compression radar of claim 3 , wherein the reception circuit includes a limiter configured to suppress a signal based on a signal level thereof, and wherein the signal feedback circuit is connected with the reception circuit so that the feedback signal is inputted between the limiter and the processing circuitry. 20. The pulse compression radar of claim 3 wherein the reception circuit includes a switch configured to receive the feedback signal and the reception signal received by the antenna and alternately output one of the feedback signal and the reception signal.