Processing circuit and signal correction method

The invention claimed is: 1. A processing circuit mounted on a printed board, comprising: a transmission circuit, mounted on the printed board and having first attenuation characteristics of attenuating an amplitude of a reception signal that has been received, to send out the reception signal that has been attenuated according to the first attenuation characteristics, as an attenuation signal; and a correction circuit, mounted on the printed board and having second attenuation characteristics of attenuating the attenuation signal that has been received from the transmission circuit, to transmit the attenuation signal that has been attenuated according to the second attenuation characteristics, as a correction signal, the first attenuation characteristics of the transmission circuit being characteristics with which a ratio of an amplitude of the attenuation signal to an amplitude of the reception signal decreases as a frequency of the reception signal increases, the second attenuation characteristics of the correction circuit being characteristics with which a ratio of an amplitude of the correction signal to an amplitude of the attenuation signal increases as a frequency of the attenuation signal increases, and wherein the ratio of the amplitude of the correction signal to the amplitude of the attenuation signal has a change amount that is smaller than a change amount of the ratio of the amplitude of the attenuation signal to the amplitude of the reception signal. 2. The processing circuit according to claim 1 , wherein the second attenuation characteristics of the correction signal are inverse characteristics to the first attenuation characteristics, with which inverse characteristics the attenuation signal is attenuated such that the ratio of the amplitude of the correction signal to the amplitude of the reception signal is constant regardless of the frequency of the attenuation signal. 3. The processing circuit according to claim 1 , wherein the correction circuit attenuates the attenuation signal based on a first value that expresses a relation between the frequency of the reception signal and the ratio of the amplitude of the attenuation signal to the amplitude of the reception signal. 4. The processing circuit according to claim 3 , wherein the second attenuation characteristics of the correction circuit are calculated based on a second value being a result of approximation of the first value to a straight line. 5. The processing circuit according to claim 1 , wherein the correction circuit has a high-pass filter. 6. The processing circuit according to claim 1 , wherein the correction circuit is constituted of a capacitor and an inductor. 7. The processing circuit according to claim 1 , wherein the correction circuit has a Butterworth-type high-pass filter. 8. The processing circuit according to claim 1 , comprising a control circuit that changes a cutoff frequency, being a maximum value of a frequency within a frequency band where, according to the second attenuation characteristics, the ratio of the amplitude of the correction signal to the amplitude of the attenuation signal increases as the frequency of the attenuation signal increases. 9. The processing circuit according to claim 1 , comprising: a driver, mounted on the printed board, to send out the reception signal to the transmission circuit; and a receiver, mounted on the printed board, to receive the correction signal from the correction circuit. 10. The processing circuit according to claim 9 , wherein the receiver amplifies the amplitude of the correction signal and sends out the amplified correction signal. 11. The processing circuit according to claim 9 , wherein the driver amplifies the amplitude of the reception signal before sending out the reception signal, and sends out the amplified reception signal. 12. A signal correction method of a processing circuit mounted on a printed board, the signal correction method comprising: by a transmission circuit, mounted on the printed board, to transmit a reception signal that has been received, as an attenuation signal, transmitting the reception signal that has been attenuated, as the attenuation signal, the reception signal having been attenuated according to first attenuation characteristics with which a ratio of an amplitude of the attenuation signal to an amplitude of the reception signal decreases as a frequency of the reception signal increases; and by a correction circuit, mounted on the printed board, to transmit the attenuation signal that has been received from the transmission signal, as a correction signal, transmitting the attenuation signal that has been attenuated, as the correction signal, the attenuation signal having been attenuated according to second attenuation characteristics with which a ratio of an amplitude of the correction signal to the amplitude of the attenuation signal increases as a frequency of the attenuation signal increases, wherein the ratio of the amplitude of the correction signal to the amplitude of the attenuation signal has a change amount that is smaller than a change amount of the ratio of the amplitude of the attenuation signal to the amplitude of the reception signal. 13. A processing circuit mounted on a printed board, comprising: a transmission circuit, mounted on the printed board and having first attenuation characteristics of attenuating an amplitude of a reception signal that has been received, to send out the reception signal that has been attenuated according to the first attenuation characteristics, as an attenuation signal; and a correction circuit, mounted on the printed board and having second attenuation characteristics of attenuating the attenuation signal that has been received from the transmission circuit, to transmit the attenuation signal that has been attenuated according to the second attenuation characteristics, as a correction signal, the first attenuation characteristics of the transmission circuit being characteristics with which a ratio of an amplitude of the attenuation signal to an amplitude of the reception signal decreases as a frequency of the reception signal increases, the second attenuation characteristics of the correction circuit being characteristics with which a ratio of an amplitude of the correction signal to an amplitude of the attenuation signal increases as a frequency of the attenuation signal increases, and wherein the correction circuit attenuates the attenuation signal based on a first value that expresses a relation between the frequency of the reception signal and the ratio of the amplitude of the attenuation signal to the amplitude of the reception signal. 14. The processing circuit according to claim 13 , wherein the second attenuation characteristics of the correction circuit are calculated based on a second value being a result of approximation of the first value to a straight line. 15. A processing circuit mounted on a printed board, comprising: a transmission circuit, mounted on the printed board and having first attenuation characteristics of attenuating an amplitude of a reception signal that has been received, to send out the reception signal that has been attenuated according to the first attenuation characteristics, as an attenuation signal; a correction circuit, mounted on the printed board and having second attenuation characteristics of attenuating the attenuation signal that has been received from the transmission circuit, to transmit the attenuation signal that has been attenuated according to the second attenuation characteristics, as a correction signal, the first attenuation characterist